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@Test public void testToString() throws Exception { LogMessage msg = new LogMessage( "Log message", "Channel 01", LogLevel.DEBUG ); msg.setSubject( "Simple" ); assertEquals( "Simple - Log message", msg.toString( ) ); }
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@Override @Deprecated public String toString() { if ( message == null ) { return subject; } if ( arguments != null && arguments.length > 0 ) { return subject + " - " + MessageFormat.format( message, arguments ); } else { return subject + " - " + message; } }
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LogMessage implements LogMessageInterface { @Override @Deprecated public String toString() { if ( message == null ) { return subject; } if ( arguments != null && arguments.length > 0 ) { return subject + " - " + MessageFormat.format( message, arguments ); } else { return subject + " - " + message; } } }
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LogMessage implements LogMessageInterface { @Override @Deprecated public String toString() { if ( message == null ) { return subject; } if ( arguments != null && arguments.length > 0 ) { return subject + " - " + MessageFormat.format( message, arguments ); } else { return subject + " - " + message; } } LogMessage( String subject, LogLevel level ); LogMessage( String message, String logChannelId, LogLevel level ); LogMessage( String message, String logChannelId, Object[] arguments, LogLevel level ); }
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LogMessage implements LogMessageInterface { @Override @Deprecated public String toString() { if ( message == null ) { return subject; } if ( arguments != null && arguments.length > 0 ) { return subject + " - " + MessageFormat.format( message, arguments ); } else { return subject + " - " + message; } } LogMessage( String subject, LogLevel level ); LogMessage( String message, String logChannelId, LogLevel level ); LogMessage( String message, String logChannelId, Object[] arguments, LogLevel level ); @Override @Deprecated String toString(); @Override LogLevel getLevel(); @Deprecated void setLevel( LogLevel level ); @Override String getMessage(); @Deprecated void setMessage( String message ); @Override String getSubject(); @Deprecated void setSubject( String subject ); @Override String getLogChannelId(); @Deprecated void setLogChannelId( String logChannelId ); @Override Object[] getArguments(); @Deprecated void setArguments( Object[] arguments ); boolean isError(); @Override String getCopy(); void setCopy( String copy ); }
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LogMessage implements LogMessageInterface { @Override @Deprecated public String toString() { if ( message == null ) { return subject; } if ( arguments != null && arguments.length > 0 ) { return subject + " - " + MessageFormat.format( message, arguments ); } else { return subject + " - " + message; } } LogMessage( String subject, LogLevel level ); LogMessage( String message, String logChannelId, LogLevel level ); LogMessage( String message, String logChannelId, Object[] arguments, LogLevel level ); @Override @Deprecated String toString(); @Override LogLevel getLevel(); @Deprecated void setLevel( LogLevel level ); @Override String getMessage(); @Deprecated void setMessage( String message ); @Override String getSubject(); @Deprecated void setSubject( String subject ); @Override String getLogChannelId(); @Deprecated void setLogChannelId( String logChannelId ); @Override Object[] getArguments(); @Deprecated void setArguments( Object[] arguments ); boolean isError(); @Override String getCopy(); void setCopy( String copy ); }
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@Test public void testFormat() throws Exception { LogMessage mcg = new LogMessage( "Log message for {0}", "Channel 01", new String[]{ "Test" }, LogLevel.DEBUG ); mcg.setSubject( "Subject" ); KettleLoggingEvent event = new KettleLoggingEvent( mcg, 0, LogLevel.BASIC ); KettleLogLayout layout = new KettleLogLayout(); final String formattedMsg = layout.format( event ); Assert.assertEquals( "The log message must be formatted and not contain placeholders.", "Subject - Log message for Test", formattedMsg.substring( formattedMsg.indexOf( '-' ) + 2 ) ); }
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public String format( KettleLoggingEvent event ) { StringBuilder line = new StringBuilder(); String dateTimeString = ""; if ( timeAdded ) { dateTimeString = LOCAL_SIMPLE_DATE_PARSER.get().format( new Date( event.timeStamp ) ) + " - "; } Object object = event.getMessage(); if ( object instanceof LogMessage ) { LogMessage message = (LogMessage) object; String[] parts = message.getMessage() == null ? new String[] {} : message.getMessage().split( Const.CR ); for ( int i = 0; i < parts.length; i++ ) { line.append( dateTimeString ); if ( message.getSubject() != null ) { line.append( message.getSubject() ); if ( message.getCopy() != null ) { line.append( "." ).append( message.getCopy() ); } line.append( " - " ); } if ( i == 0 && message.isError() ) { BuildVersion buildVersion = BuildVersion.getInstance(); line.append( ERROR_STRING ); line.append( " (version " ); line.append( buildVersion.getVersion() ); if ( !Utils.isEmpty( buildVersion.getRevision() ) ) { line.append( ", build " ); line.append( buildVersion.getRevision() ); } if ( !Utils.isEmpty( buildVersion.getBuildDate() ) ) { line.append( " from " ); line.append( buildVersion.getBuildDate() ); } if ( !Utils.isEmpty( buildVersion.getBuildUser() ) ) { line.append( " by " ); line.append( buildVersion.getBuildUser() ); } line.append( ") : " ); } line.append( parts[i] ); if ( i < parts.length - 1 ) { line.append( Const.CR ); } } } else { line.append( dateTimeString ); line.append( ( object != null ? object.toString() : "<null>" ) ); } return line.toString(); }
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KettleLogLayout { public String format( KettleLoggingEvent event ) { StringBuilder line = new StringBuilder(); String dateTimeString = ""; if ( timeAdded ) { dateTimeString = LOCAL_SIMPLE_DATE_PARSER.get().format( new Date( event.timeStamp ) ) + " - "; } Object object = event.getMessage(); if ( object instanceof LogMessage ) { LogMessage message = (LogMessage) object; String[] parts = message.getMessage() == null ? new String[] {} : message.getMessage().split( Const.CR ); for ( int i = 0; i < parts.length; i++ ) { line.append( dateTimeString ); if ( message.getSubject() != null ) { line.append( message.getSubject() ); if ( message.getCopy() != null ) { line.append( "." ).append( message.getCopy() ); } line.append( " - " ); } if ( i == 0 && message.isError() ) { BuildVersion buildVersion = BuildVersion.getInstance(); line.append( ERROR_STRING ); line.append( " (version " ); line.append( buildVersion.getVersion() ); if ( !Utils.isEmpty( buildVersion.getRevision() ) ) { line.append( ", build " ); line.append( buildVersion.getRevision() ); } if ( !Utils.isEmpty( buildVersion.getBuildDate() ) ) { line.append( " from " ); line.append( buildVersion.getBuildDate() ); } if ( !Utils.isEmpty( buildVersion.getBuildUser() ) ) { line.append( " by " ); line.append( buildVersion.getBuildUser() ); } line.append( ") : " ); } line.append( parts[i] ); if ( i < parts.length - 1 ) { line.append( Const.CR ); } } } else { line.append( dateTimeString ); line.append( ( object != null ? object.toString() : "<null>" ) ); } return line.toString(); } }
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KettleLogLayout { public String format( KettleLoggingEvent event ) { StringBuilder line = new StringBuilder(); String dateTimeString = ""; if ( timeAdded ) { dateTimeString = LOCAL_SIMPLE_DATE_PARSER.get().format( new Date( event.timeStamp ) ) + " - "; } Object object = event.getMessage(); if ( object instanceof LogMessage ) { LogMessage message = (LogMessage) object; String[] parts = message.getMessage() == null ? new String[] {} : message.getMessage().split( Const.CR ); for ( int i = 0; i < parts.length; i++ ) { line.append( dateTimeString ); if ( message.getSubject() != null ) { line.append( message.getSubject() ); if ( message.getCopy() != null ) { line.append( "." ).append( message.getCopy() ); } line.append( " - " ); } if ( i == 0 && message.isError() ) { BuildVersion buildVersion = BuildVersion.getInstance(); line.append( ERROR_STRING ); line.append( " (version " ); line.append( buildVersion.getVersion() ); if ( !Utils.isEmpty( buildVersion.getRevision() ) ) { line.append( ", build " ); line.append( buildVersion.getRevision() ); } if ( !Utils.isEmpty( buildVersion.getBuildDate() ) ) { line.append( " from " ); line.append( buildVersion.getBuildDate() ); } if ( !Utils.isEmpty( buildVersion.getBuildUser() ) ) { line.append( " by " ); line.append( buildVersion.getBuildUser() ); } line.append( ") : " ); } line.append( parts[i] ); if ( i < parts.length - 1 ) { line.append( Const.CR ); } } } else { line.append( dateTimeString ); line.append( ( object != null ? object.toString() : "<null>" ) ); } return line.toString(); } KettleLogLayout(); KettleLogLayout( boolean addTime ); }
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KettleLogLayout { public String format( KettleLoggingEvent event ) { StringBuilder line = new StringBuilder(); String dateTimeString = ""; if ( timeAdded ) { dateTimeString = LOCAL_SIMPLE_DATE_PARSER.get().format( new Date( event.timeStamp ) ) + " - "; } Object object = event.getMessage(); if ( object instanceof LogMessage ) { LogMessage message = (LogMessage) object; String[] parts = message.getMessage() == null ? new String[] {} : message.getMessage().split( Const.CR ); for ( int i = 0; i < parts.length; i++ ) { line.append( dateTimeString ); if ( message.getSubject() != null ) { line.append( message.getSubject() ); if ( message.getCopy() != null ) { line.append( "." ).append( message.getCopy() ); } line.append( " - " ); } if ( i == 0 && message.isError() ) { BuildVersion buildVersion = BuildVersion.getInstance(); line.append( ERROR_STRING ); line.append( " (version " ); line.append( buildVersion.getVersion() ); if ( !Utils.isEmpty( buildVersion.getRevision() ) ) { line.append( ", build " ); line.append( buildVersion.getRevision() ); } if ( !Utils.isEmpty( buildVersion.getBuildDate() ) ) { line.append( " from " ); line.append( buildVersion.getBuildDate() ); } if ( !Utils.isEmpty( buildVersion.getBuildUser() ) ) { line.append( " by " ); line.append( buildVersion.getBuildUser() ); } line.append( ") : " ); } line.append( parts[i] ); if ( i < parts.length - 1 ) { line.append( Const.CR ); } } } else { line.append( dateTimeString ); line.append( ( object != null ? object.toString() : "<null>" ) ); } return line.toString(); } KettleLogLayout(); KettleLogLayout( boolean addTime ); String format( KettleLoggingEvent event ); boolean ignoresThrowable(); void activateOptions(); boolean isTimeAdded(); void setTimeAdded( boolean addTime ); }
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KettleLogLayout { public String format( KettleLoggingEvent event ) { StringBuilder line = new StringBuilder(); String dateTimeString = ""; if ( timeAdded ) { dateTimeString = LOCAL_SIMPLE_DATE_PARSER.get().format( new Date( event.timeStamp ) ) + " - "; } Object object = event.getMessage(); if ( object instanceof LogMessage ) { LogMessage message = (LogMessage) object; String[] parts = message.getMessage() == null ? new String[] {} : message.getMessage().split( Const.CR ); for ( int i = 0; i < parts.length; i++ ) { line.append( dateTimeString ); if ( message.getSubject() != null ) { line.append( message.getSubject() ); if ( message.getCopy() != null ) { line.append( "." ).append( message.getCopy() ); } line.append( " - " ); } if ( i == 0 && message.isError() ) { BuildVersion buildVersion = BuildVersion.getInstance(); line.append( ERROR_STRING ); line.append( " (version " ); line.append( buildVersion.getVersion() ); if ( !Utils.isEmpty( buildVersion.getRevision() ) ) { line.append( ", build " ); line.append( buildVersion.getRevision() ); } if ( !Utils.isEmpty( buildVersion.getBuildDate() ) ) { line.append( " from " ); line.append( buildVersion.getBuildDate() ); } if ( !Utils.isEmpty( buildVersion.getBuildUser() ) ) { line.append( " by " ); line.append( buildVersion.getBuildUser() ); } line.append( ") : " ); } line.append( parts[i] ); if ( i < parts.length - 1 ) { line.append( Const.CR ); } } } else { line.append( dateTimeString ); line.append( ( object != null ? object.toString() : "<null>" ) ); } return line.toString(); } KettleLogLayout(); KettleLogLayout( boolean addTime ); String format( KettleLoggingEvent event ); boolean ignoresThrowable(); void activateOptions(); boolean isTimeAdded(); void setTimeAdded( boolean addTime ); static final String ERROR_STRING; }
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@Test public void testEquals() throws Exception { LoggingObjectInterface parent = new LoggingObject( new SimpleLoggingObject( "parent", LoggingObjectType.JOB, null ) ); LoggingObject loggingObject1 = new LoggingObject( "test" ); loggingObject1.setFilename( "fileName" ); loggingObject1.setParent( parent ); loggingObject1.setObjectName( "job1" ); LoggingObject loggingObject2 = new LoggingObject( "test" ); loggingObject2.setFilename( "fileName" ); loggingObject2.setParent( parent ); loggingObject2.setObjectName( "job2" ); Assert.assertFalse( loggingObject1.equals( loggingObject2 ) ); }
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@Override public boolean equals( Object obj ) { if ( !( obj instanceof LoggingObject ) ) { return false; } if ( obj == this ) { return true; } try { LoggingObject loggingObject = (LoggingObject) obj; boolean sameCarteFamily = ( getContainerObjectId() == null && loggingObject.getContainerObjectId() == null ) || ( getContainerObjectId() != null && loggingObject.getContainerObjectId() != null && getContainerObjectId() .equals( loggingObject.getContainerObjectId() ) ); if ( sameCarteFamily && loggingObject.getObjectId() != null && loggingObject.getObjectId().equals( getObjectId() ) ) { return true; } boolean sameParents = loggingObject.getParent() == null && this.getParent() == null || loggingObject.getParent() != null && this.getParent() != null && loggingObject.getParent().equals( this.getParent() ); if ( sameCarteFamily && !Utils.isEmpty( loggingObject.getFilename() ) && loggingObject.getFilename().equals( getFilename() ) && sameParents && StringUtils.equals( loggingObject.getObjectName(), getObjectName() ) ) { return true; } if ( !sameCarteFamily || ( loggingObject.getObjectName() == null && getObjectName() != null ) || ( loggingObject.getObjectName() != null && getObjectName() == null ) ) { return false; } if ( sameCarteFamily && ( ( loggingObject.getObjectName() == null && getObjectName() == null ) || ( loggingObject .getObjectName().equals( getObjectName() ) ) ) && loggingObject.getObjectType().equals( getObjectType() ) ) { if ( !Utils.isEmpty( getObjectCopy() ) && !getObjectCopy().equals( loggingObject.getObjectCopy() ) ) { return false; } LoggingObjectInterface parent1 = loggingObject.getParent(); LoggingObjectInterface parent2 = getParent(); if ( ( parent1 != null && parent2 == null ) || ( parent1 == null && parent2 != null ) ) { return false; } if ( parent1 == null && parent2 == null ) { return true; } if ( parent1.equals( parent2 ) ) { return true; } } } catch ( Exception e ) { e.printStackTrace(); } return false; }
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LoggingObject implements LoggingObjectInterface { @Override public boolean equals( Object obj ) { if ( !( obj instanceof LoggingObject ) ) { return false; } if ( obj == this ) { return true; } try { LoggingObject loggingObject = (LoggingObject) obj; boolean sameCarteFamily = ( getContainerObjectId() == null && loggingObject.getContainerObjectId() == null ) || ( getContainerObjectId() != null && loggingObject.getContainerObjectId() != null && getContainerObjectId() .equals( loggingObject.getContainerObjectId() ) ); if ( sameCarteFamily && loggingObject.getObjectId() != null && loggingObject.getObjectId().equals( getObjectId() ) ) { return true; } boolean sameParents = loggingObject.getParent() == null && this.getParent() == null || loggingObject.getParent() != null && this.getParent() != null && loggingObject.getParent().equals( this.getParent() ); if ( sameCarteFamily && !Utils.isEmpty( loggingObject.getFilename() ) && loggingObject.getFilename().equals( getFilename() ) && sameParents && StringUtils.equals( loggingObject.getObjectName(), getObjectName() ) ) { return true; } if ( !sameCarteFamily || ( loggingObject.getObjectName() == null && getObjectName() != null ) || ( loggingObject.getObjectName() != null && getObjectName() == null ) ) { return false; } if ( sameCarteFamily && ( ( loggingObject.getObjectName() == null && getObjectName() == null ) || ( loggingObject .getObjectName().equals( getObjectName() ) ) ) && loggingObject.getObjectType().equals( getObjectType() ) ) { if ( !Utils.isEmpty( getObjectCopy() ) && !getObjectCopy().equals( loggingObject.getObjectCopy() ) ) { return false; } LoggingObjectInterface parent1 = loggingObject.getParent(); LoggingObjectInterface parent2 = getParent(); if ( ( parent1 != null && parent2 == null ) || ( parent1 == null && parent2 != null ) ) { return false; } if ( parent1 == null && parent2 == null ) { return true; } if ( parent1.equals( parent2 ) ) { return true; } } } catch ( Exception e ) { e.printStackTrace(); } return false; } }
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LoggingObject implements LoggingObjectInterface { @Override public boolean equals( Object obj ) { if ( !( obj instanceof LoggingObject ) ) { return false; } if ( obj == this ) { return true; } try { LoggingObject loggingObject = (LoggingObject) obj; boolean sameCarteFamily = ( getContainerObjectId() == null && loggingObject.getContainerObjectId() == null ) || ( getContainerObjectId() != null && loggingObject.getContainerObjectId() != null && getContainerObjectId() .equals( loggingObject.getContainerObjectId() ) ); if ( sameCarteFamily && loggingObject.getObjectId() != null && loggingObject.getObjectId().equals( getObjectId() ) ) { return true; } boolean sameParents = loggingObject.getParent() == null && this.getParent() == null || loggingObject.getParent() != null && this.getParent() != null && loggingObject.getParent().equals( this.getParent() ); if ( sameCarteFamily && !Utils.isEmpty( loggingObject.getFilename() ) && loggingObject.getFilename().equals( getFilename() ) && sameParents && StringUtils.equals( loggingObject.getObjectName(), getObjectName() ) ) { return true; } if ( !sameCarteFamily || ( loggingObject.getObjectName() == null && getObjectName() != null ) || ( loggingObject.getObjectName() != null && getObjectName() == null ) ) { return false; } if ( sameCarteFamily && ( ( loggingObject.getObjectName() == null && getObjectName() == null ) || ( loggingObject .getObjectName().equals( getObjectName() ) ) ) && loggingObject.getObjectType().equals( getObjectType() ) ) { if ( !Utils.isEmpty( getObjectCopy() ) && !getObjectCopy().equals( loggingObject.getObjectCopy() ) ) { return false; } LoggingObjectInterface parent1 = loggingObject.getParent(); LoggingObjectInterface parent2 = getParent(); if ( ( parent1 != null && parent2 == null ) || ( parent1 == null && parent2 != null ) ) { return false; } if ( parent1 == null && parent2 == null ) { return true; } if ( parent1.equals( parent2 ) ) { return true; } } } catch ( Exception e ) { e.printStackTrace(); } return false; } LoggingObject( Object object ); }
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LoggingObject implements LoggingObjectInterface { @Override public boolean equals( Object obj ) { if ( !( obj instanceof LoggingObject ) ) { return false; } if ( obj == this ) { return true; } try { LoggingObject loggingObject = (LoggingObject) obj; boolean sameCarteFamily = ( getContainerObjectId() == null && loggingObject.getContainerObjectId() == null ) || ( getContainerObjectId() != null && loggingObject.getContainerObjectId() != null && getContainerObjectId() .equals( loggingObject.getContainerObjectId() ) ); if ( sameCarteFamily && loggingObject.getObjectId() != null && loggingObject.getObjectId().equals( getObjectId() ) ) { return true; } boolean sameParents = loggingObject.getParent() == null && this.getParent() == null || loggingObject.getParent() != null && this.getParent() != null && loggingObject.getParent().equals( this.getParent() ); if ( sameCarteFamily && !Utils.isEmpty( loggingObject.getFilename() ) && loggingObject.getFilename().equals( getFilename() ) && sameParents && StringUtils.equals( loggingObject.getObjectName(), getObjectName() ) ) { return true; } if ( !sameCarteFamily || ( loggingObject.getObjectName() == null && getObjectName() != null ) || ( loggingObject.getObjectName() != null && getObjectName() == null ) ) { return false; } if ( sameCarteFamily && ( ( loggingObject.getObjectName() == null && getObjectName() == null ) || ( loggingObject .getObjectName().equals( getObjectName() ) ) ) && loggingObject.getObjectType().equals( getObjectType() ) ) { if ( !Utils.isEmpty( getObjectCopy() ) && !getObjectCopy().equals( loggingObject.getObjectCopy() ) ) { return false; } LoggingObjectInterface parent1 = loggingObject.getParent(); LoggingObjectInterface parent2 = getParent(); if ( ( parent1 != null && parent2 == null ) || ( parent1 == null && parent2 != null ) ) { return false; } if ( parent1 == null && parent2 == null ) { return true; } if ( parent1.equals( parent2 ) ) { return true; } } } catch ( Exception e ) { e.printStackTrace(); } return false; } LoggingObject( Object object ); @Override boolean equals( Object obj ); @Override String getObjectName(); void setObjectName( String name ); @Override RepositoryDirectoryInterface getRepositoryDirectory(); void setRepositoryDirectory( RepositoryDirectory repositoryDirectory ); @Override String getFilename(); void setFilename( String filename ); @Override ObjectId getObjectId(); void setObjectId( ObjectId objectId ); @Override ObjectRevision getObjectRevision(); void setObjectRevision( ObjectRevision objectRevision ); @Override String getLogChannelId(); void setLogChannelId( String logChannelId ); @Override LoggingObjectInterface getParent(); void setParent( LoggingObjectInterface parent ); @Override LoggingObjectType getObjectType(); void setObjectType( LoggingObjectType objectType ); @Override String getObjectCopy(); void setObjectCopy( String objectCopy ); @Override LogLevel getLogLevel(); void setLogLevel( LogLevel logLevel ); @Override String getContainerObjectId(); void setCarteObjectId( String carteObjectId ); @Override Date getRegistrationDate(); void setRegistrationDate( Date registrationDate ); @Override boolean isGatheringMetrics(); @Override void setGatheringMetrics( boolean gatheringMetrics ); @Override boolean isForcingSeparateLogging(); @Override void setForcingSeparateLogging( boolean forcingSeparateLogging ); }
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LoggingObject implements LoggingObjectInterface { @Override public boolean equals( Object obj ) { if ( !( obj instanceof LoggingObject ) ) { return false; } if ( obj == this ) { return true; } try { LoggingObject loggingObject = (LoggingObject) obj; boolean sameCarteFamily = ( getContainerObjectId() == null && loggingObject.getContainerObjectId() == null ) || ( getContainerObjectId() != null && loggingObject.getContainerObjectId() != null && getContainerObjectId() .equals( loggingObject.getContainerObjectId() ) ); if ( sameCarteFamily && loggingObject.getObjectId() != null && loggingObject.getObjectId().equals( getObjectId() ) ) { return true; } boolean sameParents = loggingObject.getParent() == null && this.getParent() == null || loggingObject.getParent() != null && this.getParent() != null && loggingObject.getParent().equals( this.getParent() ); if ( sameCarteFamily && !Utils.isEmpty( loggingObject.getFilename() ) && loggingObject.getFilename().equals( getFilename() ) && sameParents && StringUtils.equals( loggingObject.getObjectName(), getObjectName() ) ) { return true; } if ( !sameCarteFamily || ( loggingObject.getObjectName() == null && getObjectName() != null ) || ( loggingObject.getObjectName() != null && getObjectName() == null ) ) { return false; } if ( sameCarteFamily && ( ( loggingObject.getObjectName() == null && getObjectName() == null ) || ( loggingObject .getObjectName().equals( getObjectName() ) ) ) && loggingObject.getObjectType().equals( getObjectType() ) ) { if ( !Utils.isEmpty( getObjectCopy() ) && !getObjectCopy().equals( loggingObject.getObjectCopy() ) ) { return false; } LoggingObjectInterface parent1 = loggingObject.getParent(); LoggingObjectInterface parent2 = getParent(); if ( ( parent1 != null && parent2 == null ) || ( parent1 == null && parent2 != null ) ) { return false; } if ( parent1 == null && parent2 == null ) { return true; } if ( parent1.equals( parent2 ) ) { return true; } } } catch ( Exception e ) { e.printStackTrace(); } return false; } LoggingObject( Object object ); @Override boolean equals( Object obj ); @Override String getObjectName(); void setObjectName( String name ); @Override RepositoryDirectoryInterface getRepositoryDirectory(); void setRepositoryDirectory( RepositoryDirectory repositoryDirectory ); @Override String getFilename(); void setFilename( String filename ); @Override ObjectId getObjectId(); void setObjectId( ObjectId objectId ); @Override ObjectRevision getObjectRevision(); void setObjectRevision( ObjectRevision objectRevision ); @Override String getLogChannelId(); void setLogChannelId( String logChannelId ); @Override LoggingObjectInterface getParent(); void setParent( LoggingObjectInterface parent ); @Override LoggingObjectType getObjectType(); void setObjectType( LoggingObjectType objectType ); @Override String getObjectCopy(); void setObjectCopy( String objectCopy ); @Override LogLevel getLogLevel(); void setLogLevel( LogLevel logLevel ); @Override String getContainerObjectId(); void setCarteObjectId( String carteObjectId ); @Override Date getRegistrationDate(); void setRegistrationDate( Date registrationDate ); @Override boolean isGatheringMetrics(); @Override void setGatheringMetrics( boolean gatheringMetrics ); @Override boolean isForcingSeparateLogging(); @Override void setForcingSeparateLogging( boolean forcingSeparateLogging ); }
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@Test( timeout = 2000 ) public void testConcurrencySnap() throws Exception { ExecutorService service = Executors.newFixedThreadPool( threadCount ); for ( int i = 0; i < threadCount; i++ ) { service.submit( new ConcurrentPutIfAbsent( logIds.get( i % 20 ) ) ); } countDownLatch.countDown(); service.shutdown(); while ( !service.isTerminated() ) { Thread.currentThread().sleep( 1 ); } int expectedQueueCount = logChannelIdCount > threadCount ? threadCount : logChannelIdCount; assertTrue( expectedQueueCount == metricsRegistry.getSnapshotLists().size() ); }
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public Map<String, Queue<MetricsSnapshotInterface>> getSnapshotLists() { return snapshotLists; }
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MetricsRegistry { public Map<String, Queue<MetricsSnapshotInterface>> getSnapshotLists() { return snapshotLists; } }
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MetricsRegistry { public Map<String, Queue<MetricsSnapshotInterface>> getSnapshotLists() { return snapshotLists; } private MetricsRegistry(); }
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MetricsRegistry { public Map<String, Queue<MetricsSnapshotInterface>> getSnapshotLists() { return snapshotLists; } private MetricsRegistry(); static MetricsRegistry getInstance(); void addSnapshot( LogChannelInterface logChannel, MetricsSnapshotInterface snapshot ); Map<String, Queue<MetricsSnapshotInterface>> getSnapshotLists(); Map<String, Map<String, MetricsSnapshotInterface>> getSnapshotMaps(); Queue<MetricsSnapshotInterface> getSnapshotList( String logChannelId ); Map<String, MetricsSnapshotInterface> getSnapshotMap( String logChannelId ); }
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MetricsRegistry { public Map<String, Queue<MetricsSnapshotInterface>> getSnapshotLists() { return snapshotLists; } private MetricsRegistry(); static MetricsRegistry getInstance(); void addSnapshot( LogChannelInterface logChannel, MetricsSnapshotInterface snapshot ); Map<String, Queue<MetricsSnapshotInterface>> getSnapshotLists(); Map<String, Map<String, MetricsSnapshotInterface>> getSnapshotMaps(); Queue<MetricsSnapshotInterface> getSnapshotList( String logChannelId ); Map<String, MetricsSnapshotInterface> getSnapshotMap( String logChannelId ); }
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@Test public void testInitJNDI() throws Exception { final String factoryInitialKey = "java.naming.factory.initial"; final String factoryInitialBak = System.getProperty( factoryInitialKey ); final String sjRootKey = "org.osjava.sj.root"; final String sjRootBak = System.getProperty( sjRootKey ); final String sjDelimiterKey = "org.osjava.sj.root"; final String sjDelimiterBak = System.getProperty( sjDelimiterKey ); System.clearProperty( factoryInitialKey ); System.clearProperty( sjRootKey ); System.clearProperty( sjDelimiterKey ); JndiUtil.initJNDI(); try { assertFalse( System.getProperty( factoryInitialKey ).isEmpty() ); assertFalse( System.getProperty( sjRootKey ).isEmpty() ); assertFalse( System.getProperty( sjDelimiterKey ).isEmpty() ); assertEquals( System.getProperty( sjRootKey ), Const.JNDI_DIRECTORY ); } finally { if ( factoryInitialBak != null ) { System.setProperty( factoryInitialKey, factoryInitialBak ); } if ( sjRootBak != null ) { System.setProperty( sjRootKey, sjRootBak ); } if ( sjDelimiterBak != null ) { System.setProperty( sjDelimiterKey, sjDelimiterBak ); } } }
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public static void initJNDI() throws KettleException { String path = Const.JNDI_DIRECTORY; if ( path == null || path.equals( "" ) ) { try { File file = new File( "simple-jndi" ); path = file.getCanonicalPath(); } catch ( Exception e ) { throw new KettleException( "Error initializing JNDI", e ); } Const.JNDI_DIRECTORY = path; } System.setProperty( "java.naming.factory.initial", "org.osjava.sj.SimpleContextFactory" ); System.setProperty( "org.osjava.sj.root", path ); System.setProperty( "org.osjava.sj.delimiter", "/" ); }
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JndiUtil { public static void initJNDI() throws KettleException { String path = Const.JNDI_DIRECTORY; if ( path == null || path.equals( "" ) ) { try { File file = new File( "simple-jndi" ); path = file.getCanonicalPath(); } catch ( Exception e ) { throw new KettleException( "Error initializing JNDI", e ); } Const.JNDI_DIRECTORY = path; } System.setProperty( "java.naming.factory.initial", "org.osjava.sj.SimpleContextFactory" ); System.setProperty( "org.osjava.sj.root", path ); System.setProperty( "org.osjava.sj.delimiter", "/" ); } }
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JndiUtil { public static void initJNDI() throws KettleException { String path = Const.JNDI_DIRECTORY; if ( path == null || path.equals( "" ) ) { try { File file = new File( "simple-jndi" ); path = file.getCanonicalPath(); } catch ( Exception e ) { throw new KettleException( "Error initializing JNDI", e ); } Const.JNDI_DIRECTORY = path; } System.setProperty( "java.naming.factory.initial", "org.osjava.sj.SimpleContextFactory" ); System.setProperty( "org.osjava.sj.root", path ); System.setProperty( "org.osjava.sj.delimiter", "/" ); } }
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JndiUtil { public static void initJNDI() throws KettleException { String path = Const.JNDI_DIRECTORY; if ( path == null || path.equals( "" ) ) { try { File file = new File( "simple-jndi" ); path = file.getCanonicalPath(); } catch ( Exception e ) { throw new KettleException( "Error initializing JNDI", e ); } Const.JNDI_DIRECTORY = path; } System.setProperty( "java.naming.factory.initial", "org.osjava.sj.SimpleContextFactory" ); System.setProperty( "org.osjava.sj.root", path ); System.setProperty( "org.osjava.sj.delimiter", "/" ); } static void initJNDI(); }
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JndiUtil { public static void initJNDI() throws KettleException { String path = Const.JNDI_DIRECTORY; if ( path == null || path.equals( "" ) ) { try { File file = new File( "simple-jndi" ); path = file.getCanonicalPath(); } catch ( Exception e ) { throw new KettleException( "Error initializing JNDI", e ); } Const.JNDI_DIRECTORY = path; } System.setProperty( "java.naming.factory.initial", "org.osjava.sj.SimpleContextFactory" ); System.setProperty( "org.osjava.sj.root", path ); System.setProperty( "org.osjava.sj.delimiter", "/" ); } static void initJNDI(); }
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@Test public void testStringConversion() throws Exception { row = new RowMetaAndData( rowsMeta, "text", null, null ); assertEquals( "text", row.getAsJavaType( "str", String.class, converter ) ); row = new RowMetaAndData( rowsMeta, "7", null, null ); assertEquals( 7, row.getAsJavaType( "str", int.class, converter ) ); assertEquals( 7, row.getAsJavaType( "str", Integer.class, converter ) ); assertEquals( 7L, row.getAsJavaType( "str", long.class, converter ) ); assertEquals( 7L, row.getAsJavaType( "str", Long.class, converter ) ); row = new RowMetaAndData( rowsMeta, "y", null, null ); assertEquals( true, row.getAsJavaType( "str", boolean.class, converter ) ); assertEquals( true, row.getAsJavaType( "str", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, "yes", null, null ); assertEquals( true, row.getAsJavaType( "str", boolean.class, converter ) ); assertEquals( true, row.getAsJavaType( "str", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, "true", null, null ); assertEquals( true, row.getAsJavaType( "str", boolean.class, converter ) ); assertEquals( true, row.getAsJavaType( "str", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, "no", null, null ); assertEquals( false, row.getAsJavaType( "str", boolean.class, converter ) ); assertEquals( false, row.getAsJavaType( "str", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, "n", null, null ); assertEquals( false, row.getAsJavaType( "str", boolean.class, converter ) ); assertEquals( false, row.getAsJavaType( "str", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, "false", null, null ); assertEquals( false, row.getAsJavaType( "str", boolean.class, converter ) ); assertEquals( false, row.getAsJavaType( "str", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, "f", null, null ); assertEquals( false, row.getAsJavaType( "str", boolean.class, converter ) ); assertEquals( false, row.getAsJavaType( "str", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, "other", null, null ); assertEquals( false, row.getAsJavaType( "str", boolean.class, converter ) ); assertEquals( false, row.getAsJavaType( "str", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, TestEnum.ONE.name(), null, null ); assertEquals( TestEnum.ONE, row.getAsJavaType( "str", TestEnum.class, converter ) ); row = new RowMetaAndData( rowsMeta, TestEnum.Two.name(), null, null ); assertEquals( TestEnum.Two, row.getAsJavaType( "str", TestEnum.class, converter ) ); row = new RowMetaAndData( rowsMeta, TestEnum.three.name(), null, null ); assertEquals( TestEnum.three, row.getAsJavaType( "str", TestEnum.class, converter ) ); row = new RowMetaAndData( rowsMeta, null, null, null ); assertEquals( null, row.getAsJavaType( "str", String.class, converter ) ); assertEquals( null, row.getAsJavaType( "str", Integer.class, converter ) ); assertEquals( null, row.getAsJavaType( "str", Long.class, converter ) ); assertEquals( null, row.getAsJavaType( "str", Boolean.class, converter ) ); }
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public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); @Override RowMetaAndData clone(); @Override String toString(); Object[] getData(); void setData( Object[] data ); RowMetaInterface getRowMeta(); void setRowMeta( RowMetaInterface rowMeta ); @Override int hashCode(); @Override boolean equals( Object obj ); void addValue( ValueMetaInterface valueMeta, Object valueData ); void addValue( String valueName, int valueType, Object valueData ); void clear(); long getInteger( String valueName, long def ); long getInteger( int index, long def ); Long getInteger( String valueName ); Long getInteger( int index ); double getNumber( String valueName, double def ); double getNumber( int index, double def ); Date getDate( String valueName, Date def ); Date getDate( int index, Date def ); BigDecimal getBigNumber( String valueName, BigDecimal def ); BigDecimal getBigNumber( int index, BigDecimal def ); boolean getBoolean( String valueName, boolean def ); boolean getBoolean( int index, boolean def ); String getString( String valueName, String def ); String getString( int index, String def ); byte[] getBinary( String valueName, byte[] def ); byte[] getBinary( int index, byte[] def ); int compare( RowMetaAndData compare, int[] is, boolean[] bs ); boolean isNumeric( int index ); int size(); ValueMetaInterface getValueMeta( int index ); boolean isEmptyValue( String valueName ); static Object getStringAsJavaType( String vs, Class<?> destinationType, InjectionTypeConverter converter ); Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ); void removeValue( String valueName ); void removeValue( int index ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); @Override RowMetaAndData clone(); @Override String toString(); Object[] getData(); void setData( Object[] data ); RowMetaInterface getRowMeta(); void setRowMeta( RowMetaInterface rowMeta ); @Override int hashCode(); @Override boolean equals( Object obj ); void addValue( ValueMetaInterface valueMeta, Object valueData ); void addValue( String valueName, int valueType, Object valueData ); void clear(); long getInteger( String valueName, long def ); long getInteger( int index, long def ); Long getInteger( String valueName ); Long getInteger( int index ); double getNumber( String valueName, double def ); double getNumber( int index, double def ); Date getDate( String valueName, Date def ); Date getDate( int index, Date def ); BigDecimal getBigNumber( String valueName, BigDecimal def ); BigDecimal getBigNumber( int index, BigDecimal def ); boolean getBoolean( String valueName, boolean def ); boolean getBoolean( int index, boolean def ); String getString( String valueName, String def ); String getString( int index, String def ); byte[] getBinary( String valueName, byte[] def ); byte[] getBinary( int index, byte[] def ); int compare( RowMetaAndData compare, int[] is, boolean[] bs ); boolean isNumeric( int index ); int size(); ValueMetaInterface getValueMeta( int index ); boolean isEmptyValue( String valueName ); static Object getStringAsJavaType( String vs, Class<?> destinationType, InjectionTypeConverter converter ); Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ); void removeValue( String valueName ); void removeValue( int index ); }
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@Test public void testBooleanConversion() throws Exception { row = new RowMetaAndData( rowsMeta, null, true, null ); assertEquals( true, row.getAsJavaType( "bool", boolean.class, converter ) ); assertEquals( true, row.getAsJavaType( "bool", Boolean.class, converter ) ); assertEquals( 1, row.getAsJavaType( "bool", int.class, converter ) ); assertEquals( 1, row.getAsJavaType( "bool", Integer.class, converter ) ); assertEquals( 1L, row.getAsJavaType( "bool", long.class, converter ) ); assertEquals( 1L, row.getAsJavaType( "bool", Long.class, converter ) ); assertEquals( "Y", row.getAsJavaType( "bool", String.class, converter ) ); row = new RowMetaAndData( rowsMeta, null, false, null ); assertEquals( false, row.getAsJavaType( "bool", boolean.class, converter ) ); assertEquals( false, row.getAsJavaType( "bool", Boolean.class, converter ) ); assertEquals( 0, row.getAsJavaType( "bool", int.class, converter ) ); assertEquals( 0, row.getAsJavaType( "bool", Integer.class, converter ) ); assertEquals( 0L, row.getAsJavaType( "bool", long.class, converter ) ); assertEquals( 0L, row.getAsJavaType( "bool", Long.class, converter ) ); assertEquals( "N", row.getAsJavaType( "bool", String.class, converter ) ); row = new RowMetaAndData( rowsMeta, null, null, null ); assertEquals( null, row.getAsJavaType( "bool", String.class, converter ) ); assertEquals( null, row.getAsJavaType( "bool", Integer.class, converter ) ); assertEquals( null, row.getAsJavaType( "bool", Long.class, converter ) ); assertEquals( null, row.getAsJavaType( "bool", Boolean.class, converter ) ); }
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public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); @Override RowMetaAndData clone(); @Override String toString(); Object[] getData(); void setData( Object[] data ); RowMetaInterface getRowMeta(); void setRowMeta( RowMetaInterface rowMeta ); @Override int hashCode(); @Override boolean equals( Object obj ); void addValue( ValueMetaInterface valueMeta, Object valueData ); void addValue( String valueName, int valueType, Object valueData ); void clear(); long getInteger( String valueName, long def ); long getInteger( int index, long def ); Long getInteger( String valueName ); Long getInteger( int index ); double getNumber( String valueName, double def ); double getNumber( int index, double def ); Date getDate( String valueName, Date def ); Date getDate( int index, Date def ); BigDecimal getBigNumber( String valueName, BigDecimal def ); BigDecimal getBigNumber( int index, BigDecimal def ); boolean getBoolean( String valueName, boolean def ); boolean getBoolean( int index, boolean def ); String getString( String valueName, String def ); String getString( int index, String def ); byte[] getBinary( String valueName, byte[] def ); byte[] getBinary( int index, byte[] def ); int compare( RowMetaAndData compare, int[] is, boolean[] bs ); boolean isNumeric( int index ); int size(); ValueMetaInterface getValueMeta( int index ); boolean isEmptyValue( String valueName ); static Object getStringAsJavaType( String vs, Class<?> destinationType, InjectionTypeConverter converter ); Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ); void removeValue( String valueName ); void removeValue( int index ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); @Override RowMetaAndData clone(); @Override String toString(); Object[] getData(); void setData( Object[] data ); RowMetaInterface getRowMeta(); void setRowMeta( RowMetaInterface rowMeta ); @Override int hashCode(); @Override boolean equals( Object obj ); void addValue( ValueMetaInterface valueMeta, Object valueData ); void addValue( String valueName, int valueType, Object valueData ); void clear(); long getInteger( String valueName, long def ); long getInteger( int index, long def ); Long getInteger( String valueName ); Long getInteger( int index ); double getNumber( String valueName, double def ); double getNumber( int index, double def ); Date getDate( String valueName, Date def ); Date getDate( int index, Date def ); BigDecimal getBigNumber( String valueName, BigDecimal def ); BigDecimal getBigNumber( int index, BigDecimal def ); boolean getBoolean( String valueName, boolean def ); boolean getBoolean( int index, boolean def ); String getString( String valueName, String def ); String getString( int index, String def ); byte[] getBinary( String valueName, byte[] def ); byte[] getBinary( int index, byte[] def ); int compare( RowMetaAndData compare, int[] is, boolean[] bs ); boolean isNumeric( int index ); int size(); ValueMetaInterface getValueMeta( int index ); boolean isEmptyValue( String valueName ); static Object getStringAsJavaType( String vs, Class<?> destinationType, InjectionTypeConverter converter ); Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ); void removeValue( String valueName ); void removeValue( int index ); }
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@Test public void testOperationHasHandlerFalseOp() throws KettleException { addHandlers( operationMessageEvent, messageEventHandler, messageEventHandler2 ); assertFalse( messageEventService.hasHandlers( otherOpMessageEvent ) ); }
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public final boolean hasHandlers( final Message eventType ) { return containsHandlerFor( eventType ); }
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MessageEventService { public final boolean hasHandlers( final Message eventType ) { return containsHandlerFor( eventType ); } }
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MessageEventService { public final boolean hasHandlers( final Message eventType ) { return containsHandlerFor( eventType ); } MessageEventService(); }
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MessageEventService { public final boolean hasHandlers( final Message eventType ) { return containsHandlerFor( eventType ); } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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MessageEventService { public final boolean hasHandlers( final Message eventType ) { return containsHandlerFor( eventType ); } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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@Test public void testIntegerConversion() throws Exception { row = new RowMetaAndData( rowsMeta, null, null, 7L ); assertEquals( true, row.getAsJavaType( "int", boolean.class, converter ) ); assertEquals( true, row.getAsJavaType( "int", Boolean.class, converter ) ); assertEquals( 7, row.getAsJavaType( "int", int.class, converter ) ); assertEquals( 7, row.getAsJavaType( "int", Integer.class, converter ) ); assertEquals( 7L, row.getAsJavaType( "int", long.class, converter ) ); assertEquals( 7L, row.getAsJavaType( "int", Long.class, converter ) ); assertEquals( "7", row.getAsJavaType( "int", String.class, converter ) ); row = new RowMetaAndData( rowsMeta, null, null, 0L ); assertEquals( false, row.getAsJavaType( "int", boolean.class, converter ) ); assertEquals( false, row.getAsJavaType( "int", Boolean.class, converter ) ); row = new RowMetaAndData( rowsMeta, null, null, null ); assertEquals( null, row.getAsJavaType( "int", String.class, converter ) ); assertEquals( null, row.getAsJavaType( "int", Integer.class, converter ) ); assertEquals( null, row.getAsJavaType( "int", Long.class, converter ) ); assertEquals( null, row.getAsJavaType( "int", Boolean.class, converter ) ); }
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public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); @Override RowMetaAndData clone(); @Override String toString(); Object[] getData(); void setData( Object[] data ); RowMetaInterface getRowMeta(); void setRowMeta( RowMetaInterface rowMeta ); @Override int hashCode(); @Override boolean equals( Object obj ); void addValue( ValueMetaInterface valueMeta, Object valueData ); void addValue( String valueName, int valueType, Object valueData ); void clear(); long getInteger( String valueName, long def ); long getInteger( int index, long def ); Long getInteger( String valueName ); Long getInteger( int index ); double getNumber( String valueName, double def ); double getNumber( int index, double def ); Date getDate( String valueName, Date def ); Date getDate( int index, Date def ); BigDecimal getBigNumber( String valueName, BigDecimal def ); BigDecimal getBigNumber( int index, BigDecimal def ); boolean getBoolean( String valueName, boolean def ); boolean getBoolean( int index, boolean def ); String getString( String valueName, String def ); String getString( int index, String def ); byte[] getBinary( String valueName, byte[] def ); byte[] getBinary( int index, byte[] def ); int compare( RowMetaAndData compare, int[] is, boolean[] bs ); boolean isNumeric( int index ); int size(); ValueMetaInterface getValueMeta( int index ); boolean isEmptyValue( String valueName ); static Object getStringAsJavaType( String vs, Class<?> destinationType, InjectionTypeConverter converter ); Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ); void removeValue( String valueName ); void removeValue( int index ); }
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RowMetaAndData implements Cloneable { public Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ) throws KettleValueException { int idx = rowMeta.indexOfValue( valueName ); if ( idx < 0 ) { throw new KettleValueException( "Unknown column '" + valueName + "'" ); } ValueMetaInterface metaType = rowMeta.getValueMeta( idx ); switch ( metaType.getType() ) { case ValueMetaInterface.TYPE_STRING: String vs = rowMeta.getString( data, idx ); return getStringAsJavaType( vs, destinationType, converter ); case ValueMetaInterface.TYPE_BOOLEAN: Boolean vb = rowMeta.getBoolean( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.boolean2string( vb ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.boolean2intPrimitive( vb ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.boolean2integer( vb ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2longPrimitive( vb ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.boolean2long( vb ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2booleanPrimitive( vb ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.boolean2boolean( vb ); } else if ( destinationType.isEnum() ) { return converter.boolean2enum( destinationType, vb ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_INTEGER: Long vi = rowMeta.getInteger( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.integer2string( vi ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.integer2intPrimitive( vi ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.integer2integer( vi ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.integer2longPrimitive( vi ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.integer2long( vi ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2booleanPrimitive( vi ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.integer2boolean( vi ); } else if ( destinationType.isEnum() ) { return converter.integer2enum( destinationType, vi ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } case ValueMetaInterface.TYPE_NUMBER: Double vn = rowMeta.getNumber( data, idx ); if ( String.class.isAssignableFrom( destinationType ) ) { return converter.number2string( vn ); } else if ( int.class.isAssignableFrom( destinationType ) ) { return converter.number2intPrimitive( vn ); } else if ( Integer.class.isAssignableFrom( destinationType ) ) { return converter.number2integer( vn ); } else if ( long.class.isAssignableFrom( destinationType ) ) { return converter.number2longPrimitive( vn ); } else if ( Long.class.isAssignableFrom( destinationType ) ) { return converter.number2long( vn ); } else if ( boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2booleanPrimitive( vn ); } else if ( Boolean.class.isAssignableFrom( destinationType ) ) { return converter.number2boolean( vn ); } else if ( destinationType.isEnum() ) { return converter.number2enum( destinationType, vn ); } else { throw new RuntimeException( "Wrong value conversion to " + destinationType ); } } throw new KettleValueException( "Unknown conversion from " + metaType.getTypeDesc() + " into " + destinationType ); } RowMetaAndData(); RowMetaAndData( RowMetaInterface rowMeta, Object... data ); @Override RowMetaAndData clone(); @Override String toString(); Object[] getData(); void setData( Object[] data ); RowMetaInterface getRowMeta(); void setRowMeta( RowMetaInterface rowMeta ); @Override int hashCode(); @Override boolean equals( Object obj ); void addValue( ValueMetaInterface valueMeta, Object valueData ); void addValue( String valueName, int valueType, Object valueData ); void clear(); long getInteger( String valueName, long def ); long getInteger( int index, long def ); Long getInteger( String valueName ); Long getInteger( int index ); double getNumber( String valueName, double def ); double getNumber( int index, double def ); Date getDate( String valueName, Date def ); Date getDate( int index, Date def ); BigDecimal getBigNumber( String valueName, BigDecimal def ); BigDecimal getBigNumber( int index, BigDecimal def ); boolean getBoolean( String valueName, boolean def ); boolean getBoolean( int index, boolean def ); String getString( String valueName, String def ); String getString( int index, String def ); byte[] getBinary( String valueName, byte[] def ); byte[] getBinary( int index, byte[] def ); int compare( RowMetaAndData compare, int[] is, boolean[] bs ); boolean isNumeric( int index ); int size(); ValueMetaInterface getValueMeta( int index ); boolean isEmptyValue( String valueName ); static Object getStringAsJavaType( String vs, Class<?> destinationType, InjectionTypeConverter converter ); Object getAsJavaType( String valueName, Class<?> destinationType, InjectionTypeConverter converter ); void removeValue( String valueName ); void removeValue( int index ); }
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@Test public void addExtensionPointTest() throws KettlePluginException { ExtensionPointMap.getInstance().addExtensionPoint( pluginInterface ); assertEquals( ExtensionPointMap.getInstance().getTableValue( TEST_NAME, "testID" ), extensionPoint ); assertEquals( ExtensionPointMap.getInstance().getTableValue( TEST_NAME, "testID" ), extensionPoint ); verify( pluginInterface, times( 1 ) ).loadClass( any( Class.class ) ); }
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public void addExtensionPoint( PluginInterface extensionPointPlugin ) { lock.writeLock().lock(); try { for ( String id : extensionPointPlugin.getIds() ) { extensionPointPluginMap.put( extensionPointPlugin.getName(), id, createLazyLoader( extensionPointPlugin ) ); } } finally { lock.writeLock().unlock(); } }
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ExtensionPointMap { public void addExtensionPoint( PluginInterface extensionPointPlugin ) { lock.writeLock().lock(); try { for ( String id : extensionPointPlugin.getIds() ) { extensionPointPluginMap.put( extensionPointPlugin.getName(), id, createLazyLoader( extensionPointPlugin ) ); } } finally { lock.writeLock().unlock(); } } }
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ExtensionPointMap { public void addExtensionPoint( PluginInterface extensionPointPlugin ) { lock.writeLock().lock(); try { for ( String id : extensionPointPlugin.getIds() ) { extensionPointPluginMap.put( extensionPointPlugin.getName(), id, createLazyLoader( extensionPointPlugin ) ); } } finally { lock.writeLock().unlock(); } } private ExtensionPointMap( PluginRegistry pluginRegistry ); }
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ExtensionPointMap { public void addExtensionPoint( PluginInterface extensionPointPlugin ) { lock.writeLock().lock(); try { for ( String id : extensionPointPlugin.getIds() ) { extensionPointPluginMap.put( extensionPointPlugin.getName(), id, createLazyLoader( extensionPointPlugin ) ); } } finally { lock.writeLock().unlock(); } } private ExtensionPointMap( PluginRegistry pluginRegistry ); static ExtensionPointMap getInstance(); void addExtensionPoint( PluginInterface extensionPointPlugin ); void removeExtensionPoint( PluginInterface extensionPointPlugin ); void reInitialize(); void callExtensionPoint( LogChannelInterface log, String id, Object object ); static LogChannelInterface getLog(); }
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ExtensionPointMap { public void addExtensionPoint( PluginInterface extensionPointPlugin ) { lock.writeLock().lock(); try { for ( String id : extensionPointPlugin.getIds() ) { extensionPointPluginMap.put( extensionPointPlugin.getName(), id, createLazyLoader( extensionPointPlugin ) ); } } finally { lock.writeLock().unlock(); } } private ExtensionPointMap( PluginRegistry pluginRegistry ); static ExtensionPointMap getInstance(); void addExtensionPoint( PluginInterface extensionPointPlugin ); void removeExtensionPoint( PluginInterface extensionPointPlugin ); void reInitialize(); void callExtensionPoint( LogChannelInterface log, String id, Object object ); static LogChannelInterface getLog(); }
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@Test public void callExtensionPointTest() throws Exception { PluginMockInterface pluginInterface = mock( PluginMockInterface.class ); when( pluginInterface.getName() ).thenReturn( TEST_NAME ); when( pluginInterface.getMainType() ).thenReturn( (Class) ExtensionPointInterface.class ); when( pluginInterface.getIds() ).thenReturn( new String[] {"testID"} ); ExtensionPointInterface extensionPoint = mock( ExtensionPointInterface.class ); when( pluginInterface.loadClass( ExtensionPointInterface.class ) ).thenReturn( extensionPoint ); PluginRegistry.addPluginType( ExtensionPointPluginType.getInstance() ); PluginRegistry.getInstance().registerPlugin( ExtensionPointPluginType.class, pluginInterface ); final LogChannelInterface log = mock( LogChannelInterface.class ); ExtensionPointHandler.callExtensionPoint( log, "noPoint", null ); verify( extensionPoint, never() ).callExtensionPoint( any( LogChannelInterface.class ), any() ); ExtensionPointHandler.callExtensionPoint( log, TEST_NAME, null ); verify( extensionPoint, times( 1 ) ).callExtensionPoint( eq( log ), isNull() ); }
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public static void callExtensionPoint( final LogChannelInterface log, final String id, final Object object ) throws KettleException { ExtensionPointMap.getInstance().callExtensionPoint( log, id, object ); }
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ExtensionPointHandler { public static void callExtensionPoint( final LogChannelInterface log, final String id, final Object object ) throws KettleException { ExtensionPointMap.getInstance().callExtensionPoint( log, id, object ); } }
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ExtensionPointHandler { public static void callExtensionPoint( final LogChannelInterface log, final String id, final Object object ) throws KettleException { ExtensionPointMap.getInstance().callExtensionPoint( log, id, object ); } }
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ExtensionPointHandler { public static void callExtensionPoint( final LogChannelInterface log, final String id, final Object object ) throws KettleException { ExtensionPointMap.getInstance().callExtensionPoint( log, id, object ); } static void callExtensionPoint( final LogChannelInterface log, final String id, final Object object ); }
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ExtensionPointHandler { public static void callExtensionPoint( final LogChannelInterface log, final String id, final Object object ) throws KettleException { ExtensionPointMap.getInstance().callExtensionPoint( log, id, object ); } static void callExtensionPoint( final LogChannelInterface log, final String id, final Object object ); }
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@Test public void testEncryptPassword() throws KettleValueException { String encryption; encryption = Encr.encryptPassword( null ); assertTrue( "".equals( encryption ) ); encryption = Encr.encryptPassword( "" ); assertTrue( "".equals( encryption ) ); encryption = Encr.encryptPassword( " " ); assertTrue( "2be98afc86aa7f2e4cb79ce309ed2ef9a".equals( encryption ) ); encryption = Encr.encryptPassword( "Test of different encryptions!!@#$%" ); assertTrue( "54657374206f6620646966666572656e742067d0fbddb11ad39b8ba50aef31fed1eb9f".equals( encryption ) ); encryption = Encr.encryptPassword( " Spaces left" ); assertTrue( "2be98afe84af48285a81cbd30d297a9ce".equals( encryption ) ); encryption = Encr.encryptPassword( "Spaces right" ); assertTrue( "2be98afc839d79387ae0aee62d795a7ce".equals( encryption ) ); encryption = Encr.encryptPassword( " Spaces " ); assertTrue( "2be98afe84a87d2c49809af73db81ef9a".equals( encryption ) ); encryption = Encr.encryptPassword( "1234567890" ); assertTrue( "2be98afc86aa7c3d6f84dfb2689caf68a".equals( encryption ) ); }
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public static final String encryptPassword( String password ) { return encoder.encode( password, false ); }
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Encr { public static final String encryptPassword( String password ) { return encoder.encode( password, false ); } }
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Encr { public static final String encryptPassword( String password ) { return encoder.encode( password, false ); } Encr(); }
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Encr { public static final String encryptPassword( String password ) { return encoder.encode( password, false ); } Encr(); @Deprecated boolean init(); static void init( String encoderPluginId ); @Deprecated static final boolean checkSignatureShort( String signature, String verify ); @Deprecated static final String getSignatureShort( String signature ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static void main( String[] args ); }
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Encr { public static final String encryptPassword( String password ) { return encoder.encode( password, false ); } Encr(); @Deprecated boolean init(); static void init( String encoderPluginId ); @Deprecated static final boolean checkSignatureShort( String signature, String verify ); @Deprecated static final String getSignatureShort( String signature ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static void main( String[] args ); static final String PASSWORD_ENCRYPTED_PREFIX; }
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@Test public void testDecryptPassword() throws KettleValueException { String encryption; String decryption; encryption = Encr.encryptPassword( null ); decryption = Encr.decryptPassword( encryption ); assertTrue( "".equals( decryption ) ); encryption = Encr.encryptPassword( "" ); decryption = Encr.decryptPassword( encryption ); assertTrue( "".equals( decryption ) ); encryption = Encr.encryptPassword( " " ); decryption = Encr.decryptPassword( encryption ); assertTrue( " ".equals( decryption ) ); encryption = Encr.encryptPassword( "Test of different encryptions!!@#$%" ); decryption = Encr.decryptPassword( encryption ); assertTrue( "Test of different encryptions!!@#$%".equals( decryption ) ); encryption = Encr.encryptPassword( " Spaces left" ); decryption = Encr.decryptPassword( encryption ); assertTrue( " Spaces left".equals( decryption ) ); encryption = Encr.encryptPassword( "Spaces right" ); decryption = Encr.decryptPassword( encryption ); assertTrue( "Spaces right".equals( decryption ) ); encryption = Encr.encryptPassword( " Spaces " ); decryption = Encr.decryptPassword( encryption ); assertTrue( " Spaces ".equals( decryption ) ); encryption = Encr.encryptPassword( "1234567890" ); decryption = Encr.decryptPassword( encryption ); assertTrue( "1234567890".equals( decryption ) ); }
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public static final String decryptPassword( String encrypted ) { return encoder.decode( encrypted ); }
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Encr { public static final String decryptPassword( String encrypted ) { return encoder.decode( encrypted ); } }
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Encr { public static final String decryptPassword( String encrypted ) { return encoder.decode( encrypted ); } Encr(); }
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Encr { public static final String decryptPassword( String encrypted ) { return encoder.decode( encrypted ); } Encr(); @Deprecated boolean init(); static void init( String encoderPluginId ); @Deprecated static final boolean checkSignatureShort( String signature, String verify ); @Deprecated static final String getSignatureShort( String signature ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static void main( String[] args ); }
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Encr { public static final String decryptPassword( String encrypted ) { return encoder.decode( encrypted ); } Encr(); @Deprecated boolean init(); static void init( String encoderPluginId ); @Deprecated static final boolean checkSignatureShort( String signature, String verify ); @Deprecated static final String getSignatureShort( String signature ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static void main( String[] args ); static final String PASSWORD_ENCRYPTED_PREFIX; }
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@Test public void testEncryptPasswordIfNotUsingVariables() throws KettleValueException { String encryption; encryption = Encr.encryptPasswordIfNotUsingVariables( null ); assertTrue( "Encrypted ".equals( encryption ) ); encryption = Encr.encryptPasswordIfNotUsingVariables( "" ); assertTrue( "Encrypted ".equals( encryption ) ); encryption = Encr.encryptPasswordIfNotUsingVariables( "String" ); assertTrue( "Encrypted 2be98afc86aa7f2e4cb799d64cc9ba1dd".equals( encryption ) ); encryption = Encr.encryptPasswordIfNotUsingVariables( " ${VAR} String" ); assertTrue( " ${VAR} String".equals( encryption ) ); encryption = Encr.encryptPasswordIfNotUsingVariables( " %%VAR%% String" ); assertTrue( " %%VAR%% String".equals( encryption ) ); encryption = Encr.encryptPasswordIfNotUsingVariables( " %% VAR String" ); assertTrue( "Encrypted 2be988fed4f87a4a599599d64cc9ba1dd".equals( encryption ) ); encryption = Encr.encryptPasswordIfNotUsingVariables( "${%%$$$$" ); assertTrue( "Encrypted 2be98afc86aa7f2e4ef02eb359ad6eb9e".equals( encryption ) ); }
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public static final String encryptPasswordIfNotUsingVariables( String password ) { return encoder.encode( password, true ); }
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Encr { public static final String encryptPasswordIfNotUsingVariables( String password ) { return encoder.encode( password, true ); } }
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Encr { public static final String encryptPasswordIfNotUsingVariables( String password ) { return encoder.encode( password, true ); } Encr(); }
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Encr { public static final String encryptPasswordIfNotUsingVariables( String password ) { return encoder.encode( password, true ); } Encr(); @Deprecated boolean init(); static void init( String encoderPluginId ); @Deprecated static final boolean checkSignatureShort( String signature, String verify ); @Deprecated static final String getSignatureShort( String signature ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static void main( String[] args ); }
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Encr { public static final String encryptPasswordIfNotUsingVariables( String password ) { return encoder.encode( password, true ); } Encr(); @Deprecated boolean init(); static void init( String encoderPluginId ); @Deprecated static final boolean checkSignatureShort( String signature, String verify ); @Deprecated static final String getSignatureShort( String signature ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static void main( String[] args ); static final String PASSWORD_ENCRYPTED_PREFIX; }
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@Test public void testRandomSessionKeyGeneration() throws Exception { Key key = CertificateGenEncryptUtil.generateSingleKey(); Key key1 = CertificateGenEncryptUtil.generateSingleKey(); assertFalse( key.equals( key1 ) ); assertFalse( Arrays.equals( key.getEncoded(), key1.getEncoded() ) ); }
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public static Key generateSingleKey() throws NoSuchAlgorithmException { Key key = KeyGenerator.getInstance( SINGLE_KEY_ALGORITHM ).generateKey(); return key; }
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CertificateGenEncryptUtil { public static Key generateSingleKey() throws NoSuchAlgorithmException { Key key = KeyGenerator.getInstance( SINGLE_KEY_ALGORITHM ).generateKey(); return key; } }
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CertificateGenEncryptUtil { public static Key generateSingleKey() throws NoSuchAlgorithmException { Key key = KeyGenerator.getInstance( SINGLE_KEY_ALGORITHM ).generateKey(); return key; } }
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CertificateGenEncryptUtil { public static Key generateSingleKey() throws NoSuchAlgorithmException { Key key = KeyGenerator.getInstance( SINGLE_KEY_ALGORITHM ).generateKey(); return key; } static KeyPair generateKeyPair(); static Key generateSingleKey(); static byte[] encodeKeyForTransmission( Key encodingKey, Key keyToEncode ); static Key decodeTransmittedKey( byte[] sessionKey, byte[] transmittedKey, boolean privateKey ); static Cipher initDecryptionCipher( Key unwrappedKey, byte[] unencryptedKey ); static byte[] encryptUsingKey( byte[] data, Key key ); static byte[] decryptUsingKey( byte[] data, Key key ); }
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CertificateGenEncryptUtil { public static Key generateSingleKey() throws NoSuchAlgorithmException { Key key = KeyGenerator.getInstance( SINGLE_KEY_ALGORITHM ).generateKey(); return key; } static KeyPair generateKeyPair(); static Key generateSingleKey(); static byte[] encodeKeyForTransmission( Key encodingKey, Key keyToEncode ); static Key decodeTransmittedKey( byte[] sessionKey, byte[] transmittedKey, boolean privateKey ); static Cipher initDecryptionCipher( Key unwrappedKey, byte[] unencryptedKey ); static byte[] encryptUsingKey( byte[] data, Key key ); static byte[] decryptUsingKey( byte[] data, Key key ); static final int KEY_SIZE; static final String PUBLIC_KEY_ALGORITHM; static final String SINGLE_KEY_ALGORITHM; static final String TRANSMISSION_CIPHER_PARAMS; }
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@Test public void testEncode1() throws KettleValueException { KettleTwoWayPasswordEncoder encoder = new KettleTwoWayPasswordEncoder(); String encryption; encryption = encoder.encode( null, false ); assertTrue( "".equals( encryption ) ); encryption = encoder.encode( "", false ); assertTrue( "".equals( encryption ) ); encryption = encoder.encode( " ", false ); assertTrue( "2be98afc86aa7f2e4cb79ce309ed2ef9a".equals( encryption ) ); encryption = encoder.encode( "Test of different encryptions!!@#$%", false ); assertTrue( "54657374206f6620646966666572656e742067d0fbddb11ad39b8ba50aef31fed1eb9f".equals( encryption ) ); encryption = encoder.encode( " Spaces left", false ); assertTrue( "2be98afe84af48285a81cbd30d297a9ce".equals( encryption ) ); encryption = encoder.encode( "Spaces right", false ); assertTrue( "2be98afc839d79387ae0aee62d795a7ce".equals( encryption ) ); encryption = encoder.encode( " Spaces ", false ); assertTrue( "2be98afe84a87d2c49809af73db81ef9a".equals( encryption ) ); encryption = encoder.encode( "1234567890", false ); assertTrue( "2be98afc86aa7c3d6f84dfb2689caf68a".equals( encryption ) ); }
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@Override public String encode( String rawPassword ) { return encode( rawPassword, true ); }
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KettleTwoWayPasswordEncoder implements TwoWayPasswordEncoderInterface { @Override public String encode( String rawPassword ) { return encode( rawPassword, true ); } }
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KettleTwoWayPasswordEncoder implements TwoWayPasswordEncoderInterface { @Override public String encode( String rawPassword ) { return encode( rawPassword, true ); } KettleTwoWayPasswordEncoder(); }
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KettleTwoWayPasswordEncoder implements TwoWayPasswordEncoderInterface { @Override public String encode( String rawPassword ) { return encode( rawPassword, true ); } KettleTwoWayPasswordEncoder(); @Override void init(); @Override String encode( String rawPassword ); @Override String encode( String rawPassword, boolean includePrefix ); @Override String decode( String encodedPassword ); @Override String decode( String encodedPassword, boolean optionallyEncrypted ); @Override String[] getPrefixes(); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); }
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KettleTwoWayPasswordEncoder implements TwoWayPasswordEncoderInterface { @Override public String encode( String rawPassword ) { return encode( rawPassword, true ); } KettleTwoWayPasswordEncoder(); @Override void init(); @Override String encode( String rawPassword ); @Override String encode( String rawPassword, boolean includePrefix ); @Override String decode( String encodedPassword ); @Override String decode( String encodedPassword, boolean optionallyEncrypted ); @Override String[] getPrefixes(); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); static final String PASSWORD_ENCRYPTED_PREFIX; }
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@Test public void testEncode2() throws KettleValueException { KettleTwoWayPasswordEncoder encoder = new KettleTwoWayPasswordEncoder(); String encryption; encryption = encoder.encode( null ); assertTrue( "Encrypted ".equals( encryption ) ); encryption = encoder.encode( "" ); assertTrue( "Encrypted ".equals( encryption ) ); encryption = encoder.encode( "String" ); assertTrue( "Encrypted 2be98afc86aa7f2e4cb799d64cc9ba1dd".equals( encryption ) ); encryption = encoder.encode( " ${VAR} String" ); assertTrue( " ${VAR} String".equals( encryption ) ); encryption = encoder.encode( " %%VAR%% String" ); assertTrue( " %%VAR%% String".equals( encryption ) ); encryption = encoder.encode( " %% VAR String" ); assertTrue( "Encrypted 2be988fed4f87a4a599599d64cc9ba1dd".equals( encryption ) ); encryption = encoder.encode( "${%%$$$$" ); assertTrue( "Encrypted 2be98afc86aa7f2e4ef02eb359ad6eb9e".equals( encryption ) ); }
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@Override public String encode( String rawPassword ) { return encode( rawPassword, true ); }
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KettleTwoWayPasswordEncoder implements TwoWayPasswordEncoderInterface { @Override public String encode( String rawPassword ) { return encode( rawPassword, true ); } }
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KettleTwoWayPasswordEncoder implements TwoWayPasswordEncoderInterface { @Override public String encode( String rawPassword ) { return encode( rawPassword, true ); } KettleTwoWayPasswordEncoder(); }
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KettleTwoWayPasswordEncoder implements TwoWayPasswordEncoderInterface { @Override public String encode( String rawPassword ) { return encode( rawPassword, true ); } KettleTwoWayPasswordEncoder(); @Override void init(); @Override String encode( String rawPassword ); @Override String encode( String rawPassword, boolean includePrefix ); @Override String decode( String encodedPassword ); @Override String decode( String encodedPassword, boolean optionallyEncrypted ); @Override String[] getPrefixes(); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); }
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KettleTwoWayPasswordEncoder implements TwoWayPasswordEncoderInterface { @Override public String encode( String rawPassword ) { return encode( rawPassword, true ); } KettleTwoWayPasswordEncoder(); @Override void init(); @Override String encode( String rawPassword ); @Override String encode( String rawPassword, boolean includePrefix ); @Override String decode( String encodedPassword ); @Override String decode( String encodedPassword, boolean optionallyEncrypted ); @Override String[] getPrefixes(); static final String encryptPasswordIfNotUsingVariables( String password ); static final String decryptPasswordOptionallyEncrypted( String password ); static final String encryptPassword( String password ); static final String decryptPassword( String encrypted ); static final String PASSWORD_ENCRYPTED_PREFIX; }
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@Test public void testPutRow() throws Exception { rowSet.putRow( new RowMeta(), row ); assertSame( row, rowSet.getRow() ); }
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@Override public boolean putRow( RowMetaInterface rowMeta, Object[] rowData ) { this.rowMeta = rowMeta; buffer.add( rowData ); return true; }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public boolean putRow( RowMetaInterface rowMeta, Object[] rowData ) { this.rowMeta = rowMeta; buffer.add( rowData ); return true; } }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public boolean putRow( RowMetaInterface rowMeta, Object[] rowData ) { this.rowMeta = rowMeta; buffer.add( rowData ); return true; } QueueRowSet(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public boolean putRow( RowMetaInterface rowMeta, Object[] rowData ) { this.rowMeta = rowMeta; buffer.add( rowData ); return true; } QueueRowSet(); @Override Object[] getRow(); @Override Object[] getRowImmediate(); @Override Object[] getRowWait( long timeout, TimeUnit tu ); @Override boolean putRow( RowMetaInterface rowMeta, Object[] rowData ); @Override boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ); @Override int size(); @Override void clear(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public boolean putRow( RowMetaInterface rowMeta, Object[] rowData ) { this.rowMeta = rowMeta; buffer.add( rowData ); return true; } QueueRowSet(); @Override Object[] getRow(); @Override Object[] getRowImmediate(); @Override Object[] getRowWait( long timeout, TimeUnit tu ); @Override boolean putRow( RowMetaInterface rowMeta, Object[] rowData ); @Override boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ); @Override int size(); @Override void clear(); }
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@Test( expected = HandlerRegistrationException.class ) public void testMsgEventTypeNull() throws KettleException { messageEventService.addHandler( null, messageEventHandler ); }
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public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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@Test public void testPutRowWait() throws Exception { rowSet.putRowWait( new RowMeta(), row, 1, TimeUnit.SECONDS ); assertSame( row, rowSet.getRowWait( 1, TimeUnit.SECONDS ) ); }
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@Override public boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ) { return putRow( rowMeta, rowData ); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ) { return putRow( rowMeta, rowData ); } }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ) { return putRow( rowMeta, rowData ); } QueueRowSet(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ) { return putRow( rowMeta, rowData ); } QueueRowSet(); @Override Object[] getRow(); @Override Object[] getRowImmediate(); @Override Object[] getRowWait( long timeout, TimeUnit tu ); @Override boolean putRow( RowMetaInterface rowMeta, Object[] rowData ); @Override boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ); @Override int size(); @Override void clear(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ) { return putRow( rowMeta, rowData ); } QueueRowSet(); @Override Object[] getRow(); @Override Object[] getRowImmediate(); @Override Object[] getRowWait( long timeout, TimeUnit tu ); @Override boolean putRow( RowMetaInterface rowMeta, Object[] rowData ); @Override boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ); @Override int size(); @Override void clear(); }
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@Test public void testGetRowImmediate() throws Exception { rowSet.putRow( new RowMeta(), row ); assertSame( row, rowSet.getRowImmediate() ); }
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@Override public Object[] getRowImmediate() { return getRow(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public Object[] getRowImmediate() { return getRow(); } }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public Object[] getRowImmediate() { return getRow(); } QueueRowSet(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public Object[] getRowImmediate() { return getRow(); } QueueRowSet(); @Override Object[] getRow(); @Override Object[] getRowImmediate(); @Override Object[] getRowWait( long timeout, TimeUnit tu ); @Override boolean putRow( RowMetaInterface rowMeta, Object[] rowData ); @Override boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ); @Override int size(); @Override void clear(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public Object[] getRowImmediate() { return getRow(); } QueueRowSet(); @Override Object[] getRow(); @Override Object[] getRowImmediate(); @Override Object[] getRowWait( long timeout, TimeUnit tu ); @Override boolean putRow( RowMetaInterface rowMeta, Object[] rowData ); @Override boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ); @Override int size(); @Override void clear(); }
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@Test public void testSize() throws Exception { assertEquals( 0, rowSet.size() ); rowSet.putRow( new RowMeta(), row ); assertEquals( 1, rowSet.size() ); rowSet.putRow( new RowMeta(), row ); assertEquals( 2, rowSet.size() ); rowSet.clear(); assertEquals( 0, rowSet.size() ); }
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@Override public int size() { return buffer.size(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public int size() { return buffer.size(); } }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public int size() { return buffer.size(); } QueueRowSet(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public int size() { return buffer.size(); } QueueRowSet(); @Override Object[] getRow(); @Override Object[] getRowImmediate(); @Override Object[] getRowWait( long timeout, TimeUnit tu ); @Override boolean putRow( RowMetaInterface rowMeta, Object[] rowData ); @Override boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ); @Override int size(); @Override void clear(); }
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QueueRowSet extends BaseRowSet implements Comparable<RowSet>, RowSet { @Override public int size() { return buffer.size(); } QueueRowSet(); @Override Object[] getRow(); @Override Object[] getRowImmediate(); @Override Object[] getRowWait( long timeout, TimeUnit tu ); @Override boolean putRow( RowMetaInterface rowMeta, Object[] rowData ); @Override boolean putRowWait( RowMetaInterface rowMeta, Object[] rowData, long time, TimeUnit tu ); @Override int size(); @Override void clear(); }
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@Test public void testGetValueMetaList() { List<ValueMetaInterface> list = rowMeta.getValueMetaList(); assertTrue( list.contains( string ) ); assertTrue( list.contains( integer ) ); assertTrue( list.contains( date ) ); }
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@Override public List<ValueMetaInterface> getValueMetaList() { List<ValueMetaInterface> copy; lock.readLock().lock(); try { copy = new ArrayList<ValueMetaInterface>( valueMetaList ); } finally { lock.readLock().unlock(); } return Collections.unmodifiableList( copy ); }
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RowMeta implements RowMetaInterface { @Override public List<ValueMetaInterface> getValueMetaList() { List<ValueMetaInterface> copy; lock.readLock().lock(); try { copy = new ArrayList<ValueMetaInterface>( valueMetaList ); } finally { lock.readLock().unlock(); } return Collections.unmodifiableList( copy ); } }
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RowMeta implements RowMetaInterface { @Override public List<ValueMetaInterface> getValueMetaList() { List<ValueMetaInterface> copy; lock.readLock().lock(); try { copy = new ArrayList<ValueMetaInterface>( valueMetaList ); } finally { lock.readLock().unlock(); } return Collections.unmodifiableList( copy ); } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public List<ValueMetaInterface> getValueMetaList() { List<ValueMetaInterface> copy; lock.readLock().lock(); try { copy = new ArrayList<ValueMetaInterface>( valueMetaList ); } finally { lock.readLock().unlock(); } return Collections.unmodifiableList( copy ); } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public List<ValueMetaInterface> getValueMetaList() { List<ValueMetaInterface> copy; lock.readLock().lock(); try { copy = new ArrayList<ValueMetaInterface>( valueMetaList ); } finally { lock.readLock().unlock(); } return Collections.unmodifiableList( copy ); } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testSetValueMetaList() throws KettlePluginException { List<ValueMetaInterface> setList = this.generateVList( new String[]{ "alpha", "bravo" }, new int[]{ 2, 2 } ); rowMeta.setValueMetaList( setList ); assertTrue( setList.contains( rowMeta.searchValueMeta( "alpha" ) ) ); assertTrue( setList.contains( rowMeta.searchValueMeta( "bravo" ) ) ); assertEquals( 0, rowMeta.indexOfValue( "alpha" ) ); assertEquals( 1, rowMeta.indexOfValue( "bravo" ) ); }
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@Override public void setValueMetaList( List<ValueMetaInterface> valueMetaList ) { lock.writeLock().lock(); try { this.valueMetaList = valueMetaList; this.cache.invalidate(); for ( int i = 0, len = valueMetaList.size(); i < len; i++ ) { ValueMetaInterface valueMeta = valueMetaList.get( i ); cache.storeMapping( valueMeta.getName(), i ); } } finally { lock.writeLock().unlock(); } }
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RowMeta implements RowMetaInterface { @Override public void setValueMetaList( List<ValueMetaInterface> valueMetaList ) { lock.writeLock().lock(); try { this.valueMetaList = valueMetaList; this.cache.invalidate(); for ( int i = 0, len = valueMetaList.size(); i < len; i++ ) { ValueMetaInterface valueMeta = valueMetaList.get( i ); cache.storeMapping( valueMeta.getName(), i ); } } finally { lock.writeLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public void setValueMetaList( List<ValueMetaInterface> valueMetaList ) { lock.writeLock().lock(); try { this.valueMetaList = valueMetaList; this.cache.invalidate(); for ( int i = 0, len = valueMetaList.size(); i < len; i++ ) { ValueMetaInterface valueMeta = valueMetaList.get( i ); cache.storeMapping( valueMeta.getName(), i ); } } finally { lock.writeLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public void setValueMetaList( List<ValueMetaInterface> valueMetaList ) { lock.writeLock().lock(); try { this.valueMetaList = valueMetaList; this.cache.invalidate(); for ( int i = 0, len = valueMetaList.size(); i < len; i++ ) { ValueMetaInterface valueMeta = valueMetaList.get( i ); cache.storeMapping( valueMeta.getName(), i ); } } finally { lock.writeLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public void setValueMetaList( List<ValueMetaInterface> valueMetaList ) { lock.writeLock().lock(); try { this.valueMetaList = valueMetaList; this.cache.invalidate(); for ( int i = 0, len = valueMetaList.size(); i < len; i++ ) { ValueMetaInterface valueMeta = valueMetaList.get( i ); cache.storeMapping( valueMeta.getName(), i ); } } finally { lock.writeLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testExists() { assertTrue( rowMeta.exists( string ) ); assertTrue( rowMeta.exists( date ) ); assertTrue( rowMeta.exists( integer ) ); }
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@Override public boolean exists( ValueMetaInterface meta ) { return ( meta != null ) && searchValueMeta( meta.getName() ) != null; }
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RowMeta implements RowMetaInterface { @Override public boolean exists( ValueMetaInterface meta ) { return ( meta != null ) && searchValueMeta( meta.getName() ) != null; } }
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RowMeta implements RowMetaInterface { @Override public boolean exists( ValueMetaInterface meta ) { return ( meta != null ) && searchValueMeta( meta.getName() ) != null; } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public boolean exists( ValueMetaInterface meta ) { return ( meta != null ) && searchValueMeta( meta.getName() ) != null; } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public boolean exists( ValueMetaInterface meta ) { return ( meta != null ) && searchValueMeta( meta.getName() ) != null; } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testGetValueMeta() { assertTrue( rowMeta.getValueMeta( 1 ).equals( integer ) ); }
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@Override public ValueMetaInterface getValueMeta( int index ) { lock.readLock().lock(); try { if ( ( index >= 0 ) && ( index < valueMetaList.size() ) ) { return valueMetaList.get( index ); } else { return null; } } finally { lock.readLock().unlock(); } }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface getValueMeta( int index ) { lock.readLock().lock(); try { if ( ( index >= 0 ) && ( index < valueMetaList.size() ) ) { return valueMetaList.get( index ); } else { return null; } } finally { lock.readLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface getValueMeta( int index ) { lock.readLock().lock(); try { if ( ( index >= 0 ) && ( index < valueMetaList.size() ) ) { return valueMetaList.get( index ); } else { return null; } } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface getValueMeta( int index ) { lock.readLock().lock(); try { if ( ( index >= 0 ) && ( index < valueMetaList.size() ) ) { return valueMetaList.get( index ); } else { return null; } } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface getValueMeta( int index ) { lock.readLock().lock(); try { if ( ( index >= 0 ) && ( index < valueMetaList.size() ) ) { return valueMetaList.get( index ); } else { return null; } } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testSetValueMeta() throws KettlePluginException { rowMeta.setValueMeta( 1, charly ); assertEquals( 1, rowMeta.getValueMetaList().indexOf( charly ) ); assertEquals( "There is still 3 elements:", 3, rowMeta.size() ); assertEquals( -1, rowMeta.indexOfValue( "integer" ) ); }
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@Override public void setValueMeta( int index, ValueMetaInterface valueMeta ) { if ( valueMeta != null ) { lock.writeLock().lock(); try { ValueMetaInterface old = valueMetaList.get( index ); ValueMetaInterface newMeta = valueMeta; int existsIndex = indexOfValue( valueMeta.getName() ); if ( existsIndex >= 0 && existsIndex != index ) { newMeta = renameValueMetaIfInRow( valueMeta, null ); } valueMetaList.set( index, newMeta ); cache.replaceMapping( old.getName(), newMeta.getName(), index ); } finally { lock.writeLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public void setValueMeta( int index, ValueMetaInterface valueMeta ) { if ( valueMeta != null ) { lock.writeLock().lock(); try { ValueMetaInterface old = valueMetaList.get( index ); ValueMetaInterface newMeta = valueMeta; int existsIndex = indexOfValue( valueMeta.getName() ); if ( existsIndex >= 0 && existsIndex != index ) { newMeta = renameValueMetaIfInRow( valueMeta, null ); } valueMetaList.set( index, newMeta ); cache.replaceMapping( old.getName(), newMeta.getName(), index ); } finally { lock.writeLock().unlock(); } } } }
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RowMeta implements RowMetaInterface { @Override public void setValueMeta( int index, ValueMetaInterface valueMeta ) { if ( valueMeta != null ) { lock.writeLock().lock(); try { ValueMetaInterface old = valueMetaList.get( index ); ValueMetaInterface newMeta = valueMeta; int existsIndex = indexOfValue( valueMeta.getName() ); if ( existsIndex >= 0 && existsIndex != index ) { newMeta = renameValueMetaIfInRow( valueMeta, null ); } valueMetaList.set( index, newMeta ); cache.replaceMapping( old.getName(), newMeta.getName(), index ); } finally { lock.writeLock().unlock(); } } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public void setValueMeta( int index, ValueMetaInterface valueMeta ) { if ( valueMeta != null ) { lock.writeLock().lock(); try { ValueMetaInterface old = valueMetaList.get( index ); ValueMetaInterface newMeta = valueMeta; int existsIndex = indexOfValue( valueMeta.getName() ); if ( existsIndex >= 0 && existsIndex != index ) { newMeta = renameValueMetaIfInRow( valueMeta, null ); } valueMetaList.set( index, newMeta ); cache.replaceMapping( old.getName(), newMeta.getName(), index ); } finally { lock.writeLock().unlock(); } } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public void setValueMeta( int index, ValueMetaInterface valueMeta ) { if ( valueMeta != null ) { lock.writeLock().lock(); try { ValueMetaInterface old = valueMetaList.get( index ); ValueMetaInterface newMeta = valueMeta; int existsIndex = indexOfValue( valueMeta.getName() ); if ( existsIndex >= 0 && existsIndex != index ) { newMeta = renameValueMetaIfInRow( valueMeta, null ); } valueMetaList.set( index, newMeta ); cache.replaceMapping( old.getName(), newMeta.getName(), index ); } finally { lock.writeLock().unlock(); } } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testIndexOfValue() { List<ValueMetaInterface> list = rowMeta.getValueMetaList(); assertEquals( 0, list.indexOf( string ) ); assertEquals( 1, list.indexOf( integer ) ); assertEquals( 2, list.indexOf( date ) ); }
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@Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } }
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RowMeta implements RowMetaInterface { @Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testIndexOfNullValue() { assertEquals( -1, rowMeta.indexOfValue( null ) ); }
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@Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } }
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RowMeta implements RowMetaInterface { @Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public int indexOfValue( String valueName ) { if ( valueName == null ) { return -1; } lock.readLock().lock(); try { Integer index = cache.findAndCompare( valueName, valueMetaList ); for ( int i = 0; ( index == null ) && ( i < valueMetaList.size() ); i++ ) { if ( valueName.equalsIgnoreCase( valueMetaList.get( i ).getName() ) ) { index = i; cache.storeMapping( valueName, index ); } } if ( index == null ) { return -1; } return index; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test( expected = HandlerRegistrationException.class ) public void testMsgHandlerNull() throws KettleException { messageEventService.addHandler( operationMessageEvent, null ); }
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public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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@Test public void testSearchValueMeta() { ValueMetaInterface vmi = rowMeta.searchValueMeta( "integer" ); assertEquals( integer, vmi ); vmi = rowMeta.searchValueMeta( "string" ); assertEquals( string, vmi ); vmi = rowMeta.searchValueMeta( "date" ); assertEquals( date, vmi ); }
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@Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testAddRowMeta() throws KettlePluginException { List<ValueMetaInterface> list = this.generateVList( new String[]{ "alfa", "bravo", "charly", "delta" }, new int[]{ 2, 2, 3, 4 } ); RowMeta added = new RowMeta(); added.setValueMetaList( list ); rowMeta.addRowMeta( added ); assertEquals( 7, rowMeta.getValueMetaList().size() ); assertEquals( 5, rowMeta.indexOfValue( "charly" ) ); }
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@Override public void addRowMeta( RowMetaInterface rowMeta ) { for ( int i = 0; i < rowMeta.size(); i++ ) { addValueMeta( rowMeta.getValueMeta( i ) ); } }
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RowMeta implements RowMetaInterface { @Override public void addRowMeta( RowMetaInterface rowMeta ) { for ( int i = 0; i < rowMeta.size(); i++ ) { addValueMeta( rowMeta.getValueMeta( i ) ); } } }
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RowMeta implements RowMetaInterface { @Override public void addRowMeta( RowMetaInterface rowMeta ) { for ( int i = 0; i < rowMeta.size(); i++ ) { addValueMeta( rowMeta.getValueMeta( i ) ); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public void addRowMeta( RowMetaInterface rowMeta ) { for ( int i = 0; i < rowMeta.size(); i++ ) { addValueMeta( rowMeta.getValueMeta( i ) ); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public void addRowMeta( RowMetaInterface rowMeta ) { for ( int i = 0; i < rowMeta.size(); i++ ) { addValueMeta( rowMeta.getValueMeta( i ) ); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testMergeRowMeta() throws KettlePluginException { List<ValueMetaInterface> list = this.generateVList( new String[]{ "phobos", "demos", "mars" }, new int[]{ 6, 6, 6 } ); list.add( 1, integer ); RowMeta toMerge = new RowMeta(); toMerge.setValueMetaList( list ); rowMeta.mergeRowMeta( toMerge ); assertEquals( 7, rowMeta.size() ); list = rowMeta.getValueMetaList(); assertTrue( list.contains( integer ) ); ValueMetaInterface found = null; for ( ValueMetaInterface vm : list ) { if ( vm.getName().equals( "integer_1" ) ) { found = vm; break; } } assertNotNull( found ); }
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@Override public void mergeRowMeta( RowMetaInterface r ) { mergeRowMeta( r, null ); }
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RowMeta implements RowMetaInterface { @Override public void mergeRowMeta( RowMetaInterface r ) { mergeRowMeta( r, null ); } }
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RowMeta implements RowMetaInterface { @Override public void mergeRowMeta( RowMetaInterface r ) { mergeRowMeta( r, null ); } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public void mergeRowMeta( RowMetaInterface r ) { mergeRowMeta( r, null ); } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public void mergeRowMeta( RowMetaInterface r ) { mergeRowMeta( r, null ); } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testLowerCaseNamesSearch() { assertNotNull( rowMeta.searchValueMeta( "Integer" ) ); assertNotNull( rowMeta.searchValueMeta( "string".toUpperCase() ) ); }
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@Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testExternalValueMetaModification() { ValueMetaInterface vmi = rowMeta.searchValueMeta( "string" ); vmi.setName( "string2" ); assertNotNull( rowMeta.searchValueMeta( vmi.getName() ) ); }
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@Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public ValueMetaInterface searchValueMeta( String valueName ) { lock.readLock().lock(); try { Integer index = indexOfValue( valueName ); if ( index < 0 ) { return null; } return valueMetaList.get( index ); } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testGetFieldNames() { rowMeta.clear(); fillRowMeta(); String[] names = rowMeta.getFieldNames(); assertEquals( 10, names.length ); assertEquals( "sample", names[0] ); for ( int i = 1; i < names.length; i++ ) { assertEquals( "", names[i] ); } }
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@Override public String[] getFieldNames() { lock.readLock().lock(); try { String[] retval = new String[ size() ]; for ( int i = 0; i < size(); i++ ) { String valueName = getValueMeta( i ).getName(); retval[i] = valueName == null ? "" : valueName; } return retval; } finally { lock.readLock().unlock(); } }
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RowMeta implements RowMetaInterface { @Override public String[] getFieldNames() { lock.readLock().lock(); try { String[] retval = new String[ size() ]; for ( int i = 0; i < size(); i++ ) { String valueName = getValueMeta( i ).getName(); retval[i] = valueName == null ? "" : valueName; } return retval; } finally { lock.readLock().unlock(); } } }
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RowMeta implements RowMetaInterface { @Override public String[] getFieldNames() { lock.readLock().lock(); try { String[] retval = new String[ size() ]; for ( int i = 0; i < size(); i++ ) { String valueName = getValueMeta( i ).getName(); retval[i] = valueName == null ? "" : valueName; } return retval; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); }
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RowMeta implements RowMetaInterface { @Override public String[] getFieldNames() { lock.readLock().lock(); try { String[] retval = new String[ size() ]; for ( int i = 0; i < size(); i++ ) { String valueName = getValueMeta( i ).getName(); retval[i] = valueName == null ? "" : valueName; } return retval; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); }
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RowMeta implements RowMetaInterface { @Override public String[] getFieldNames() { lock.readLock().lock(); try { String[] retval = new String[ size() ]; for ( int i = 0; i < size(); i++ ) { String valueName = getValueMeta( i ).getName(); retval[i] = valueName == null ? "" : valueName; } return retval; } finally { lock.readLock().unlock(); } } RowMeta(); private RowMeta( RowMeta rowMeta, Integer targetType ); private RowMeta( List<ValueMetaInterface> valueMetaList, RowMetaCache rowMetaCache ); RowMeta( DataInputStream inputStream ); RowMeta( Node node ); @Override RowMeta clone(); @Override RowMetaInterface cloneToType( int targetType ); @Override String toString(); @Override List<ValueMetaInterface> getValueMetaList(); @Override void setValueMetaList( List<ValueMetaInterface> valueMetaList ); @Override int size(); @Override boolean isEmpty(); @Override boolean exists( ValueMetaInterface meta ); @Override void addValueMeta( ValueMetaInterface meta ); @Override void addValueMeta( int index, ValueMetaInterface meta ); @Override ValueMetaInterface getValueMeta( int index ); @Override void setValueMeta( int index, ValueMetaInterface valueMeta ); @Override String getString( Object[] dataRow, int index ); @Override Long getInteger( Object[] dataRow, int index ); @Override Double getNumber( Object[] dataRow, int index ); @Override Date getDate( Object[] dataRow, int index ); @Override BigDecimal getBigNumber( Object[] dataRow, int index ); @Override Boolean getBoolean( Object[] dataRow, int index ); @Override byte[] getBinary( Object[] dataRow, int index ); @Override boolean isNull( Object[] dataRow, int index ); @Override Object[] cloneRow( Object[] objects ); @Override Object[] cloneRow( Object[] objects, Object[] newObjects ); @Override String getString( Object[] dataRow, String valueName, String defaultValue ); @Override Long getInteger( Object[] dataRow, String valueName, Long defaultValue ); @Override Date getDate( Object[] dataRow, String valueName, Date defaultValue ); @Override int indexOfValue( String valueName ); @Override ValueMetaInterface searchValueMeta( String valueName ); @Override void addRowMeta( RowMetaInterface rowMeta ); @Override void mergeRowMeta( RowMetaInterface r ); @Override void mergeRowMeta( RowMetaInterface r, String originStepName ); @Override String[] getFieldNames(); @Override void writeData( DataOutputStream outputStream, Object[] data ); @Override void writeMeta( DataOutputStream outputStream ); @Override Object[] readData( DataInputStream inputStream ); @Override void clear(); @Override void removeValueMeta( String valueName ); @Override void removeValueMeta( int index ); @Override String toStringMeta(); @Override String getString( Object[] row ); @Override String[] getFieldNamesAndTypes( int maxlen ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override boolean equals( Object[] rowData1, Object[] rowData2, int[] fieldnrs ); @Override int compare( Object[] rowData1, Object[] rowData2, int[] fieldnrs1, int[] fieldnrs2 ); @Override int compare( Object[] rowData1, RowMetaInterface rowMeta2, Object[] rowData2, int[] fieldnrs1,
int[] fieldnrs2 ); @Override int compare( Object[] rowData1, Object[] rowData2 ); @Override @Deprecated int oldXORHashCode( Object[] rowData ); @Override int hashCode( Object[] rowData ); @Override int convertedValuesHashCode( Object[] rowData ); static byte[] extractData( RowMetaInterface metadata, Object[] row ); static Object[] getRow( RowMetaInterface metadata, byte[] data ); static Row createOriginalRow( RowMetaInterface rowMeta, Object[] rowData ); @Override String getMetaXML(); @Override String getDataXML( Object[] rowData ); @Override Object[] getRow( Node node ); static final String XML_META_TAG; static final String XML_DATA_TAG; }
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@Test public void testSetPreparedStatementValue() throws Exception { ValueMetaTimestamp vm = new ValueMetaTimestamp(); PreparedStatement ps = mock( PreparedStatement.class ); doAnswer( new Answer<Object>() { @Override public Object answer( InvocationOnMock invocationOnMock ) throws Throwable { Object ts = invocationOnMock.getArguments()[1]; return ts.toString(); } } ).when( ps ).setTimestamp( anyInt(), (Timestamp) anyObject() ); try { vm.setPreparedStatementValue( mock( DatabaseMeta.class ), ps, 0, null ); } catch ( KettleDatabaseException ex ) { fail( "Check PDI-11547" ); } }
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@Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { if ( data != null ) { preparedStatement.setTimestamp( index, getTimestamp( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } catch ( Exception e ) { throw new KettleDatabaseException( toStringMeta() + " : Unable to set value on prepared statement on index " + index, e ); } }
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ValueMetaTimestamp extends ValueMetaDate { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { if ( data != null ) { preparedStatement.setTimestamp( index, getTimestamp( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } catch ( Exception e ) { throw new KettleDatabaseException( toStringMeta() + " : Unable to set value on prepared statement on index " + index, e ); } } }
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ValueMetaTimestamp extends ValueMetaDate { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { if ( data != null ) { preparedStatement.setTimestamp( index, getTimestamp( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } catch ( Exception e ) { throw new KettleDatabaseException( toStringMeta() + " : Unable to set value on prepared statement on index " + index, e ); } } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); }
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ValueMetaTimestamp extends ValueMetaDate { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { if ( data != null ) { preparedStatement.setTimestamp( index, getTimestamp( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } catch ( Exception e ) { throw new KettleDatabaseException( toStringMeta() + " : Unable to set value on prepared statement on index " + index, e ); } } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaTimestamp extends ValueMetaDate { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { if ( data != null ) { preparedStatement.setTimestamp( index, getTimestamp( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } catch ( Exception e ) { throw new KettleDatabaseException( toStringMeta() + " : Unable to set value on prepared statement on index " + index, e ); } } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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@Test public void testCompare() throws Exception { ValueMetaTimestamp vm = new ValueMetaTimestamp(); Timestamp earlier = Timestamp.valueOf( "2012-12-12 12:12:12.121212" ); Timestamp later = Timestamp.valueOf( "2013-12-12 12:12:12.121212" ); assertTrue( vm.isSortedAscending() ); assertFalse( vm.isSortedDescending() ); assertEquals( vm.compare( null, null ), 0 ); assertEquals( vm.compare( null, earlier ), -1 ); assertEquals( vm.compare( earlier, null ), 1 ); assertEquals( vm.compare( earlier, earlier ), 0 ); assertEquals( vm.compare( earlier, later ), -1 ); assertEquals( vm.compare( later, earlier ), 1 ); vm.setSortedDescending( true ); assertFalse( vm.isSortedAscending() ); assertTrue( vm.isSortedDescending() ); assertEquals( vm.compare( null, null ), 0 ); assertEquals( vm.compare( null, earlier ), 1 ); assertEquals( vm.compare( earlier, null ), -1 ); assertEquals( vm.compare( earlier, earlier ), 0 ); assertEquals( vm.compare( earlier, later ), 1 ); assertEquals( vm.compare( later, earlier ), -1 ); }
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public int compare( Object data1, Object data2 ) throws KettleValueException { Timestamp timestamp1 = getTimestamp( data1 ); Timestamp timestamp2 = getTimestamp( data2 ); int cmp = 0; if ( timestamp1 == null ) { if ( timestamp2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( timestamp2 == null ) { cmp = 1; } else { cmp = timestamp1.compareTo( timestamp2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } }
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ValueMetaTimestamp extends ValueMetaDate { public int compare( Object data1, Object data2 ) throws KettleValueException { Timestamp timestamp1 = getTimestamp( data1 ); Timestamp timestamp2 = getTimestamp( data2 ); int cmp = 0; if ( timestamp1 == null ) { if ( timestamp2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( timestamp2 == null ) { cmp = 1; } else { cmp = timestamp1.compareTo( timestamp2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } }
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ValueMetaTimestamp extends ValueMetaDate { public int compare( Object data1, Object data2 ) throws KettleValueException { Timestamp timestamp1 = getTimestamp( data1 ); Timestamp timestamp2 = getTimestamp( data2 ); int cmp = 0; if ( timestamp1 == null ) { if ( timestamp2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( timestamp2 == null ) { cmp = 1; } else { cmp = timestamp1.compareTo( timestamp2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); }
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ValueMetaTimestamp extends ValueMetaDate { public int compare( Object data1, Object data2 ) throws KettleValueException { Timestamp timestamp1 = getTimestamp( data1 ); Timestamp timestamp2 = getTimestamp( data2 ); int cmp = 0; if ( timestamp1 == null ) { if ( timestamp2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( timestamp2 == null ) { cmp = 1; } else { cmp = timestamp1.compareTo( timestamp2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaTimestamp extends ValueMetaDate { public int compare( Object data1, Object data2 ) throws KettleValueException { Timestamp timestamp1 = getTimestamp( data1 ); Timestamp timestamp2 = getTimestamp( data2 ); int cmp = 0; if ( timestamp1 == null ) { if ( timestamp2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( timestamp2 == null ) { cmp = 1; } else { cmp = timestamp1.compareTo( timestamp2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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@Test public void testConvertStringToTimestamp() throws Exception { ValueMetaTimestamp valueMetaTimestamp = new ValueMetaTimestamp(); assertEquals( Timestamp.valueOf( "2012-04-05 04:03:02.123456" ), valueMetaTimestamp .convertStringToTimestamp( "2012/4/5 04:03:02.123456" ) ); assertEquals( Timestamp.valueOf( "2012-04-05 04:03:02.123" ), valueMetaTimestamp .convertStringToTimestamp( "2012/4/5 04:03:02.123" ) ); assertEquals( Timestamp.valueOf( "2012-04-05 04:03:02.123456789" ), valueMetaTimestamp .convertStringToTimestamp( "2012/4/5 04:03:02.123456789" ) ); }
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protected synchronized Timestamp convertStringToTimestamp( String string ) throws KettleValueException { string = Const.trimToType( string, getTrimType() ); if ( Utils.isEmpty( string ) ) { return null; } Timestamp returnValue; try { returnValue = Timestamp.valueOf( string ); } catch ( IllegalArgumentException e ) { try { returnValue = (Timestamp) getDateFormat().parse( string ); } catch ( ParseException ex ) { throw new KettleValueException( toString() + " : couldn't convert string [" + string + "] to a timestamp, expecting format [yyyy-mm-dd hh:mm:ss.ffffff]", e ); } } return returnValue; }
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ValueMetaTimestamp extends ValueMetaDate { protected synchronized Timestamp convertStringToTimestamp( String string ) throws KettleValueException { string = Const.trimToType( string, getTrimType() ); if ( Utils.isEmpty( string ) ) { return null; } Timestamp returnValue; try { returnValue = Timestamp.valueOf( string ); } catch ( IllegalArgumentException e ) { try { returnValue = (Timestamp) getDateFormat().parse( string ); } catch ( ParseException ex ) { throw new KettleValueException( toString() + " : couldn't convert string [" + string + "] to a timestamp, expecting format [yyyy-mm-dd hh:mm:ss.ffffff]", e ); } } return returnValue; } }
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ValueMetaTimestamp extends ValueMetaDate { protected synchronized Timestamp convertStringToTimestamp( String string ) throws KettleValueException { string = Const.trimToType( string, getTrimType() ); if ( Utils.isEmpty( string ) ) { return null; } Timestamp returnValue; try { returnValue = Timestamp.valueOf( string ); } catch ( IllegalArgumentException e ) { try { returnValue = (Timestamp) getDateFormat().parse( string ); } catch ( ParseException ex ) { throw new KettleValueException( toString() + " : couldn't convert string [" + string + "] to a timestamp, expecting format [yyyy-mm-dd hh:mm:ss.ffffff]", e ); } } return returnValue; } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); }
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ValueMetaTimestamp extends ValueMetaDate { protected synchronized Timestamp convertStringToTimestamp( String string ) throws KettleValueException { string = Const.trimToType( string, getTrimType() ); if ( Utils.isEmpty( string ) ) { return null; } Timestamp returnValue; try { returnValue = Timestamp.valueOf( string ); } catch ( IllegalArgumentException e ) { try { returnValue = (Timestamp) getDateFormat().parse( string ); } catch ( ParseException ex ) { throw new KettleValueException( toString() + " : couldn't convert string [" + string + "] to a timestamp, expecting format [yyyy-mm-dd hh:mm:ss.ffffff]", e ); } } return returnValue; } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaTimestamp extends ValueMetaDate { protected synchronized Timestamp convertStringToTimestamp( String string ) throws KettleValueException { string = Const.trimToType( string, getTrimType() ); if ( Utils.isEmpty( string ) ) { return null; } Timestamp returnValue; try { returnValue = Timestamp.valueOf( string ); } catch ( IllegalArgumentException e ) { try { returnValue = (Timestamp) getDateFormat().parse( string ); } catch ( ParseException ex ) { throw new KettleValueException( toString() + " : couldn't convert string [" + string + "] to a timestamp, expecting format [yyyy-mm-dd hh:mm:ss.ffffff]", e ); } } return returnValue; } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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@Test public void testConvertTimestampToString() throws Exception { ValueMetaTimestamp valueMetaTimestamp = new ValueMetaTimestamp(); assertEquals( "2012/04/05 04:03:02.123456000", valueMetaTimestamp.convertTimestampToString( Timestamp .valueOf( "2012-04-05 04:03:02.123456" ) ) ); assertEquals( "2012/04/05 04:03:02.123000000", valueMetaTimestamp.convertTimestampToString( Timestamp .valueOf( "2012-04-05 04:03:02.123" ) ) ); assertEquals( "2012/04/05 04:03:02.123456789", valueMetaTimestamp.convertTimestampToString( Timestamp .valueOf( "2012-04-05 04:03:02.123456789" ) ) ); }
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protected synchronized String convertTimestampToString( Timestamp timestamp ) throws KettleValueException { if ( timestamp == null ) { return null; } return getDateFormat().format( timestamp ); }
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ValueMetaTimestamp extends ValueMetaDate { protected synchronized String convertTimestampToString( Timestamp timestamp ) throws KettleValueException { if ( timestamp == null ) { return null; } return getDateFormat().format( timestamp ); } }
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ValueMetaTimestamp extends ValueMetaDate { protected synchronized String convertTimestampToString( Timestamp timestamp ) throws KettleValueException { if ( timestamp == null ) { return null; } return getDateFormat().format( timestamp ); } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); }
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ValueMetaTimestamp extends ValueMetaDate { protected synchronized String convertTimestampToString( Timestamp timestamp ) throws KettleValueException { if ( timestamp == null ) { return null; } return getDateFormat().format( timestamp ); } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaTimestamp extends ValueMetaDate { protected synchronized String convertTimestampToString( Timestamp timestamp ) throws KettleValueException { if ( timestamp == null ) { return null; } return getDateFormat().format( timestamp ); } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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@Test( expected = HandlerRegistrationException.class ) public void testbothNull() throws KettleException { messageEventService.addHandler( null, null ); }
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public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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MessageEventService { public final void addHandler( final Message eventType, final MessageEventHandler handler ) throws HandlerRegistrationException { if ( handler != null && eventType != null ) { addHandlerFor( eventType, handler ); } else { throw new HandlerRegistrationException( "One of the parameters is null : " + " eventType: " + eventType + " handler:" + handler ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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@Test public void testConvertDateToTimestamp() throws Exception { ValueMetaTimestamp valueMetaTimestamp = new ValueMetaTimestamp(); Date date = new Date(); assertEquals( valueMetaTimestamp.convertDateToTimestamp( date ).getTime(), date.getTime() ); Timestamp timestamp = Timestamp.valueOf( "2014-04-05 04:03:02.123456789" ); Timestamp convertedTimestamp = valueMetaTimestamp.convertDateToTimestamp( timestamp ); assertEquals( convertedTimestamp.getTime(), timestamp.getTime() ); assertEquals( convertedTimestamp.getNanos(), timestamp.getNanos() ); }
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public Timestamp convertDateToTimestamp( Date date ) throws KettleValueException { if ( date == null ) { return null; } Timestamp result = null; if ( date instanceof Timestamp ) { result = (Timestamp) date; } else { result = new Timestamp( date.getTime() ); } return result; }
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ValueMetaTimestamp extends ValueMetaDate { public Timestamp convertDateToTimestamp( Date date ) throws KettleValueException { if ( date == null ) { return null; } Timestamp result = null; if ( date instanceof Timestamp ) { result = (Timestamp) date; } else { result = new Timestamp( date.getTime() ); } return result; } }
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ValueMetaTimestamp extends ValueMetaDate { public Timestamp convertDateToTimestamp( Date date ) throws KettleValueException { if ( date == null ) { return null; } Timestamp result = null; if ( date instanceof Timestamp ) { result = (Timestamp) date; } else { result = new Timestamp( date.getTime() ); } return result; } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); }
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ValueMetaTimestamp extends ValueMetaDate { public Timestamp convertDateToTimestamp( Date date ) throws KettleValueException { if ( date == null ) { return null; } Timestamp result = null; if ( date instanceof Timestamp ) { result = (Timestamp) date; } else { result = new Timestamp( date.getTime() ); } return result; } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaTimestamp extends ValueMetaDate { public Timestamp convertDateToTimestamp( Date date ) throws KettleValueException { if ( date == null ) { return null; } Timestamp result = null; if ( date instanceof Timestamp ) { result = (Timestamp) date; } else { result = new Timestamp( date.getTime() ); } return result; } ValueMetaTimestamp(); ValueMetaTimestamp( String name ); @Override boolean isDate(); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); Timestamp getTimestamp( Object object ); int compare( Object data1, Object data2 ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); Timestamp convertDateToTimestamp( Date date ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object convertDataUsingConversionMetaData( Object data2 ); @Override byte[] getBinaryString( Object object ); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override synchronized SimpleDateFormat getDateFormat(); @Override String getFormatMask(); @Override Class<?> getNativeDataTypeClass(); }
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@Test public void testCompare() throws UnknownHostException, KettleValueException { ValueMetaInternetAddress vm = new ValueMetaInternetAddress(); InetAddress smaller = InetAddress.getByName( "127.0.0.1" ); InetAddress larger = InetAddress.getByName( "127.0.1.1" ); assertTrue( vm.isSortedAscending() ); assertFalse( vm.isSortedDescending() ); assertEquals( 0, vm.compare( null, null ) ); assertEquals( -1, vm.compare( null, smaller ) ); assertEquals( 1, vm.compare( smaller, null ) ); assertEquals( 0, vm.compare( smaller, smaller ) ); assertEquals( -1, vm.compare( smaller, larger ) ); assertEquals( 1, vm.compare( larger, smaller ) ); vm.setSortedDescending( true ); assertFalse( vm.isSortedAscending() ); assertTrue( vm.isSortedDescending() ); assertEquals( 0, vm.compare( null, null ) ); assertEquals( 1, vm.compare( null, smaller ) ); assertEquals( -1, vm.compare( smaller, null ) ); assertEquals( 0, vm.compare( smaller, smaller ) ); assertEquals( 1, vm.compare( smaller, larger ) ); assertEquals( -1, vm.compare( larger, smaller ) ); }
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@Override public int compare( Object data1, Object data2 ) throws KettleValueException { InetAddress inet1 = getInternetAddress( data1 ); InetAddress inet2 = getInternetAddress( data2 ); int cmp = 0; if ( inet1 == null ) { if ( inet2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( inet2 == null ) { cmp = 1; } else { BigInteger bigint1 = new BigInteger( inet1.getAddress() ); BigInteger bigint2 = new BigInteger( inet2.getAddress() ); cmp = bigint1.compareTo( bigint2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } }
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ValueMetaInternetAddress extends ValueMetaDate { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { InetAddress inet1 = getInternetAddress( data1 ); InetAddress inet2 = getInternetAddress( data2 ); int cmp = 0; if ( inet1 == null ) { if ( inet2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( inet2 == null ) { cmp = 1; } else { BigInteger bigint1 = new BigInteger( inet1.getAddress() ); BigInteger bigint2 = new BigInteger( inet2.getAddress() ); cmp = bigint1.compareTo( bigint2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } }
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ValueMetaInternetAddress extends ValueMetaDate { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { InetAddress inet1 = getInternetAddress( data1 ); InetAddress inet2 = getInternetAddress( data2 ); int cmp = 0; if ( inet1 == null ) { if ( inet2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( inet2 == null ) { cmp = 1; } else { BigInteger bigint1 = new BigInteger( inet1.getAddress() ); BigInteger bigint2 = new BigInteger( inet2.getAddress() ); cmp = bigint1.compareTo( bigint2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaInternetAddress(); ValueMetaInternetAddress( String name ); }
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ValueMetaInternetAddress extends ValueMetaDate { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { InetAddress inet1 = getInternetAddress( data1 ); InetAddress inet2 = getInternetAddress( data2 ); int cmp = 0; if ( inet1 == null ) { if ( inet2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( inet2 == null ) { cmp = 1; } else { BigInteger bigint1 = new BigInteger( inet1.getAddress() ); BigInteger bigint2 = new BigInteger( inet2.getAddress() ); cmp = bigint1.compareTo( bigint2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaInternetAddress(); ValueMetaInternetAddress( String name ); @Override int compare( Object data1, Object data2 ); InetAddress getInternetAddress( Object object ); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); @Override byte[] getBinaryString( Object object ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement,
int index, Object data ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaInternetAddress extends ValueMetaDate { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { InetAddress inet1 = getInternetAddress( data1 ); InetAddress inet2 = getInternetAddress( data2 ); int cmp = 0; if ( inet1 == null ) { if ( inet2 == null ) { cmp = 0; } else { cmp = -1; } } else if ( inet2 == null ) { cmp = 1; } else { BigInteger bigint1 = new BigInteger( inet1.getAddress() ); BigInteger bigint2 = new BigInteger( inet2.getAddress() ); cmp = bigint1.compareTo( bigint2 ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaInternetAddress(); ValueMetaInternetAddress( String name ); @Override int compare( Object data1, Object data2 ); InetAddress getInternetAddress( Object object ); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); @Override byte[] getBinaryString( Object object ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement,
int index, Object data ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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@Test public void testGetBinaryString() throws KettleValueException, UnknownHostException { ValueMetaInternetAddress vmInet = new ValueMetaInternetAddress(); final ValueMetaString vmString = new ValueMetaString(); vmInet.setStorageMetadata( vmString ); InetAddress inetAddress = InetAddress.getByName( "127.0.0.1" ); byte[] output = vmInet.getBinaryString( inetAddress ); assertNotNull( output ); assertArrayEquals( vmString.getBinaryString( "127.0.0.1" ), output ); assertEquals( inetAddress, vmInet.convertBinaryStringToNativeType( output ) ); vmInet.setStorageType( ValueMetaInterface.STORAGE_TYPE_BINARY_STRING ); output = vmInet.getBinaryString( vmString.getBinaryString( "127.0.0.1" ) ); assertNotNull( output ); assertArrayEquals( vmString.getBinaryString( "127.0.0.1" ), output ); assertEquals( inetAddress, vmInet.convertBinaryStringToNativeType( output ) ); vmInet.setStorageType( ValueMetaInterface.STORAGE_TYPE_INDEXED ); vmInet.setIndex( new InetAddress[] { inetAddress } ); assertArrayEquals( vmString.getBinaryString( "127.0.0.1" ), vmInet.getBinaryString( 0 ) ); assertEquals( inetAddress, vmInet.convertBinaryStringToNativeType( output ) ); try { vmInet.getBinaryString( 1 ); fail(); } catch ( ArrayIndexOutOfBoundsException e ) { } }
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@Override public byte[] getBinaryString( Object object ) throws KettleValueException { if ( isStorageBinaryString() && identicalFormat ) { return (byte[]) object; } if ( object == null ) { return null; } switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBinaryString( getString( object ) ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBinaryString( getString( convertStringToInternetAddress( convertBinaryStringToString( (byte[]) object ) ) ) ); case STORAGE_TYPE_INDEXED: return convertStringToBinaryString( convertInternetAddressToString( (InetAddress) index[( (Integer) object )] ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } }
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ValueMetaInternetAddress extends ValueMetaDate { @Override public byte[] getBinaryString( Object object ) throws KettleValueException { if ( isStorageBinaryString() && identicalFormat ) { return (byte[]) object; } if ( object == null ) { return null; } switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBinaryString( getString( object ) ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBinaryString( getString( convertStringToInternetAddress( convertBinaryStringToString( (byte[]) object ) ) ) ); case STORAGE_TYPE_INDEXED: return convertStringToBinaryString( convertInternetAddressToString( (InetAddress) index[( (Integer) object )] ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } } }
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ValueMetaInternetAddress extends ValueMetaDate { @Override public byte[] getBinaryString( Object object ) throws KettleValueException { if ( isStorageBinaryString() && identicalFormat ) { return (byte[]) object; } if ( object == null ) { return null; } switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBinaryString( getString( object ) ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBinaryString( getString( convertStringToInternetAddress( convertBinaryStringToString( (byte[]) object ) ) ) ); case STORAGE_TYPE_INDEXED: return convertStringToBinaryString( convertInternetAddressToString( (InetAddress) index[( (Integer) object )] ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } } ValueMetaInternetAddress(); ValueMetaInternetAddress( String name ); }
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ValueMetaInternetAddress extends ValueMetaDate { @Override public byte[] getBinaryString( Object object ) throws KettleValueException { if ( isStorageBinaryString() && identicalFormat ) { return (byte[]) object; } if ( object == null ) { return null; } switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBinaryString( getString( object ) ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBinaryString( getString( convertStringToInternetAddress( convertBinaryStringToString( (byte[]) object ) ) ) ); case STORAGE_TYPE_INDEXED: return convertStringToBinaryString( convertInternetAddressToString( (InetAddress) index[( (Integer) object )] ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } } ValueMetaInternetAddress(); ValueMetaInternetAddress( String name ); @Override int compare( Object data1, Object data2 ); InetAddress getInternetAddress( Object object ); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); @Override byte[] getBinaryString( Object object ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement,
int index, Object data ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaInternetAddress extends ValueMetaDate { @Override public byte[] getBinaryString( Object object ) throws KettleValueException { if ( isStorageBinaryString() && identicalFormat ) { return (byte[]) object; } if ( object == null ) { return null; } switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBinaryString( getString( object ) ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBinaryString( getString( convertStringToInternetAddress( convertBinaryStringToString( (byte[]) object ) ) ) ); case STORAGE_TYPE_INDEXED: return convertStringToBinaryString( convertInternetAddressToString( (InetAddress) index[( (Integer) object )] ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } } ValueMetaInternetAddress(); ValueMetaInternetAddress( String name ); @Override int compare( Object data1, Object data2 ); InetAddress getInternetAddress( Object object ); @Override Date getDate( Object object ); @Override Long getInteger( Object object ); @Override Double getNumber( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override String getString( Object object ); @Override byte[] getBinaryString( Object object ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object cloneValueData( Object object ); @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement,
int index, Object data ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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@Test public void testClone() throws KettleException { ValueMetaInterface original = new ValueMetaString(); original.setCollatorLocale( Locale.CANADA ); original.setCollatorStrength( 3 ); ValueMetaInterface cloned = ValueMetaFactory.cloneValueMeta( original ); assertNotNull( cloned ); assertNotSame( original, cloned ); valueMetaDeepEquals( original, cloned ); }
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public static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ) throws KettlePluginException { return cloneValueMeta( source, source.getType() ); }
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ValueMetaFactory { public static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ) throws KettlePluginException { return cloneValueMeta( source, source.getType() ); } }
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ValueMetaFactory { public static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ) throws KettlePluginException { return cloneValueMeta( source, source.getType() ); } }
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ValueMetaFactory { public static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ) throws KettlePluginException { return cloneValueMeta( source, source.getType() ); } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); }
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ValueMetaFactory { public static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ) throws KettlePluginException { return cloneValueMeta( source, source.getType() ); } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); static PluginRegistry pluginRegistry; }
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@Test public void testCreateValueMeta() throws KettlePluginException { ValueMetaInterface testObject; try { testObject = ValueMetaFactory.createValueMeta( Integer.MIN_VALUE ); fail(); } catch ( KettlePluginException expected ) { } try { testObject = ValueMetaFactory.createValueMeta( null, Integer.MIN_VALUE ); fail(); } catch ( KettlePluginException expected ) { } try { testObject = ValueMetaFactory.createValueMeta( null, Integer.MIN_VALUE, 10, 10 ); fail(); } catch ( KettlePluginException expected ) { } testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_NONE ); assertTrue( testObject instanceof ValueMetaNone ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testNone", ValueMetaInterface.TYPE_NONE ); assertTrue( testObject instanceof ValueMetaNone ); assertEquals( "testNone", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testNone", ValueMetaInterface.TYPE_NONE, 10, 20 ); assertTrue( testObject instanceof ValueMetaNone ); assertEquals( "testNone", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 20, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_NUMBER ); assertTrue( testObject instanceof ValueMetaNumber ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testNumber", ValueMetaInterface.TYPE_NUMBER ); assertTrue( testObject instanceof ValueMetaNumber ); assertEquals( "testNumber", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testNumber", ValueMetaInterface.TYPE_NUMBER, 10, 20 ); assertTrue( testObject instanceof ValueMetaNumber ); assertEquals( "testNumber", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 20, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_STRING ); assertTrue( testObject instanceof ValueMetaString ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testString", ValueMetaInterface.TYPE_STRING ); assertTrue( testObject instanceof ValueMetaString ); assertEquals( "testString", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testString", ValueMetaInterface.TYPE_STRING, 1000, 50 ); assertTrue( testObject instanceof ValueMetaString ); assertEquals( "testString", testObject.getName() ); assertEquals( 1000, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_DATE ); assertTrue( testObject instanceof ValueMetaDate ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testDate", ValueMetaInterface.TYPE_DATE ); assertTrue( testObject instanceof ValueMetaDate ); assertEquals( "testDate", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testDate", ValueMetaInterface.TYPE_DATE, 10, 20 ); assertTrue( testObject instanceof ValueMetaDate ); assertEquals( "testDate", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 20, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_BOOLEAN ); assertTrue( testObject instanceof ValueMetaBoolean ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testBoolean", ValueMetaInterface.TYPE_BOOLEAN ); assertTrue( testObject instanceof ValueMetaBoolean ); assertEquals( "testBoolean", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testBoolean", ValueMetaInterface.TYPE_BOOLEAN, 10, 20 ); assertTrue( testObject instanceof ValueMetaBoolean ); assertEquals( "testBoolean", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_INTEGER ); assertTrue( testObject instanceof ValueMetaInteger ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( 0, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testInteger", ValueMetaInterface.TYPE_INTEGER ); assertTrue( testObject instanceof ValueMetaInteger ); assertEquals( "testInteger", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( 0, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testInteger", ValueMetaInterface.TYPE_INTEGER, 10, 20 ); assertTrue( testObject instanceof ValueMetaInteger ); assertEquals( "testInteger", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 0, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_BIGNUMBER ); assertTrue( testObject instanceof ValueMetaBigNumber ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testBigNumber", ValueMetaInterface.TYPE_BIGNUMBER ); assertTrue( testObject instanceof ValueMetaBigNumber ); assertEquals( "testBigNumber", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testBigNumber", ValueMetaInterface.TYPE_BIGNUMBER, 10, 20 ); assertTrue( testObject instanceof ValueMetaBigNumber ); assertEquals( "testBigNumber", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 20, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_SERIALIZABLE ); assertTrue( testObject instanceof ValueMetaSerializable ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testSerializable", ValueMetaInterface.TYPE_SERIALIZABLE ); assertTrue( testObject instanceof ValueMetaSerializable ); assertEquals( "testSerializable", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testSerializable", ValueMetaInterface.TYPE_SERIALIZABLE, 10, 20 ); assertTrue( testObject instanceof ValueMetaSerializable ); assertEquals( "testSerializable", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 20, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_BINARY ); assertTrue( testObject instanceof ValueMetaBinary ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( 0, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testBinary", ValueMetaInterface.TYPE_BINARY ); assertTrue( testObject instanceof ValueMetaBinary ); assertEquals( "testBinary", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( 0, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testBinary", ValueMetaInterface.TYPE_BINARY, 10, 20 ); assertTrue( testObject instanceof ValueMetaBinary ); assertEquals( "testBinary", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 0, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_TIMESTAMP ); assertTrue( testObject instanceof ValueMetaTimestamp ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testTimestamp", ValueMetaInterface.TYPE_TIMESTAMP ); assertTrue( testObject instanceof ValueMetaTimestamp ); assertEquals( "testTimestamp", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testTimestamp", ValueMetaInterface.TYPE_TIMESTAMP, 10, 20 ); assertTrue( testObject instanceof ValueMetaTimestamp ); assertEquals( "testTimestamp", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 20, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( ValueMetaInterface.TYPE_INET ); assertTrue( testObject instanceof ValueMetaInternetAddress ); assertEquals( null, testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testInternetAddress", ValueMetaInterface.TYPE_INET ); assertTrue( testObject instanceof ValueMetaInternetAddress ); assertEquals( "testInternetAddress", testObject.getName() ); assertEquals( -1, testObject.getLength() ); assertEquals( -1, testObject.getPrecision() ); testObject = ValueMetaFactory.createValueMeta( "testInternetAddress", ValueMetaInterface.TYPE_INET, 10, 20 ); assertTrue( testObject instanceof ValueMetaInternetAddress ); assertEquals( "testInternetAddress", testObject.getName() ); assertEquals( 10, testObject.getLength() ); assertEquals( 20, testObject.getPrecision() ); }
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public static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ) throws KettlePluginException { PluginInterface stringPlugin = pluginRegistry.getPlugin( ValueMetaPluginType.class, String.valueOf( type ) ); if ( stringPlugin == null ) { throw new KettlePluginException( "Unable to locate value meta plugin of type (id) " + type ); } ValueMetaInterface valueMeta = pluginRegistry.loadClass( stringPlugin, ValueMetaInterface.class ); valueMeta.setName( name ); valueMeta.setLength( length, precision ); return valueMeta; }
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ValueMetaFactory { public static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ) throws KettlePluginException { PluginInterface stringPlugin = pluginRegistry.getPlugin( ValueMetaPluginType.class, String.valueOf( type ) ); if ( stringPlugin == null ) { throw new KettlePluginException( "Unable to locate value meta plugin of type (id) " + type ); } ValueMetaInterface valueMeta = pluginRegistry.loadClass( stringPlugin, ValueMetaInterface.class ); valueMeta.setName( name ); valueMeta.setLength( length, precision ); return valueMeta; } }
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ValueMetaFactory { public static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ) throws KettlePluginException { PluginInterface stringPlugin = pluginRegistry.getPlugin( ValueMetaPluginType.class, String.valueOf( type ) ); if ( stringPlugin == null ) { throw new KettlePluginException( "Unable to locate value meta plugin of type (id) " + type ); } ValueMetaInterface valueMeta = pluginRegistry.loadClass( stringPlugin, ValueMetaInterface.class ); valueMeta.setName( name ); valueMeta.setLength( length, precision ); return valueMeta; } }
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ValueMetaFactory { public static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ) throws KettlePluginException { PluginInterface stringPlugin = pluginRegistry.getPlugin( ValueMetaPluginType.class, String.valueOf( type ) ); if ( stringPlugin == null ) { throw new KettlePluginException( "Unable to locate value meta plugin of type (id) " + type ); } ValueMetaInterface valueMeta = pluginRegistry.loadClass( stringPlugin, ValueMetaInterface.class ); valueMeta.setName( name ); valueMeta.setLength( length, precision ); return valueMeta; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); }
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ValueMetaFactory { public static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ) throws KettlePluginException { PluginInterface stringPlugin = pluginRegistry.getPlugin( ValueMetaPluginType.class, String.valueOf( type ) ); if ( stringPlugin == null ) { throw new KettlePluginException( "Unable to locate value meta plugin of type (id) " + type ); } ValueMetaInterface valueMeta = pluginRegistry.loadClass( stringPlugin, ValueMetaInterface.class ); valueMeta.setName( name ); valueMeta.setLength( length, precision ); return valueMeta; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); static PluginRegistry pluginRegistry; }
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@Test public void testGetValueMetaNames() { List<String> dataTypes = Arrays.<String>asList( ValueMetaFactory.getValueMetaNames() ); assertTrue( dataTypes.contains( "Number" ) ); assertTrue( dataTypes.contains( "String" ) ); assertTrue( dataTypes.contains( "Date" ) ); assertTrue( dataTypes.contains( "Boolean" ) ); assertTrue( dataTypes.contains( "Integer" ) ); assertTrue( dataTypes.contains( "BigNumber" ) ); assertFalse( dataTypes.contains( "Serializable" ) ); assertTrue( dataTypes.contains( "Binary" ) ); assertTrue( dataTypes.contains( "Timestamp" ) ); assertTrue( dataTypes.contains( "Internet Address" ) ); }
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public static String[] getValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { int id = Integer.valueOf( plugin.getIds()[0] ); if ( id > 0 && id != ValueMetaInterface.TYPE_SERIALIZABLE ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); }
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ValueMetaFactory { public static String[] getValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { int id = Integer.valueOf( plugin.getIds()[0] ); if ( id > 0 && id != ValueMetaInterface.TYPE_SERIALIZABLE ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); } }
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ValueMetaFactory { public static String[] getValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { int id = Integer.valueOf( plugin.getIds()[0] ); if ( id > 0 && id != ValueMetaInterface.TYPE_SERIALIZABLE ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); } }
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ValueMetaFactory { public static String[] getValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { int id = Integer.valueOf( plugin.getIds()[0] ); if ( id > 0 && id != ValueMetaInterface.TYPE_SERIALIZABLE ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); }
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ValueMetaFactory { public static String[] getValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { int id = Integer.valueOf( plugin.getIds()[0] ); if ( id > 0 && id != ValueMetaInterface.TYPE_SERIALIZABLE ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); static PluginRegistry pluginRegistry; }
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@Test public void testGetAllValueMetaNames() { List<String> dataTypes = Arrays.<String>asList( ValueMetaFactory.getAllValueMetaNames() ); assertTrue( dataTypes.contains( "Number" ) ); assertTrue( dataTypes.contains( "String" ) ); assertTrue( dataTypes.contains( "Date" ) ); assertTrue( dataTypes.contains( "Boolean" ) ); assertTrue( dataTypes.contains( "Integer" ) ); assertTrue( dataTypes.contains( "BigNumber" ) ); assertTrue( dataTypes.contains( "Serializable" ) ); assertTrue( dataTypes.contains( "Binary" ) ); assertTrue( dataTypes.contains( "Timestamp" ) ); assertTrue( dataTypes.contains( "Internet Address" ) ); }
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public static String[] getAllValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { String id = plugin.getIds()[0]; if ( !( "0".equals( id ) ) ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); }
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ValueMetaFactory { public static String[] getAllValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { String id = plugin.getIds()[0]; if ( !( "0".equals( id ) ) ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); } }
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ValueMetaFactory { public static String[] getAllValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { String id = plugin.getIds()[0]; if ( !( "0".equals( id ) ) ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); } }
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ValueMetaFactory { public static String[] getAllValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { String id = plugin.getIds()[0]; if ( !( "0".equals( id ) ) ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); }
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ValueMetaFactory { public static String[] getAllValueMetaNames() { List<String> strings = new ArrayList<String>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { String id = plugin.getIds()[0]; if ( !( "0".equals( id ) ) ) { strings.add( plugin.getName() ); } } return strings.toArray( new String[strings.size()] ); } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); static PluginRegistry pluginRegistry; }
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@Test public void testGetValueMetaName() { assertEquals( "-", ValueMetaFactory.getValueMetaName( Integer.MIN_VALUE ) ); assertEquals( "None", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_NONE ) ); assertEquals( "Number", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_NUMBER ) ); assertEquals( "String", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_STRING ) ); assertEquals( "Date", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_DATE ) ); assertEquals( "Boolean", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_BOOLEAN ) ); assertEquals( "Integer", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_INTEGER ) ); assertEquals( "BigNumber", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_BIGNUMBER ) ); assertEquals( "Serializable", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_SERIALIZABLE ) ); assertEquals( "Binary", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_BINARY ) ); assertEquals( "Timestamp", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_TIMESTAMP ) ); assertEquals( "Internet Address", ValueMetaFactory.getValueMetaName( ValueMetaInterface.TYPE_INET ) ); }
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public static String getValueMetaName( int type ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( Integer.toString( type ).equals( plugin.getIds()[0] ) ) { return plugin.getName(); } } return "-"; }
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ValueMetaFactory { public static String getValueMetaName( int type ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( Integer.toString( type ).equals( plugin.getIds()[0] ) ) { return plugin.getName(); } } return "-"; } }
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ValueMetaFactory { public static String getValueMetaName( int type ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( Integer.toString( type ).equals( plugin.getIds()[0] ) ) { return plugin.getName(); } } return "-"; } }
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ValueMetaFactory { public static String getValueMetaName( int type ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( Integer.toString( type ).equals( plugin.getIds()[0] ) ) { return plugin.getName(); } } return "-"; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); }
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ValueMetaFactory { public static String getValueMetaName( int type ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( Integer.toString( type ).equals( plugin.getIds()[0] ) ) { return plugin.getName(); } } return "-"; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); static PluginRegistry pluginRegistry; }
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@Test public void testGetIdForValueMeta() { assertEquals( ValueMetaInterface.TYPE_NONE, ValueMetaFactory.getIdForValueMeta( null ) ); assertEquals( ValueMetaInterface.TYPE_NONE, ValueMetaFactory.getIdForValueMeta( "" ) ); assertEquals( ValueMetaInterface.TYPE_NONE, ValueMetaFactory.getIdForValueMeta( "None" ) ); assertEquals( ValueMetaInterface.TYPE_NUMBER, ValueMetaFactory.getIdForValueMeta( "Number" ) ); assertEquals( ValueMetaInterface.TYPE_STRING, ValueMetaFactory.getIdForValueMeta( "String" ) ); assertEquals( ValueMetaInterface.TYPE_DATE, ValueMetaFactory.getIdForValueMeta( "Date" ) ); assertEquals( ValueMetaInterface.TYPE_BOOLEAN, ValueMetaFactory.getIdForValueMeta( "Boolean" ) ); assertEquals( ValueMetaInterface.TYPE_INTEGER, ValueMetaFactory.getIdForValueMeta( "Integer" ) ); assertEquals( ValueMetaInterface.TYPE_BIGNUMBER, ValueMetaFactory.getIdForValueMeta( "BigNumber" ) ); assertEquals( ValueMetaInterface.TYPE_SERIALIZABLE, ValueMetaFactory.getIdForValueMeta( "Serializable" ) ); assertEquals( ValueMetaInterface.TYPE_BINARY, ValueMetaFactory.getIdForValueMeta( "Binary" ) ); assertEquals( ValueMetaInterface.TYPE_TIMESTAMP, ValueMetaFactory.getIdForValueMeta( "Timestamp" ) ); assertEquals( ValueMetaInterface.TYPE_INET, ValueMetaFactory.getIdForValueMeta( "Internet Address" ) ); }
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public static int getIdForValueMeta( String valueMetaName ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( valueMetaName != null && valueMetaName.equalsIgnoreCase( plugin.getName() ) ) { return Integer.valueOf( plugin.getIds()[0] ); } } return ValueMetaInterface.TYPE_NONE; }
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ValueMetaFactory { public static int getIdForValueMeta( String valueMetaName ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( valueMetaName != null && valueMetaName.equalsIgnoreCase( plugin.getName() ) ) { return Integer.valueOf( plugin.getIds()[0] ); } } return ValueMetaInterface.TYPE_NONE; } }
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ValueMetaFactory { public static int getIdForValueMeta( String valueMetaName ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( valueMetaName != null && valueMetaName.equalsIgnoreCase( plugin.getName() ) ) { return Integer.valueOf( plugin.getIds()[0] ); } } return ValueMetaInterface.TYPE_NONE; } }
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ValueMetaFactory { public static int getIdForValueMeta( String valueMetaName ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( valueMetaName != null && valueMetaName.equalsIgnoreCase( plugin.getName() ) ) { return Integer.valueOf( plugin.getIds()[0] ); } } return ValueMetaInterface.TYPE_NONE; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); }
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ValueMetaFactory { public static int getIdForValueMeta( String valueMetaName ) { for ( PluginInterface plugin : pluginRegistry.getPlugins( ValueMetaPluginType.class ) ) { if ( valueMetaName != null && valueMetaName.equalsIgnoreCase( plugin.getName() ) ) { return Integer.valueOf( plugin.getIds()[0] ); } } return ValueMetaInterface.TYPE_NONE; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); static PluginRegistry pluginRegistry; }
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@Test public void testGetValueMetaPluginClasses() throws KettlePluginException { List<ValueMetaInterface> dataTypes = ValueMetaFactory.getValueMetaPluginClasses(); boolean numberExists = false; boolean stringExists = false; boolean dateExists = false; boolean booleanExists = false; boolean integerExists = false; boolean bignumberExists = false; boolean serializableExists = false; boolean binaryExists = false; boolean timestampExists = false; boolean inetExists = false; for ( ValueMetaInterface obj : dataTypes ) { if ( obj instanceof ValueMetaNumber ) { numberExists = true; } if ( obj.getClass().equals( ValueMetaString.class ) ) { stringExists = true; } if ( obj.getClass().equals( ValueMetaDate.class ) ) { dateExists = true; } if ( obj.getClass().equals( ValueMetaBoolean.class ) ) { booleanExists = true; } if ( obj.getClass().equals( ValueMetaInteger.class ) ) { integerExists = true; } if ( obj.getClass().equals( ValueMetaBigNumber.class ) ) { bignumberExists = true; } if ( obj.getClass().equals( ValueMetaSerializable.class ) ) { serializableExists = true; } if ( obj.getClass().equals( ValueMetaBinary.class ) ) { binaryExists = true; } if ( obj.getClass().equals( ValueMetaTimestamp.class ) ) { timestampExists = true; } if ( obj.getClass().equals( ValueMetaInternetAddress.class ) ) { inetExists = true; } } assertTrue( numberExists ); assertTrue( stringExists ); assertTrue( dateExists ); assertTrue( booleanExists ); assertTrue( integerExists ); assertTrue( bignumberExists ); assertTrue( serializableExists ); assertTrue( binaryExists ); assertTrue( timestampExists ); assertTrue( inetExists ); }
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public static List<ValueMetaInterface> getValueMetaPluginClasses() throws KettlePluginException { List<ValueMetaInterface> list = new ArrayList<ValueMetaInterface>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { ValueMetaInterface valueMetaInterface = (ValueMetaInterface) pluginRegistry.loadClass( plugin ); list.add( valueMetaInterface ); } return list; }
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ValueMetaFactory { public static List<ValueMetaInterface> getValueMetaPluginClasses() throws KettlePluginException { List<ValueMetaInterface> list = new ArrayList<ValueMetaInterface>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { ValueMetaInterface valueMetaInterface = (ValueMetaInterface) pluginRegistry.loadClass( plugin ); list.add( valueMetaInterface ); } return list; } }
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ValueMetaFactory { public static List<ValueMetaInterface> getValueMetaPluginClasses() throws KettlePluginException { List<ValueMetaInterface> list = new ArrayList<ValueMetaInterface>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { ValueMetaInterface valueMetaInterface = (ValueMetaInterface) pluginRegistry.loadClass( plugin ); list.add( valueMetaInterface ); } return list; } }
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ValueMetaFactory { public static List<ValueMetaInterface> getValueMetaPluginClasses() throws KettlePluginException { List<ValueMetaInterface> list = new ArrayList<ValueMetaInterface>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { ValueMetaInterface valueMetaInterface = (ValueMetaInterface) pluginRegistry.loadClass( plugin ); list.add( valueMetaInterface ); } return list; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); }
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ValueMetaFactory { public static List<ValueMetaInterface> getValueMetaPluginClasses() throws KettlePluginException { List<ValueMetaInterface> list = new ArrayList<ValueMetaInterface>(); List<PluginInterface> plugins = pluginRegistry.getPlugins( ValueMetaPluginType.class ); for ( PluginInterface plugin : plugins ) { ValueMetaInterface valueMetaInterface = (ValueMetaInterface) pluginRegistry.loadClass( plugin ); list.add( valueMetaInterface ); } return list; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); static PluginRegistry pluginRegistry; }
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@Test( expected = MessageEventFireEventException.class ) public void testFireEventNull() throws KettleException { messageEventService.fireEvent( null ); }
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public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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@Test public void testGuessValueMetaInterface() { assertTrue( ValueMetaFactory.guessValueMetaInterface( new BigDecimal( 1.0 ) ) instanceof ValueMetaBigNumber ); assertTrue( ValueMetaFactory.guessValueMetaInterface( new Double( 1.0 ) ) instanceof ValueMetaNumber ); assertTrue( ValueMetaFactory.guessValueMetaInterface( new Long( 1 ) ) instanceof ValueMetaInteger ); assertTrue( ValueMetaFactory.guessValueMetaInterface( new String() ) instanceof ValueMetaString ); assertTrue( ValueMetaFactory.guessValueMetaInterface( new Date() ) instanceof ValueMetaDate ); assertTrue( ValueMetaFactory.guessValueMetaInterface( new Boolean( false ) ) instanceof ValueMetaBoolean ); assertTrue( ValueMetaFactory.guessValueMetaInterface( new Boolean( true ) ) instanceof ValueMetaBoolean ); assertTrue( ValueMetaFactory.guessValueMetaInterface( false ) instanceof ValueMetaBoolean ); assertTrue( ValueMetaFactory.guessValueMetaInterface( true ) instanceof ValueMetaBoolean ); assertTrue( ValueMetaFactory.guessValueMetaInterface( new byte[10] ) instanceof ValueMetaBinary ); assertEquals( null, ValueMetaFactory.guessValueMetaInterface( null ) ); assertEquals( null, ValueMetaFactory.guessValueMetaInterface( new Short( (short) 1 ) ) ); assertEquals( null, ValueMetaFactory.guessValueMetaInterface( new Byte( (byte) 1 ) ) ); assertEquals( null, ValueMetaFactory.guessValueMetaInterface( new Float( 1.0 ) ) ); assertEquals( null, ValueMetaFactory.guessValueMetaInterface( new StringBuilder() ) ); assertEquals( null, ValueMetaFactory.guessValueMetaInterface( (byte) 1 ) ); }
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public static ValueMetaInterface guessValueMetaInterface( Object object ) { if ( object instanceof Number ) { if ( object instanceof BigDecimal ) { return new ValueMetaBigNumber(); } else if ( object instanceof Double ) { return new ValueMetaNumber(); } else if ( object instanceof Long ) { return new ValueMetaInteger(); } } else if ( object instanceof String ) { return new ValueMetaString(); } else if ( object instanceof Date ) { return new ValueMetaDate(); } else if ( object instanceof Boolean ) { return new ValueMetaBoolean(); } else if ( object instanceof byte[] ) { return new ValueMetaBinary(); } return null; }
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ValueMetaFactory { public static ValueMetaInterface guessValueMetaInterface( Object object ) { if ( object instanceof Number ) { if ( object instanceof BigDecimal ) { return new ValueMetaBigNumber(); } else if ( object instanceof Double ) { return new ValueMetaNumber(); } else if ( object instanceof Long ) { return new ValueMetaInteger(); } } else if ( object instanceof String ) { return new ValueMetaString(); } else if ( object instanceof Date ) { return new ValueMetaDate(); } else if ( object instanceof Boolean ) { return new ValueMetaBoolean(); } else if ( object instanceof byte[] ) { return new ValueMetaBinary(); } return null; } }
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ValueMetaFactory { public static ValueMetaInterface guessValueMetaInterface( Object object ) { if ( object instanceof Number ) { if ( object instanceof BigDecimal ) { return new ValueMetaBigNumber(); } else if ( object instanceof Double ) { return new ValueMetaNumber(); } else if ( object instanceof Long ) { return new ValueMetaInteger(); } } else if ( object instanceof String ) { return new ValueMetaString(); } else if ( object instanceof Date ) { return new ValueMetaDate(); } else if ( object instanceof Boolean ) { return new ValueMetaBoolean(); } else if ( object instanceof byte[] ) { return new ValueMetaBinary(); } return null; } }
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ValueMetaFactory { public static ValueMetaInterface guessValueMetaInterface( Object object ) { if ( object instanceof Number ) { if ( object instanceof BigDecimal ) { return new ValueMetaBigNumber(); } else if ( object instanceof Double ) { return new ValueMetaNumber(); } else if ( object instanceof Long ) { return new ValueMetaInteger(); } } else if ( object instanceof String ) { return new ValueMetaString(); } else if ( object instanceof Date ) { return new ValueMetaDate(); } else if ( object instanceof Boolean ) { return new ValueMetaBoolean(); } else if ( object instanceof byte[] ) { return new ValueMetaBinary(); } return null; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); }
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ValueMetaFactory { public static ValueMetaInterface guessValueMetaInterface( Object object ) { if ( object instanceof Number ) { if ( object instanceof BigDecimal ) { return new ValueMetaBigNumber(); } else if ( object instanceof Double ) { return new ValueMetaNumber(); } else if ( object instanceof Long ) { return new ValueMetaInteger(); } } else if ( object instanceof String ) { return new ValueMetaString(); } else if ( object instanceof Date ) { return new ValueMetaDate(); } else if ( object instanceof Boolean ) { return new ValueMetaBoolean(); } else if ( object instanceof byte[] ) { return new ValueMetaBinary(); } return null; } static ValueMetaInterface createValueMeta( String name, int type, int length, int precision ); static ValueMetaInterface createValueMeta( String name, int type ); static ValueMetaInterface createValueMeta( int type ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source ); static ValueMetaInterface cloneValueMeta( ValueMetaInterface source, int targetType ); static String[] getValueMetaNames(); static String[] getAllValueMetaNames(); static String getValueMetaName( int type ); static int getIdForValueMeta( String valueMetaName ); static List<ValueMetaInterface> getValueMetaPluginClasses(); static ValueMetaInterface guessValueMetaInterface( Object object ); static PluginRegistry pluginRegistry; }
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@Test public void testGetDataXML() throws IOException { BigDecimal bigDecimal = BigDecimal.ONE; ValueMetaBase valueDoubleMetaBase = new ValueMetaBase( String.valueOf( bigDecimal ), ValueMetaInterface.TYPE_BIGNUMBER ); assertEquals( "<value-data>" + Encode.forXml( String.valueOf( bigDecimal ) ) + "</value-data>" + SystemUtils.LINE_SEPARATOR, valueDoubleMetaBase.getDataXML( bigDecimal ) ); boolean valueBoolean = Boolean.TRUE; ValueMetaBase valueBooleanMetaBase = new ValueMetaBase( String.valueOf( valueBoolean ), ValueMetaInterface.TYPE_BOOLEAN ); assertEquals( "<value-data>" + Encode.forXml( String.valueOf( valueBoolean ) ) + "</value-data>" + SystemUtils.LINE_SEPARATOR, valueBooleanMetaBase.getDataXML( valueBoolean ) ); Date date = new Date( 0 ); ValueMetaBase dateMetaBase = new ValueMetaBase( date.toString(), ValueMetaInterface.TYPE_DATE ); SimpleDateFormat formaterData = new SimpleDateFormat( ValueMetaBase.DEFAULT_DATE_FORMAT_MASK ); assertEquals( "<value-data>" + Encode.forXml( formaterData.format( date ) ) + "</value-data>" + SystemUtils.LINE_SEPARATOR, dateMetaBase.getDataXML( date ) ); InetAddress inetAddress = InetAddress.getByName( "127.0.0.1" ); ValueMetaBase inetAddressMetaBase = new ValueMetaBase( inetAddress.toString(), ValueMetaInterface.TYPE_INET ); assertEquals( "<value-data>" + Encode.forXml( inetAddress.toString() ) + "</value-data>" + SystemUtils.LINE_SEPARATOR, inetAddressMetaBase.getDataXML( inetAddress ) ); long value = Long.MAX_VALUE; ValueMetaBase integerMetaBase = new ValueMetaBase( String.valueOf( value ), ValueMetaInterface.TYPE_INTEGER ); assertEquals( "<value-data>" + Encode.forXml( String.valueOf( value ) ) + "</value-data>" + SystemUtils.LINE_SEPARATOR, integerMetaBase.getDataXML( value ) ); String stringValue = "TEST_STRING"; ValueMetaBase valueMetaBase = new ValueMetaString( stringValue ); assertEquals( "<value-data>" + Encode.forXml( stringValue ) + "</value-data>" + SystemUtils.LINE_SEPARATOR, valueMetaBase.getDataXML( stringValue ) ); Timestamp timestamp = new Timestamp( 0 ); ValueMetaBase valueMetaBaseTimeStamp = new ValueMetaBase( timestamp.toString(), ValueMetaInterface.TYPE_TIMESTAMP ); SimpleDateFormat formater = new SimpleDateFormat( ValueMetaBase.DEFAULT_TIMESTAMP_FORMAT_MASK ); assertEquals( "<value-data>" + Encode.forXml( formater.format( timestamp ) ) + "</value-data>" + SystemUtils.LINE_SEPARATOR, valueMetaBaseTimeStamp.getDataXML( timestamp ) ); byte[] byteTestValues = { 0, 1, 2, 3 }; ValueMetaBase valueMetaBaseByteArray = new ValueMetaBase( byteTestValues.toString(), ValueMetaInterface.TYPE_STRING ); valueMetaBaseByteArray.setStorageType( ValueMetaInterface.STORAGE_TYPE_BINARY_STRING ); assertEquals( "<value-data><binary-string>" + Encode.forXml( XMLHandler.encodeBinaryData( byteTestValues ) ) + "</binary-string>" + Const.CR + "</value-data>", valueMetaBaseByteArray.getDataXML( byteTestValues ) ); }
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@Override public String getDataXML( Object object ) throws IOException { StringBuilder xml = new StringBuilder(); String string; if ( object != null ) { try { switch ( storageType ) { case STORAGE_TYPE_NORMAL: switch ( getType() ) { case TYPE_STRING: string = (String) object; break; case TYPE_NUMBER: string = Double.toString( (Double) object ); break; case TYPE_INTEGER: string = Long.toString( (Long) object ); break; case TYPE_DATE: string = XMLHandler.date2string( (Date) object ); break; case TYPE_BIGNUMBER: string = ( (BigDecimal) object ).toString(); break; case TYPE_BOOLEAN: string = Boolean.toString( (Boolean) object ); break; case TYPE_BINARY: string = XMLHandler.encodeBinaryData( (byte[]) object ); break; case TYPE_TIMESTAMP: string = XMLHandler.timestamp2string( (Timestamp) object ); break; case TYPE_INET: string = ( (InetAddress) object ).toString(); break; default: throw new IOException( toString() + " : Unable to serialize data type to XML " + getType() ); } break; case STORAGE_TYPE_BINARY_STRING: string = XMLHandler.addTagValue( "binary-string", (byte[]) object ); xml.append( XMLHandler.openTag( XML_DATA_TAG ) ).append( string ).append( XMLHandler.closeTag( XML_DATA_TAG ) ); return xml.toString(); case STORAGE_TYPE_INDEXED: string = XMLHandler.addTagValue( "index-value", (Integer) object ); break; default: throw new IOException( toString() + " : Unknown storage type " + getStorageType() ); } } catch ( ClassCastException e ) { throw new RuntimeException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]", e ); } catch ( Exception e ) { throw new RuntimeException( toString() + " : there was a value XML encoding error", e ); } } else { string = ""; } xml.append( XMLHandler.addTagValue( XML_DATA_TAG, string ) ); return xml.toString(); }
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ValueMetaBase implements ValueMetaInterface { @Override public String getDataXML( Object object ) throws IOException { StringBuilder xml = new StringBuilder(); String string; if ( object != null ) { try { switch ( storageType ) { case STORAGE_TYPE_NORMAL: switch ( getType() ) { case TYPE_STRING: string = (String) object; break; case TYPE_NUMBER: string = Double.toString( (Double) object ); break; case TYPE_INTEGER: string = Long.toString( (Long) object ); break; case TYPE_DATE: string = XMLHandler.date2string( (Date) object ); break; case TYPE_BIGNUMBER: string = ( (BigDecimal) object ).toString(); break; case TYPE_BOOLEAN: string = Boolean.toString( (Boolean) object ); break; case TYPE_BINARY: string = XMLHandler.encodeBinaryData( (byte[]) object ); break; case TYPE_TIMESTAMP: string = XMLHandler.timestamp2string( (Timestamp) object ); break; case TYPE_INET: string = ( (InetAddress) object ).toString(); break; default: throw new IOException( toString() + " : Unable to serialize data type to XML " + getType() ); } break; case STORAGE_TYPE_BINARY_STRING: string = XMLHandler.addTagValue( "binary-string", (byte[]) object ); xml.append( XMLHandler.openTag( XML_DATA_TAG ) ).append( string ).append( XMLHandler.closeTag( XML_DATA_TAG ) ); return xml.toString(); case STORAGE_TYPE_INDEXED: string = XMLHandler.addTagValue( "index-value", (Integer) object ); break; default: throw new IOException( toString() + " : Unknown storage type " + getStorageType() ); } } catch ( ClassCastException e ) { throw new RuntimeException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]", e ); } catch ( Exception e ) { throw new RuntimeException( toString() + " : there was a value XML encoding error", e ); } } else { string = ""; } xml.append( XMLHandler.addTagValue( XML_DATA_TAG, string ) ); return xml.toString(); } }
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ValueMetaBase implements ValueMetaInterface { @Override public String getDataXML( Object object ) throws IOException { StringBuilder xml = new StringBuilder(); String string; if ( object != null ) { try { switch ( storageType ) { case STORAGE_TYPE_NORMAL: switch ( getType() ) { case TYPE_STRING: string = (String) object; break; case TYPE_NUMBER: string = Double.toString( (Double) object ); break; case TYPE_INTEGER: string = Long.toString( (Long) object ); break; case TYPE_DATE: string = XMLHandler.date2string( (Date) object ); break; case TYPE_BIGNUMBER: string = ( (BigDecimal) object ).toString(); break; case TYPE_BOOLEAN: string = Boolean.toString( (Boolean) object ); break; case TYPE_BINARY: string = XMLHandler.encodeBinaryData( (byte[]) object ); break; case TYPE_TIMESTAMP: string = XMLHandler.timestamp2string( (Timestamp) object ); break; case TYPE_INET: string = ( (InetAddress) object ).toString(); break; default: throw new IOException( toString() + " : Unable to serialize data type to XML " + getType() ); } break; case STORAGE_TYPE_BINARY_STRING: string = XMLHandler.addTagValue( "binary-string", (byte[]) object ); xml.append( XMLHandler.openTag( XML_DATA_TAG ) ).append( string ).append( XMLHandler.closeTag( XML_DATA_TAG ) ); return xml.toString(); case STORAGE_TYPE_INDEXED: string = XMLHandler.addTagValue( "index-value", (Integer) object ); break; default: throw new IOException( toString() + " : Unknown storage type " + getStorageType() ); } } catch ( ClassCastException e ) { throw new RuntimeException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]", e ); } catch ( Exception e ) { throw new RuntimeException( toString() + " : there was a value XML encoding error", e ); } } else { string = ""; } xml.append( XMLHandler.addTagValue( XML_DATA_TAG, string ) ); return xml.toString(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public String getDataXML( Object object ) throws IOException { StringBuilder xml = new StringBuilder(); String string; if ( object != null ) { try { switch ( storageType ) { case STORAGE_TYPE_NORMAL: switch ( getType() ) { case TYPE_STRING: string = (String) object; break; case TYPE_NUMBER: string = Double.toString( (Double) object ); break; case TYPE_INTEGER: string = Long.toString( (Long) object ); break; case TYPE_DATE: string = XMLHandler.date2string( (Date) object ); break; case TYPE_BIGNUMBER: string = ( (BigDecimal) object ).toString(); break; case TYPE_BOOLEAN: string = Boolean.toString( (Boolean) object ); break; case TYPE_BINARY: string = XMLHandler.encodeBinaryData( (byte[]) object ); break; case TYPE_TIMESTAMP: string = XMLHandler.timestamp2string( (Timestamp) object ); break; case TYPE_INET: string = ( (InetAddress) object ).toString(); break; default: throw new IOException( toString() + " : Unable to serialize data type to XML " + getType() ); } break; case STORAGE_TYPE_BINARY_STRING: string = XMLHandler.addTagValue( "binary-string", (byte[]) object ); xml.append( XMLHandler.openTag( XML_DATA_TAG ) ).append( string ).append( XMLHandler.closeTag( XML_DATA_TAG ) ); return xml.toString(); case STORAGE_TYPE_INDEXED: string = XMLHandler.addTagValue( "index-value", (Integer) object ); break; default: throw new IOException( toString() + " : Unknown storage type " + getStorageType() ); } } catch ( ClassCastException e ) { throw new RuntimeException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]", e ); } catch ( Exception e ) { throw new RuntimeException( toString() + " : there was a value XML encoding error", e ); } } else { string = ""; } xml.append( XMLHandler.addTagValue( XML_DATA_TAG, string ) ); return xml.toString(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public String getDataXML( Object object ) throws IOException { StringBuilder xml = new StringBuilder(); String string; if ( object != null ) { try { switch ( storageType ) { case STORAGE_TYPE_NORMAL: switch ( getType() ) { case TYPE_STRING: string = (String) object; break; case TYPE_NUMBER: string = Double.toString( (Double) object ); break; case TYPE_INTEGER: string = Long.toString( (Long) object ); break; case TYPE_DATE: string = XMLHandler.date2string( (Date) object ); break; case TYPE_BIGNUMBER: string = ( (BigDecimal) object ).toString(); break; case TYPE_BOOLEAN: string = Boolean.toString( (Boolean) object ); break; case TYPE_BINARY: string = XMLHandler.encodeBinaryData( (byte[]) object ); break; case TYPE_TIMESTAMP: string = XMLHandler.timestamp2string( (Timestamp) object ); break; case TYPE_INET: string = ( (InetAddress) object ).toString(); break; default: throw new IOException( toString() + " : Unable to serialize data type to XML " + getType() ); } break; case STORAGE_TYPE_BINARY_STRING: string = XMLHandler.addTagValue( "binary-string", (byte[]) object ); xml.append( XMLHandler.openTag( XML_DATA_TAG ) ).append( string ).append( XMLHandler.closeTag( XML_DATA_TAG ) ); return xml.toString(); case STORAGE_TYPE_INDEXED: string = XMLHandler.addTagValue( "index-value", (Integer) object ); break; default: throw new IOException( toString() + " : Unknown storage type " + getStorageType() ); } } catch ( ClassCastException e ) { throw new RuntimeException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]", e ); } catch ( Exception e ) { throw new RuntimeException( toString() + " : there was a value XML encoding error", e ); } } else { string = ""; } xml.append( XMLHandler.addTagValue( XML_DATA_TAG, string ) ); return xml.toString(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testGetValueFromSQLTypeTypeOverride() throws Exception { final int varbinaryColumnIndex = 2; ValueMetaBase valueMetaBase = new ValueMetaBase(), valueMetaBaseSpy = Mockito.spy( valueMetaBase ); DatabaseMeta dbMeta = Mockito.mock( DatabaseMeta.class ); DatabaseInterface databaseInterface = Mockito.mock( DatabaseInterface.class ); Mockito.doReturn( databaseInterface ).when( dbMeta ).getDatabaseInterface(); ResultSetMetaData metaData = Mockito.mock( ResultSetMetaData.class ); valueMetaBaseSpy.getValueFromSQLType( dbMeta, TEST_NAME, metaData, varbinaryColumnIndex, false, false ); Mockito.verify( databaseInterface, Mockito.times( 1 ) ).customizeValueFromSQLType( Mockito.any( ValueMetaInterface.class ), Mockito.any( ResultSetMetaData.class ), Mockito.anyInt() ); }
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@SuppressWarnings( "fallthrough" ) @Override public ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm, int index, boolean ignoreLength, boolean lazyConversion ) throws KettleDatabaseException { try { int length = -1; int precision = -1; int valtype = ValueMetaInterface.TYPE_NONE; boolean isClob = false; int type = rm.getColumnType( index ); boolean signed = false; try { signed = rm.isSigned( index ); } catch ( Exception ignored ) { } switch ( type ) { case java.sql.Types.CHAR: case java.sql.Types.VARCHAR: case java.sql.Types.NVARCHAR: case java.sql.Types.LONGVARCHAR: valtype = ValueMetaInterface.TYPE_STRING; if ( !ignoreLength ) { length = rm.getColumnDisplaySize( index ); } break; case java.sql.Types.CLOB: case java.sql.Types.NCLOB: valtype = ValueMetaInterface.TYPE_STRING; length = DatabaseMeta.CLOB_LENGTH; isClob = true; break; case java.sql.Types.BIGINT: if ( signed ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 15; } else { valtype = ValueMetaInterface.TYPE_BIGNUMBER; precision = 0; length = 16; } break; case java.sql.Types.INTEGER: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 9; break; case java.sql.Types.SMALLINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; case java.sql.Types.TINYINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 2; break; case java.sql.Types.DECIMAL: case java.sql.Types.DOUBLE: case java.sql.Types.FLOAT: case java.sql.Types.REAL: case java.sql.Types.NUMERIC: valtype = ValueMetaInterface.TYPE_NUMBER; length = rm.getPrecision( index ); precision = rm.getScale( index ); if ( length >= 126 ) { length = -1; } if ( precision >= 126 ) { precision = -1; } if ( type == java.sql.Types.DOUBLE || type == java.sql.Types.FLOAT || type == java.sql.Types.REAL ) { if ( precision == 0 ) { precision = -1; } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta && type == java.sql.Types.DOUBLE && precision >= 16 && length >= 16 ) { precision = -1; length = -1; } if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { if ( precision >= length ) { precision = -1; length = -1; } } if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( precision == 0 ) { if ( length <= 18 && length > 0 ) { valtype = ValueMetaInterface.TYPE_INTEGER; } else if ( length > 18 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta || databaseMeta.getDatabaseInterface() instanceof GreenplumDatabaseMeta ) { if ( type == java.sql.Types.NUMERIC && length == 0 && precision == 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } if ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) { if ( precision == 0 && length == 38 ) { valtype = ( (OracleDatabaseMeta) databaseMeta.getDatabaseInterface() ) .strictBigNumberInterpretation() ? TYPE_BIGNUMBER : TYPE_INTEGER; } if ( precision <= 0 && length <= 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } break; case java.sql.Types.TIMESTAMP: if ( databaseMeta.supportsTimestampDataType() ) { valtype = ValueMetaInterface.TYPE_TIMESTAMP; length = rm.getScale( index ); } break; case java.sql.Types.DATE: if ( databaseMeta.getDatabaseInterface() instanceof TeradataDatabaseMeta ) { precision = 1; } case java.sql.Types.TIME: valtype = ValueMetaInterface.TYPE_DATE; if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { String property = databaseMeta.getConnectionProperties().getProperty( "yearIsDateType" ); if ( property != null && property.equalsIgnoreCase( "false" ) && rm.getColumnTypeName( index ).equalsIgnoreCase( "YEAR" ) ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; } } break; case java.sql.Types.BOOLEAN: case java.sql.Types.BIT: valtype = ValueMetaInterface.TYPE_BOOLEAN; break; case java.sql.Types.BINARY: case java.sql.Types.BLOB: case java.sql.Types.VARBINARY: case java.sql.Types.LONGVARBINARY: valtype = ValueMetaInterface.TYPE_BINARY; if ( databaseMeta.isDisplaySizeTwiceThePrecision() && ( 2 * rm.getPrecision( index ) ) == rm.getColumnDisplaySize( index ) ) { length = rm.getPrecision( index ); } else if ( ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { valtype = ValueMetaInterface.TYPE_STRING; length = rm.getColumnDisplaySize( index ); } else if ( databaseMeta.isMySQLVariant() && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { length = -1; } else if ( databaseMeta.getDatabaseInterface() instanceof SQLiteDatabaseMeta ) { valtype = ValueMetaInterface.TYPE_STRING; } else { length = -1; } precision = -1; break; default: valtype = ValueMetaInterface.TYPE_STRING; precision = rm.getScale( index ); break; } ValueMetaInterface v = ValueMetaFactory.createValueMeta( name, valtype ); v.setLength( length ); v.setPrecision( precision ); v.setLargeTextField( isClob ); getOriginalColumnMetadata( v, rm, index, ignoreLength ); if ( lazyConversion && valtype == ValueMetaInterface.TYPE_STRING ) { v.setStorageType( ValueMetaInterface.STORAGE_TYPE_BINARY_STRING ); try { ValueMetaInterface storageMetaData = ValueMetaFactory.cloneValueMeta( v, ValueMetaInterface.TYPE_STRING ); storageMetaData.setStorageType( ValueMetaInterface.STORAGE_TYPE_NORMAL ); v.setStorageMetadata( storageMetaData ); } catch ( Exception e ) { throw new SQLException( e ); } } ValueMetaInterface newV = null; try { newV = databaseMeta.getDatabaseInterface().customizeValueFromSQLType( v, rm, index ); } catch ( SQLException e ) { throw new SQLException( e ); } return newV == null ? v : newV; } catch ( Exception e ) { throw new KettleDatabaseException( "Error determining value metadata from SQL resultset metadata", e ); } }
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ValueMetaBase implements ValueMetaInterface { @SuppressWarnings( "fallthrough" ) @Override public ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm, int index, boolean ignoreLength, boolean lazyConversion ) throws KettleDatabaseException { try { int length = -1; int precision = -1; int valtype = ValueMetaInterface.TYPE_NONE; boolean isClob = false; int type = rm.getColumnType( index ); boolean signed = false; try { signed = rm.isSigned( index ); } catch ( Exception ignored ) { } switch ( type ) { case java.sql.Types.CHAR: case java.sql.Types.VARCHAR: case java.sql.Types.NVARCHAR: case java.sql.Types.LONGVARCHAR: valtype = ValueMetaInterface.TYPE_STRING; if ( !ignoreLength ) { length = rm.getColumnDisplaySize( index ); } break; case java.sql.Types.CLOB: case java.sql.Types.NCLOB: valtype = ValueMetaInterface.TYPE_STRING; length = DatabaseMeta.CLOB_LENGTH; isClob = true; break; case java.sql.Types.BIGINT: if ( signed ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 15; } else { valtype = ValueMetaInterface.TYPE_BIGNUMBER; precision = 0; length = 16; } break; case java.sql.Types.INTEGER: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 9; break; case java.sql.Types.SMALLINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; case java.sql.Types.TINYINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 2; break; case java.sql.Types.DECIMAL: case java.sql.Types.DOUBLE: case java.sql.Types.FLOAT: case java.sql.Types.REAL: case java.sql.Types.NUMERIC: valtype = ValueMetaInterface.TYPE_NUMBER; length = rm.getPrecision( index ); precision = rm.getScale( index ); if ( length >= 126 ) { length = -1; } if ( precision >= 126 ) { precision = -1; } if ( type == java.sql.Types.DOUBLE || type == java.sql.Types.FLOAT || type == java.sql.Types.REAL ) { if ( precision == 0 ) { precision = -1; } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta && type == java.sql.Types.DOUBLE && precision >= 16 && length >= 16 ) { precision = -1; length = -1; } if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { if ( precision >= length ) { precision = -1; length = -1; } } if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( precision == 0 ) { if ( length <= 18 && length > 0 ) { valtype = ValueMetaInterface.TYPE_INTEGER; } else if ( length > 18 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta || databaseMeta.getDatabaseInterface() instanceof GreenplumDatabaseMeta ) { if ( type == java.sql.Types.NUMERIC && length == 0 && precision == 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } if ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) { if ( precision == 0 && length == 38 ) { valtype = ( (OracleDatabaseMeta) databaseMeta.getDatabaseInterface() ) .strictBigNumberInterpretation() ? TYPE_BIGNUMBER : TYPE_INTEGER; } if ( precision <= 0 && length <= 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } break; case java.sql.Types.TIMESTAMP: if ( databaseMeta.supportsTimestampDataType() ) { valtype = ValueMetaInterface.TYPE_TIMESTAMP; length = rm.getScale( index ); } break; case java.sql.Types.DATE: if ( databaseMeta.getDatabaseInterface() instanceof TeradataDatabaseMeta ) { precision = 1; } case java.sql.Types.TIME: valtype = ValueMetaInterface.TYPE_DATE; if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { String property = databaseMeta.getConnectionProperties().getProperty( "yearIsDateType" ); if ( property != null && property.equalsIgnoreCase( "false" ) && rm.getColumnTypeName( index ).equalsIgnoreCase( "YEAR" ) ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; } } break; case java.sql.Types.BOOLEAN: case java.sql.Types.BIT: valtype = ValueMetaInterface.TYPE_BOOLEAN; break; case java.sql.Types.BINARY: case java.sql.Types.BLOB: case java.sql.Types.VARBINARY: case java.sql.Types.LONGVARBINARY: valtype = ValueMetaInterface.TYPE_BINARY; if ( databaseMeta.isDisplaySizeTwiceThePrecision() && ( 2 * rm.getPrecision( index ) ) == rm.getColumnDisplaySize( index ) ) { length = rm.getPrecision( index ); } else if ( ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { valtype = ValueMetaInterface.TYPE_STRING; length = rm.getColumnDisplaySize( index ); } else if ( databaseMeta.isMySQLVariant() && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { length = -1; } else if ( databaseMeta.getDatabaseInterface() instanceof SQLiteDatabaseMeta ) { valtype = ValueMetaInterface.TYPE_STRING; } else { length = -1; } precision = -1; break; default: valtype = ValueMetaInterface.TYPE_STRING; precision = rm.getScale( index ); break; } ValueMetaInterface v = ValueMetaFactory.createValueMeta( name, valtype ); v.setLength( length ); v.setPrecision( precision ); v.setLargeTextField( isClob ); getOriginalColumnMetadata( v, rm, index, ignoreLength ); if ( lazyConversion && valtype == ValueMetaInterface.TYPE_STRING ) { v.setStorageType( ValueMetaInterface.STORAGE_TYPE_BINARY_STRING ); try { ValueMetaInterface storageMetaData = ValueMetaFactory.cloneValueMeta( v, ValueMetaInterface.TYPE_STRING ); storageMetaData.setStorageType( ValueMetaInterface.STORAGE_TYPE_NORMAL ); v.setStorageMetadata( storageMetaData ); } catch ( Exception e ) { throw new SQLException( e ); } } ValueMetaInterface newV = null; try { newV = databaseMeta.getDatabaseInterface().customizeValueFromSQLType( v, rm, index ); } catch ( SQLException e ) { throw new SQLException( e ); } return newV == null ? v : newV; } catch ( Exception e ) { throw new KettleDatabaseException( "Error determining value metadata from SQL resultset metadata", e ); } } }
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ValueMetaBase implements ValueMetaInterface { @SuppressWarnings( "fallthrough" ) @Override public ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm, int index, boolean ignoreLength, boolean lazyConversion ) throws KettleDatabaseException { try { int length = -1; int precision = -1; int valtype = ValueMetaInterface.TYPE_NONE; boolean isClob = false; int type = rm.getColumnType( index ); boolean signed = false; try { signed = rm.isSigned( index ); } catch ( Exception ignored ) { } switch ( type ) { case java.sql.Types.CHAR: case java.sql.Types.VARCHAR: case java.sql.Types.NVARCHAR: case java.sql.Types.LONGVARCHAR: valtype = ValueMetaInterface.TYPE_STRING; if ( !ignoreLength ) { length = rm.getColumnDisplaySize( index ); } break; case java.sql.Types.CLOB: case java.sql.Types.NCLOB: valtype = ValueMetaInterface.TYPE_STRING; length = DatabaseMeta.CLOB_LENGTH; isClob = true; break; case java.sql.Types.BIGINT: if ( signed ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 15; } else { valtype = ValueMetaInterface.TYPE_BIGNUMBER; precision = 0; length = 16; } break; case java.sql.Types.INTEGER: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 9; break; case java.sql.Types.SMALLINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; case java.sql.Types.TINYINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 2; break; case java.sql.Types.DECIMAL: case java.sql.Types.DOUBLE: case java.sql.Types.FLOAT: case java.sql.Types.REAL: case java.sql.Types.NUMERIC: valtype = ValueMetaInterface.TYPE_NUMBER; length = rm.getPrecision( index ); precision = rm.getScale( index ); if ( length >= 126 ) { length = -1; } if ( precision >= 126 ) { precision = -1; } if ( type == java.sql.Types.DOUBLE || type == java.sql.Types.FLOAT || type == java.sql.Types.REAL ) { if ( precision == 0 ) { precision = -1; } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta && type == java.sql.Types.DOUBLE && precision >= 16 && length >= 16 ) { precision = -1; length = -1; } if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { if ( precision >= length ) { precision = -1; length = -1; } } if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( precision == 0 ) { if ( length <= 18 && length > 0 ) { valtype = ValueMetaInterface.TYPE_INTEGER; } else if ( length > 18 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta || databaseMeta.getDatabaseInterface() instanceof GreenplumDatabaseMeta ) { if ( type == java.sql.Types.NUMERIC && length == 0 && precision == 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } if ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) { if ( precision == 0 && length == 38 ) { valtype = ( (OracleDatabaseMeta) databaseMeta.getDatabaseInterface() ) .strictBigNumberInterpretation() ? TYPE_BIGNUMBER : TYPE_INTEGER; } if ( precision <= 0 && length <= 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } break; case java.sql.Types.TIMESTAMP: if ( databaseMeta.supportsTimestampDataType() ) { valtype = ValueMetaInterface.TYPE_TIMESTAMP; length = rm.getScale( index ); } break; case java.sql.Types.DATE: if ( databaseMeta.getDatabaseInterface() instanceof TeradataDatabaseMeta ) { precision = 1; } case java.sql.Types.TIME: valtype = ValueMetaInterface.TYPE_DATE; if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { String property = databaseMeta.getConnectionProperties().getProperty( "yearIsDateType" ); if ( property != null && property.equalsIgnoreCase( "false" ) && rm.getColumnTypeName( index ).equalsIgnoreCase( "YEAR" ) ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; } } break; case java.sql.Types.BOOLEAN: case java.sql.Types.BIT: valtype = ValueMetaInterface.TYPE_BOOLEAN; break; case java.sql.Types.BINARY: case java.sql.Types.BLOB: case java.sql.Types.VARBINARY: case java.sql.Types.LONGVARBINARY: valtype = ValueMetaInterface.TYPE_BINARY; if ( databaseMeta.isDisplaySizeTwiceThePrecision() && ( 2 * rm.getPrecision( index ) ) == rm.getColumnDisplaySize( index ) ) { length = rm.getPrecision( index ); } else if ( ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { valtype = ValueMetaInterface.TYPE_STRING; length = rm.getColumnDisplaySize( index ); } else if ( databaseMeta.isMySQLVariant() && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { length = -1; } else if ( databaseMeta.getDatabaseInterface() instanceof SQLiteDatabaseMeta ) { valtype = ValueMetaInterface.TYPE_STRING; } else { length = -1; } precision = -1; break; default: valtype = ValueMetaInterface.TYPE_STRING; precision = rm.getScale( index ); break; } ValueMetaInterface v = ValueMetaFactory.createValueMeta( name, valtype ); v.setLength( length ); v.setPrecision( precision ); v.setLargeTextField( isClob ); getOriginalColumnMetadata( v, rm, index, ignoreLength ); if ( lazyConversion && valtype == ValueMetaInterface.TYPE_STRING ) { v.setStorageType( ValueMetaInterface.STORAGE_TYPE_BINARY_STRING ); try { ValueMetaInterface storageMetaData = ValueMetaFactory.cloneValueMeta( v, ValueMetaInterface.TYPE_STRING ); storageMetaData.setStorageType( ValueMetaInterface.STORAGE_TYPE_NORMAL ); v.setStorageMetadata( storageMetaData ); } catch ( Exception e ) { throw new SQLException( e ); } } ValueMetaInterface newV = null; try { newV = databaseMeta.getDatabaseInterface().customizeValueFromSQLType( v, rm, index ); } catch ( SQLException e ) { throw new SQLException( e ); } return newV == null ? v : newV; } catch ( Exception e ) { throw new KettleDatabaseException( "Error determining value metadata from SQL resultset metadata", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @SuppressWarnings( "fallthrough" ) @Override public ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm, int index, boolean ignoreLength, boolean lazyConversion ) throws KettleDatabaseException { try { int length = -1; int precision = -1; int valtype = ValueMetaInterface.TYPE_NONE; boolean isClob = false; int type = rm.getColumnType( index ); boolean signed = false; try { signed = rm.isSigned( index ); } catch ( Exception ignored ) { } switch ( type ) { case java.sql.Types.CHAR: case java.sql.Types.VARCHAR: case java.sql.Types.NVARCHAR: case java.sql.Types.LONGVARCHAR: valtype = ValueMetaInterface.TYPE_STRING; if ( !ignoreLength ) { length = rm.getColumnDisplaySize( index ); } break; case java.sql.Types.CLOB: case java.sql.Types.NCLOB: valtype = ValueMetaInterface.TYPE_STRING; length = DatabaseMeta.CLOB_LENGTH; isClob = true; break; case java.sql.Types.BIGINT: if ( signed ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 15; } else { valtype = ValueMetaInterface.TYPE_BIGNUMBER; precision = 0; length = 16; } break; case java.sql.Types.INTEGER: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 9; break; case java.sql.Types.SMALLINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; case java.sql.Types.TINYINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 2; break; case java.sql.Types.DECIMAL: case java.sql.Types.DOUBLE: case java.sql.Types.FLOAT: case java.sql.Types.REAL: case java.sql.Types.NUMERIC: valtype = ValueMetaInterface.TYPE_NUMBER; length = rm.getPrecision( index ); precision = rm.getScale( index ); if ( length >= 126 ) { length = -1; } if ( precision >= 126 ) { precision = -1; } if ( type == java.sql.Types.DOUBLE || type == java.sql.Types.FLOAT || type == java.sql.Types.REAL ) { if ( precision == 0 ) { precision = -1; } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta && type == java.sql.Types.DOUBLE && precision >= 16 && length >= 16 ) { precision = -1; length = -1; } if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { if ( precision >= length ) { precision = -1; length = -1; } } if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( precision == 0 ) { if ( length <= 18 && length > 0 ) { valtype = ValueMetaInterface.TYPE_INTEGER; } else if ( length > 18 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta || databaseMeta.getDatabaseInterface() instanceof GreenplumDatabaseMeta ) { if ( type == java.sql.Types.NUMERIC && length == 0 && precision == 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } if ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) { if ( precision == 0 && length == 38 ) { valtype = ( (OracleDatabaseMeta) databaseMeta.getDatabaseInterface() ) .strictBigNumberInterpretation() ? TYPE_BIGNUMBER : TYPE_INTEGER; } if ( precision <= 0 && length <= 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } break; case java.sql.Types.TIMESTAMP: if ( databaseMeta.supportsTimestampDataType() ) { valtype = ValueMetaInterface.TYPE_TIMESTAMP; length = rm.getScale( index ); } break; case java.sql.Types.DATE: if ( databaseMeta.getDatabaseInterface() instanceof TeradataDatabaseMeta ) { precision = 1; } case java.sql.Types.TIME: valtype = ValueMetaInterface.TYPE_DATE; if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { String property = databaseMeta.getConnectionProperties().getProperty( "yearIsDateType" ); if ( property != null && property.equalsIgnoreCase( "false" ) && rm.getColumnTypeName( index ).equalsIgnoreCase( "YEAR" ) ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; } } break; case java.sql.Types.BOOLEAN: case java.sql.Types.BIT: valtype = ValueMetaInterface.TYPE_BOOLEAN; break; case java.sql.Types.BINARY: case java.sql.Types.BLOB: case java.sql.Types.VARBINARY: case java.sql.Types.LONGVARBINARY: valtype = ValueMetaInterface.TYPE_BINARY; if ( databaseMeta.isDisplaySizeTwiceThePrecision() && ( 2 * rm.getPrecision( index ) ) == rm.getColumnDisplaySize( index ) ) { length = rm.getPrecision( index ); } else if ( ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { valtype = ValueMetaInterface.TYPE_STRING; length = rm.getColumnDisplaySize( index ); } else if ( databaseMeta.isMySQLVariant() && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { length = -1; } else if ( databaseMeta.getDatabaseInterface() instanceof SQLiteDatabaseMeta ) { valtype = ValueMetaInterface.TYPE_STRING; } else { length = -1; } precision = -1; break; default: valtype = ValueMetaInterface.TYPE_STRING; precision = rm.getScale( index ); break; } ValueMetaInterface v = ValueMetaFactory.createValueMeta( name, valtype ); v.setLength( length ); v.setPrecision( precision ); v.setLargeTextField( isClob ); getOriginalColumnMetadata( v, rm, index, ignoreLength ); if ( lazyConversion && valtype == ValueMetaInterface.TYPE_STRING ) { v.setStorageType( ValueMetaInterface.STORAGE_TYPE_BINARY_STRING ); try { ValueMetaInterface storageMetaData = ValueMetaFactory.cloneValueMeta( v, ValueMetaInterface.TYPE_STRING ); storageMetaData.setStorageType( ValueMetaInterface.STORAGE_TYPE_NORMAL ); v.setStorageMetadata( storageMetaData ); } catch ( Exception e ) { throw new SQLException( e ); } } ValueMetaInterface newV = null; try { newV = databaseMeta.getDatabaseInterface().customizeValueFromSQLType( v, rm, index ); } catch ( SQLException e ) { throw new SQLException( e ); } return newV == null ? v : newV; } catch ( Exception e ) { throw new KettleDatabaseException( "Error determining value metadata from SQL resultset metadata", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @SuppressWarnings( "fallthrough" ) @Override public ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm, int index, boolean ignoreLength, boolean lazyConversion ) throws KettleDatabaseException { try { int length = -1; int precision = -1; int valtype = ValueMetaInterface.TYPE_NONE; boolean isClob = false; int type = rm.getColumnType( index ); boolean signed = false; try { signed = rm.isSigned( index ); } catch ( Exception ignored ) { } switch ( type ) { case java.sql.Types.CHAR: case java.sql.Types.VARCHAR: case java.sql.Types.NVARCHAR: case java.sql.Types.LONGVARCHAR: valtype = ValueMetaInterface.TYPE_STRING; if ( !ignoreLength ) { length = rm.getColumnDisplaySize( index ); } break; case java.sql.Types.CLOB: case java.sql.Types.NCLOB: valtype = ValueMetaInterface.TYPE_STRING; length = DatabaseMeta.CLOB_LENGTH; isClob = true; break; case java.sql.Types.BIGINT: if ( signed ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 15; } else { valtype = ValueMetaInterface.TYPE_BIGNUMBER; precision = 0; length = 16; } break; case java.sql.Types.INTEGER: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 9; break; case java.sql.Types.SMALLINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; case java.sql.Types.TINYINT: valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 2; break; case java.sql.Types.DECIMAL: case java.sql.Types.DOUBLE: case java.sql.Types.FLOAT: case java.sql.Types.REAL: case java.sql.Types.NUMERIC: valtype = ValueMetaInterface.TYPE_NUMBER; length = rm.getPrecision( index ); precision = rm.getScale( index ); if ( length >= 126 ) { length = -1; } if ( precision >= 126 ) { precision = -1; } if ( type == java.sql.Types.DOUBLE || type == java.sql.Types.FLOAT || type == java.sql.Types.REAL ) { if ( precision == 0 ) { precision = -1; } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta && type == java.sql.Types.DOUBLE && precision >= 16 && length >= 16 ) { precision = -1; length = -1; } if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { if ( precision >= length ) { precision = -1; length = -1; } } if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( precision == 0 ) { if ( length <= 18 && length > 0 ) { valtype = ValueMetaInterface.TYPE_INTEGER; } else if ( length > 18 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } else { if ( length > 15 || precision > 15 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; } } } if ( databaseMeta.getDatabaseInterface() instanceof PostgreSQLDatabaseMeta || databaseMeta.getDatabaseInterface() instanceof GreenplumDatabaseMeta ) { if ( type == java.sql.Types.NUMERIC && length == 0 && precision == 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } if ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) { if ( precision == 0 && length == 38 ) { valtype = ( (OracleDatabaseMeta) databaseMeta.getDatabaseInterface() ) .strictBigNumberInterpretation() ? TYPE_BIGNUMBER : TYPE_INTEGER; } if ( precision <= 0 && length <= 0 ) { valtype = ValueMetaInterface.TYPE_BIGNUMBER; length = -1; precision = -1; } } break; case java.sql.Types.TIMESTAMP: if ( databaseMeta.supportsTimestampDataType() ) { valtype = ValueMetaInterface.TYPE_TIMESTAMP; length = rm.getScale( index ); } break; case java.sql.Types.DATE: if ( databaseMeta.getDatabaseInterface() instanceof TeradataDatabaseMeta ) { precision = 1; } case java.sql.Types.TIME: valtype = ValueMetaInterface.TYPE_DATE; if ( databaseMeta.getDatabaseInterface().isMySQLVariant() ) { String property = databaseMeta.getConnectionProperties().getProperty( "yearIsDateType" ); if ( property != null && property.equalsIgnoreCase( "false" ) && rm.getColumnTypeName( index ).equalsIgnoreCase( "YEAR" ) ) { valtype = ValueMetaInterface.TYPE_INTEGER; precision = 0; length = 4; break; } } break; case java.sql.Types.BOOLEAN: case java.sql.Types.BIT: valtype = ValueMetaInterface.TYPE_BOOLEAN; break; case java.sql.Types.BINARY: case java.sql.Types.BLOB: case java.sql.Types.VARBINARY: case java.sql.Types.LONGVARBINARY: valtype = ValueMetaInterface.TYPE_BINARY; if ( databaseMeta.isDisplaySizeTwiceThePrecision() && ( 2 * rm.getPrecision( index ) ) == rm.getColumnDisplaySize( index ) ) { length = rm.getPrecision( index ); } else if ( ( databaseMeta.getDatabaseInterface() instanceof OracleDatabaseMeta ) && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { valtype = ValueMetaInterface.TYPE_STRING; length = rm.getColumnDisplaySize( index ); } else if ( databaseMeta.isMySQLVariant() && ( type == java.sql.Types.VARBINARY || type == java.sql.Types.LONGVARBINARY ) ) { length = -1; } else if ( databaseMeta.getDatabaseInterface() instanceof SQLiteDatabaseMeta ) { valtype = ValueMetaInterface.TYPE_STRING; } else { length = -1; } precision = -1; break; default: valtype = ValueMetaInterface.TYPE_STRING; precision = rm.getScale( index ); break; } ValueMetaInterface v = ValueMetaFactory.createValueMeta( name, valtype ); v.setLength( length ); v.setPrecision( precision ); v.setLargeTextField( isClob ); getOriginalColumnMetadata( v, rm, index, ignoreLength ); if ( lazyConversion && valtype == ValueMetaInterface.TYPE_STRING ) { v.setStorageType( ValueMetaInterface.STORAGE_TYPE_BINARY_STRING ); try { ValueMetaInterface storageMetaData = ValueMetaFactory.cloneValueMeta( v, ValueMetaInterface.TYPE_STRING ); storageMetaData.setStorageType( ValueMetaInterface.STORAGE_TYPE_NORMAL ); v.setStorageMetadata( storageMetaData ); } catch ( Exception e ) { throw new SQLException( e ); } } ValueMetaInterface newV = null; try { newV = databaseMeta.getDatabaseInterface().customizeValueFromSQLType( v, rm, index ); } catch ( SQLException e ) { throw new SQLException( e ); } return newV == null ? v : newV; } catch ( Exception e ) { throw new KettleDatabaseException( "Error determining value metadata from SQL resultset metadata", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testConvertStringToBoolean() { assertNull( ValueMetaBase.convertStringToBoolean( null ) ); assertNull( ValueMetaBase.convertStringToBoolean( "" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "Y" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "y" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "Yes" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "YES" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "yES" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "TRUE" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "True" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "true" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "tRuE" ) ); assertTrue( ValueMetaBase.convertStringToBoolean( "Y" ) ); Assert.assertFalse( ValueMetaBase.convertStringToBoolean( "N" ) ); Assert.assertFalse( ValueMetaBase.convertStringToBoolean( "No" ) ); Assert.assertFalse( ValueMetaBase.convertStringToBoolean( "no" ) ); Assert.assertFalse( ValueMetaBase.convertStringToBoolean( "Yeah" ) ); Assert.assertFalse( ValueMetaBase.convertStringToBoolean( "False" ) ); Assert.assertFalse( ValueMetaBase.convertStringToBoolean( "NOT false" ) ); }
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public static Boolean convertStringToBoolean( String string ) { if ( Utils.isEmpty( string ) ) { return null; } return Boolean.valueOf( "Y".equalsIgnoreCase( string ) || "TRUE".equalsIgnoreCase( string ) || "YES".equalsIgnoreCase( string ) || "1".equals( string ) ); }
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ValueMetaBase implements ValueMetaInterface { public static Boolean convertStringToBoolean( String string ) { if ( Utils.isEmpty( string ) ) { return null; } return Boolean.valueOf( "Y".equalsIgnoreCase( string ) || "TRUE".equalsIgnoreCase( string ) || "YES".equalsIgnoreCase( string ) || "1".equals( string ) ); } }
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ValueMetaBase implements ValueMetaInterface { public static Boolean convertStringToBoolean( String string ) { if ( Utils.isEmpty( string ) ) { return null; } return Boolean.valueOf( "Y".equalsIgnoreCase( string ) || "TRUE".equalsIgnoreCase( string ) || "YES".equalsIgnoreCase( string ) || "1".equals( string ) ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { public static Boolean convertStringToBoolean( String string ) { if ( Utils.isEmpty( string ) ) { return null; } return Boolean.valueOf( "Y".equalsIgnoreCase( string ) || "TRUE".equalsIgnoreCase( string ) || "YES".equalsIgnoreCase( string ) || "1".equals( string ) ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { public static Boolean convertStringToBoolean( String string ) { if ( Utils.isEmpty( string ) ) { return null; } return Boolean.valueOf( "Y".equalsIgnoreCase( string ) || "TRUE".equalsIgnoreCase( string ) || "YES".equalsIgnoreCase( string ) || "1".equals( string ) ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testConvertDataFromStringToString() throws KettleValueException { ValueMetaBase inValueMetaString = new ValueMetaString(); ValueMetaBase outValueMetaString = new ValueMetaString(); String inputValueEmptyString = StringUtils.EMPTY; String inputValueNullString = null; String nullIf = null; String ifNull = null; int trim_type = 0; Object result; System.setProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ); result = outValueMetaString.convertDataFromString( inputValueEmptyString, inValueMetaString, nullIf, ifNull, trim_type ); assertEquals( "KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL = N: " + "Conversion from empty string to string must return empty string", StringUtils.EMPTY, result ); result = outValueMetaString.convertDataFromString( inputValueNullString, inValueMetaString, nullIf, ifNull, trim_type ); assertEquals( "KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL = N: " + "Conversion from null string must return null", null, result ); System.setProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "Y" ); result = outValueMetaString.convertDataFromString( inputValueEmptyString, inValueMetaString, nullIf, ifNull, trim_type ); assertEquals( "KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL = Y: " + "Conversion from empty string to string must return empty string", StringUtils.EMPTY, result ); result = outValueMetaString.convertDataFromString( inputValueNullString, inValueMetaString, nullIf, ifNull, trim_type ); assertEquals( "KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL = Y: " + "Conversion from null string must return empty string", StringUtils.EMPTY, result ); }
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@Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testConvertDataFromStringToDate() throws KettleValueException { ValueMetaBase inValueMetaString = new ValueMetaString(); ValueMetaBase outValueMetaDate = new ValueMetaDate(); String inputValueEmptyString = StringUtils.EMPTY; String nullIf = null; String ifNull = null; int trim_type = 0; Object result; result = outValueMetaDate.convertDataFromString( inputValueEmptyString, inValueMetaString, nullIf, ifNull, trim_type ); assertEquals( "Conversion from empty string to date must return null", result, null ); }
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@Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test( expected = KettleValueException.class ) public void testConvertDataFromStringForNullMeta() throws KettleValueException { ValueMetaBase valueMetaBase = new ValueMetaBase(); String inputValueEmptyString = StringUtils.EMPTY; ValueMetaInterface valueMetaInterface = null; String nullIf = null; String ifNull = null; int trim_type = 0; valueMetaBase.convertDataFromString( inputValueEmptyString, valueMetaInterface, nullIf, ifNull, trim_type ); }
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@Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull, int trim_type ) throws KettleValueException { if ( convertMeta == null ) { throw new KettleValueException( "API coding error: convertMeta input parameter should not be equals to null" ); } String null_value = nullIf; int inValueType = convertMeta.getType(); int outValueType = getType(); if ( null_value == null ) { switch ( inValueType ) { case ValueMetaInterface.TYPE_BOOLEAN: null_value = Const.NULL_BOOLEAN; break; case ValueMetaInterface.TYPE_STRING: null_value = Const.NULL_STRING; break; case ValueMetaInterface.TYPE_BIGNUMBER: null_value = Const.NULL_BIGNUMBER; break; case ValueMetaInterface.TYPE_NUMBER: null_value = Const.NULL_NUMBER; break; case ValueMetaInterface.TYPE_INTEGER: null_value = Const.NULL_INTEGER; break; case ValueMetaInterface.TYPE_DATE: null_value = Const.NULL_DATE; break; case ValueMetaInterface.TYPE_BINARY: null_value = Const.NULL_BINARY; break; default: null_value = Const.NULL_NONE; break; } } if ( !Utils.isEmpty( ifNull ) ) { if ( Utils.isEmpty( pol ) || pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { pol = ifNull; } } boolean isStringValue = outValueType == Value.VALUE_TYPE_STRING; Object emptyValue = isStringValue ? Const.NULL_STRING : null; Boolean isEmptyAndNullDiffer = convertStringToBoolean( Const.NVL( System.getProperty( Const.KETTLE_EMPTY_STRING_DIFFERS_FROM_NULL, "N" ), "N" ) ); if ( pol == null && isStringValue && isEmptyAndNullDiffer ) { pol = Const.NULL_STRING; } if ( pol == null ) { return null; } else if ( Utils.isEmpty( pol ) && !isStringValue ) { return null; } else { if ( !Utils.isEmpty( null_value ) ) { if ( null_value.length() <= pol.length() ) { if ( pol.equalsIgnoreCase( Const.rightPad( new StringBuilder( null_value ), pol.length() ) ) ) { return emptyValue; } } } else { if ( Const.onlySpaces( pol ) ) { return emptyValue; } } } StringBuilder strpol; switch ( trim_type ) { case ValueMetaInterface.TRIM_TYPE_LEFT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_RIGHT: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; case ValueMetaInterface.TRIM_TYPE_BOTH: strpol = new StringBuilder( pol ); while ( strpol.length() > 0 && strpol.charAt( 0 ) == ' ' ) { strpol.deleteCharAt( 0 ); } while ( strpol.length() > 0 && strpol.charAt( strpol.length() - 1 ) == ' ' ) { strpol.deleteCharAt( strpol.length() - 1 ); } pol = strpol.toString(); break; default: break; } return convertData( convertMeta, pol ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test( expected = KettleValueException.class ) public void testGetBigDecimalThrowsKettleValueException() throws KettleValueException { ValueMetaBase valueMeta = new ValueMetaBigNumber(); valueMeta.getBigNumber( "1234567890" ); }
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@Override public BigDecimal getBigNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (BigDecimal) object; case STORAGE_TYPE_BINARY_STRING: return (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (BigDecimal) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBigNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBigNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToBigNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Long) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Long) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Double) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToBigNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToBigNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertDateToBigNumber( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToBigNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToBigNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToBigNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to BigDecimals." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to BigDecimals." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a BigNumber", e ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public BigDecimal getBigNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (BigDecimal) object; case STORAGE_TYPE_BINARY_STRING: return (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (BigDecimal) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBigNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBigNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToBigNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Long) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Long) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Double) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToBigNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToBigNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertDateToBigNumber( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToBigNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToBigNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToBigNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to BigDecimals." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to BigDecimals." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a BigNumber", e ); } } }
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ValueMetaBase implements ValueMetaInterface { @Override public BigDecimal getBigNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (BigDecimal) object; case STORAGE_TYPE_BINARY_STRING: return (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (BigDecimal) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBigNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBigNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToBigNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Long) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Long) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Double) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToBigNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToBigNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertDateToBigNumber( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToBigNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToBigNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToBigNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to BigDecimals." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to BigDecimals." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a BigNumber", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public BigDecimal getBigNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (BigDecimal) object; case STORAGE_TYPE_BINARY_STRING: return (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (BigDecimal) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBigNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBigNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToBigNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Long) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Long) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Double) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToBigNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToBigNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertDateToBigNumber( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToBigNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToBigNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToBigNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to BigDecimals." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to BigDecimals." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a BigNumber", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public BigDecimal getBigNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (BigDecimal) object; case STORAGE_TYPE_BINARY_STRING: return (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (BigDecimal) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToBigNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToBigNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToBigNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Long) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Long) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return BigDecimal.valueOf( ( (Double) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return BigDecimal.valueOf( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return BigDecimal.valueOf( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToBigNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToBigNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertDateToBigNumber( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToBigNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToBigNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToBigNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to BigDecimals." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to BigDecimals." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a BigNumber", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test( expected = KettleValueException.class ) public void testGetIntegerThrowsKettleValueException() throws KettleValueException { ValueMetaBase valueMeta = new ValueMetaInteger(); valueMeta.getInteger( "1234567890" ); }
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@Override public Long getInteger( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Long) object; case STORAGE_TYPE_BINARY_STRING: return (Long) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Long) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToInteger( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToInteger( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToInteger( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( Math.round( ( (Double) object ).doubleValue() ) ); case STORAGE_TYPE_BINARY_STRING: return new Long( Math.round( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ) .doubleValue() ) ); case STORAGE_TYPE_INDEXED: return new Long( Math.round( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToInteger( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (Date) convertBinaryStringToNativeType( (byte[]) object ) ).getTime() ); case STORAGE_TYPE_INDEXED: return convertDateToInteger( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( ( (BigDecimal) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return new Long( ( (BigDecimal) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToInteger( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToInteger( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToInteger( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to integers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to integers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to an Integer", e ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public Long getInteger( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Long) object; case STORAGE_TYPE_BINARY_STRING: return (Long) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Long) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToInteger( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToInteger( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToInteger( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( Math.round( ( (Double) object ).doubleValue() ) ); case STORAGE_TYPE_BINARY_STRING: return new Long( Math.round( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ) .doubleValue() ) ); case STORAGE_TYPE_INDEXED: return new Long( Math.round( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToInteger( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (Date) convertBinaryStringToNativeType( (byte[]) object ) ).getTime() ); case STORAGE_TYPE_INDEXED: return convertDateToInteger( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( ( (BigDecimal) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return new Long( ( (BigDecimal) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToInteger( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToInteger( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToInteger( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to integers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to integers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to an Integer", e ); } } }
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ValueMetaBase implements ValueMetaInterface { @Override public Long getInteger( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Long) object; case STORAGE_TYPE_BINARY_STRING: return (Long) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Long) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToInteger( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToInteger( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToInteger( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( Math.round( ( (Double) object ).doubleValue() ) ); case STORAGE_TYPE_BINARY_STRING: return new Long( Math.round( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ) .doubleValue() ) ); case STORAGE_TYPE_INDEXED: return new Long( Math.round( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToInteger( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (Date) convertBinaryStringToNativeType( (byte[]) object ) ).getTime() ); case STORAGE_TYPE_INDEXED: return convertDateToInteger( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( ( (BigDecimal) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return new Long( ( (BigDecimal) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToInteger( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToInteger( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToInteger( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to integers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to integers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to an Integer", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Long getInteger( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Long) object; case STORAGE_TYPE_BINARY_STRING: return (Long) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Long) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToInteger( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToInteger( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToInteger( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( Math.round( ( (Double) object ).doubleValue() ) ); case STORAGE_TYPE_BINARY_STRING: return new Long( Math.round( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ) .doubleValue() ) ); case STORAGE_TYPE_INDEXED: return new Long( Math.round( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToInteger( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (Date) convertBinaryStringToNativeType( (byte[]) object ) ).getTime() ); case STORAGE_TYPE_INDEXED: return convertDateToInteger( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( ( (BigDecimal) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return new Long( ( (BigDecimal) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToInteger( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToInteger( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToInteger( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to integers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to integers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to an Integer", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public Long getInteger( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Long) object; case STORAGE_TYPE_BINARY_STRING: return (Long) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Long) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToInteger( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToInteger( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToInteger( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( Math.round( ( (Double) object ).doubleValue() ) ); case STORAGE_TYPE_BINARY_STRING: return new Long( Math.round( ( (Double) convertBinaryStringToNativeType( (byte[]) object ) ) .doubleValue() ) ); case STORAGE_TYPE_INDEXED: return new Long( Math.round( ( (Double) index[( (Integer) object ).intValue()] ).doubleValue() ) ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToInteger( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (Date) convertBinaryStringToNativeType( (byte[]) object ) ).getTime() ); case STORAGE_TYPE_INDEXED: return convertDateToInteger( (Date) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Long( ( (BigDecimal) object ).longValue() ); case STORAGE_TYPE_BINARY_STRING: return new Long( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).longValue() ); case STORAGE_TYPE_INDEXED: return new Long( ( (BigDecimal) index[( (Integer) object ).intValue()] ).longValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToInteger( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToInteger( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToInteger( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to integers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to integers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to an Integer", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test( expected = KettleValueException.class ) public void testGetNumberThrowsKettleValueException() throws KettleValueException { ValueMetaBase valueMeta = new ValueMetaNumber(); valueMeta.getNumber( "1234567890" ); }
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@Override public Double getNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Double) object; case STORAGE_TYPE_BINARY_STRING: return (Double) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Double) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return new Double( ( (Date) index[( (Integer) object ).intValue()] ).getTime() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (Long) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (Long) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (BigDecimal) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (BigDecimal) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to numbers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to numbers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a Number", e ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public Double getNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Double) object; case STORAGE_TYPE_BINARY_STRING: return (Double) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Double) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return new Double( ( (Date) index[( (Integer) object ).intValue()] ).getTime() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (Long) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (Long) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (BigDecimal) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (BigDecimal) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to numbers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to numbers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a Number", e ); } } }
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ValueMetaBase implements ValueMetaInterface { @Override public Double getNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Double) object; case STORAGE_TYPE_BINARY_STRING: return (Double) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Double) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return new Double( ( (Date) index[( (Integer) object ).intValue()] ).getTime() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (Long) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (Long) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (BigDecimal) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (BigDecimal) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to numbers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to numbers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a Number", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Double getNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Double) object; case STORAGE_TYPE_BINARY_STRING: return (Double) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Double) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return new Double( ( (Date) index[( (Integer) object ).intValue()] ).getTime() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (Long) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (Long) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (BigDecimal) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (BigDecimal) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to numbers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to numbers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a Number", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public Double getNumber( Object object ) throws KettleValueException { try { if ( isNull( object ) ) { return null; } switch ( type ) { case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return (Double) object; case STORAGE_TYPE_BINARY_STRING: return (Double) convertBinaryStringToNativeType( (byte[]) object ); case STORAGE_TYPE_INDEXED: return (Double) index[( (Integer) object ).intValue()]; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_STRING: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertStringToNumber( (String) object ); case STORAGE_TYPE_BINARY_STRING: return convertStringToNumber( (String) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertStringToNumber( (String) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertDateToNumber( (Date) object ); case STORAGE_TYPE_BINARY_STRING: return convertDateToNumber( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return new Double( ( (Date) index[( (Integer) object ).intValue()] ).getTime() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (Long) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (Long) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (Long) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BIGNUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return new Double( ( (BigDecimal) object ).doubleValue() ); case STORAGE_TYPE_BINARY_STRING: return new Double( ( (BigDecimal) convertBinaryStringToNativeType( (byte[]) object ) ).doubleValue() ); case STORAGE_TYPE_INDEXED: return new Double( ( (BigDecimal) index[( (Integer) object ).intValue()] ).doubleValue() ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BOOLEAN: switch ( storageType ) { case STORAGE_TYPE_NORMAL: return convertBooleanToNumber( (Boolean) object ); case STORAGE_TYPE_BINARY_STRING: return convertBooleanToNumber( (Boolean) convertBinaryStringToNativeType( (byte[]) object ) ); case STORAGE_TYPE_INDEXED: return convertBooleanToNumber( (Boolean) index[( (Integer) object ).intValue()] ); default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } case TYPE_BINARY: throw new KettleValueException( toString() + " : I don't know how to convert binary values to numbers." ); case TYPE_SERIALIZABLE: throw new KettleValueException( toString() + " : I don't know how to convert serializable values to numbers." ); default: throw new KettleValueException( toString() + " : Unknown type " + type + " specified." ); } } catch ( Exception e ) { throw new KettleValueException( "Unexpected conversion error while converting value [" + toString() + "] to a Number", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testOperationFireEvent() throws KettleException { addHandlers( operationMessageEvent, messageEventHandler, messageEventHandler2 ); LogEvent logEvent = new LogEvent<>( new RemoteSource( ModelType.OPERATION, "Operation_ID" ), logEntry ); messageEventService.fireEvent( logEvent ); verify( messageEventHandler ).execute( logEvent ); verify( messageEventHandler2 ).execute( logEvent ); }
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public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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@Test public void testIsNumeric() { int[] numTypes = { ValueMetaInterface.TYPE_INTEGER, ValueMetaInterface.TYPE_NUMBER, ValueMetaInterface.TYPE_BIGNUMBER }; for ( int type : numTypes ) { assertTrue( Integer.toString( type ), ValueMetaBase.isNumeric( type ) ); } int[] notNumTypes = { ValueMetaInterface.TYPE_INET, ValueMetaInterface.TYPE_BOOLEAN, ValueMetaInterface.TYPE_BINARY, ValueMetaInterface.TYPE_DATE, ValueMetaInterface.TYPE_STRING }; for ( int type : notNumTypes ) { Assert.assertFalse( Integer.toString( type ), ValueMetaBase.isNumeric( type ) ); } }
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@Override public boolean isNumeric() { return isInteger() || isNumber() || isBigNumber(); }
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ValueMetaBase implements ValueMetaInterface { @Override public boolean isNumeric() { return isInteger() || isNumber() || isBigNumber(); } }
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ValueMetaBase implements ValueMetaInterface { @Override public boolean isNumeric() { return isInteger() || isNumber() || isBigNumber(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public boolean isNumeric() { return isInteger() || isNumber() || isBigNumber(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public boolean isNumeric() { return isInteger() || isNumber() || isBigNumber(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testGetAllTypes() { Assert.assertArrayEquals( ValueMetaBase.getAllTypes(), ValueMetaFactory.getAllValueMetaNames() ); }
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public static final String[] getAllTypes() { return ValueMetaFactory.getAllValueMetaNames(); }
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ValueMetaBase implements ValueMetaInterface { public static final String[] getAllTypes() { return ValueMetaFactory.getAllValueMetaNames(); } }
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ValueMetaBase implements ValueMetaInterface { public static final String[] getAllTypes() { return ValueMetaFactory.getAllValueMetaNames(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { public static final String[] getAllTypes() { return ValueMetaFactory.getAllValueMetaNames(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { public static final String[] getAllTypes() { return ValueMetaFactory.getAllValueMetaNames(); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testGetTrimTypeByCode() { assertEquals( ValueMetaBase.getTrimTypeByCode( "none" ), ValueMetaInterface.TRIM_TYPE_NONE ); assertEquals( ValueMetaBase.getTrimTypeByCode( "left" ), ValueMetaInterface.TRIM_TYPE_LEFT ); assertEquals( ValueMetaBase.getTrimTypeByCode( "right" ), ValueMetaInterface.TRIM_TYPE_RIGHT ); assertEquals( ValueMetaBase.getTrimTypeByCode( "both" ), ValueMetaInterface.TRIM_TYPE_BOTH ); assertEquals( ValueMetaBase.getTrimTypeByCode( null ), ValueMetaInterface.TRIM_TYPE_NONE ); assertEquals( ValueMetaBase.getTrimTypeByCode( "" ), ValueMetaInterface.TRIM_TYPE_NONE ); assertEquals( ValueMetaBase.getTrimTypeByCode( "fake" ), ValueMetaInterface.TRIM_TYPE_NONE ); }
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public static final int getTrimTypeByCode( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeCode.length; i++ ) { if ( trimTypeCode[i].equalsIgnoreCase( tt ) ) { return i; } } return 0; }
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ValueMetaBase implements ValueMetaInterface { public static final int getTrimTypeByCode( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeCode.length; i++ ) { if ( trimTypeCode[i].equalsIgnoreCase( tt ) ) { return i; } } return 0; } }
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ValueMetaBase implements ValueMetaInterface { public static final int getTrimTypeByCode( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeCode.length; i++ ) { if ( trimTypeCode[i].equalsIgnoreCase( tt ) ) { return i; } } return 0; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { public static final int getTrimTypeByCode( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeCode.length; i++ ) { if ( trimTypeCode[i].equalsIgnoreCase( tt ) ) { return i; } } return 0; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { public static final int getTrimTypeByCode( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeCode.length; i++ ) { if ( trimTypeCode[i].equalsIgnoreCase( tt ) ) { return i; } } return 0; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testGetTrimTypeCode() { assertEquals( ValueMetaBase.getTrimTypeCode( ValueMetaInterface.TRIM_TYPE_NONE ), "none" ); assertEquals( ValueMetaBase.getTrimTypeCode( ValueMetaInterface.TRIM_TYPE_LEFT ), "left" ); assertEquals( ValueMetaBase.getTrimTypeCode( ValueMetaInterface.TRIM_TYPE_RIGHT ), "right" ); assertEquals( ValueMetaBase.getTrimTypeCode( ValueMetaInterface.TRIM_TYPE_BOTH ), "both" ); }
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public static final String getTrimTypeCode( int i ) { if ( i < 0 || i >= trimTypeCode.length ) { return trimTypeCode[0]; } return trimTypeCode[i]; }
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ValueMetaBase implements ValueMetaInterface { public static final String getTrimTypeCode( int i ) { if ( i < 0 || i >= trimTypeCode.length ) { return trimTypeCode[0]; } return trimTypeCode[i]; } }
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ValueMetaBase implements ValueMetaInterface { public static final String getTrimTypeCode( int i ) { if ( i < 0 || i >= trimTypeCode.length ) { return trimTypeCode[0]; } return trimTypeCode[i]; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { public static final String getTrimTypeCode( int i ) { if ( i < 0 || i >= trimTypeCode.length ) { return trimTypeCode[0]; } return trimTypeCode[i]; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { public static final String getTrimTypeCode( int i ) { if ( i < 0 || i >= trimTypeCode.length ) { return trimTypeCode[0]; } return trimTypeCode[i]; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testGetTrimTypeByDesc() { assertEquals( ValueMetaBase.getTrimTypeByDesc( BaseMessages.getString( PKG, "ValueMeta.TrimType.None" ) ), ValueMetaInterface.TRIM_TYPE_NONE ); assertEquals( ValueMetaBase.getTrimTypeByDesc( BaseMessages.getString( PKG, "ValueMeta.TrimType.Left" ) ), ValueMetaInterface.TRIM_TYPE_LEFT ); assertEquals( ValueMetaBase.getTrimTypeByDesc( BaseMessages.getString( PKG, "ValueMeta.TrimType.Right" ) ), ValueMetaInterface.TRIM_TYPE_RIGHT ); assertEquals( ValueMetaBase.getTrimTypeByDesc( BaseMessages.getString( PKG, "ValueMeta.TrimType.Both" ) ), ValueMetaInterface.TRIM_TYPE_BOTH ); assertEquals( ValueMetaBase.getTrimTypeByDesc( null ), ValueMetaInterface.TRIM_TYPE_NONE ); assertEquals( ValueMetaBase.getTrimTypeByDesc( "" ), ValueMetaInterface.TRIM_TYPE_NONE ); assertEquals( ValueMetaBase.getTrimTypeByDesc( "fake" ), ValueMetaInterface.TRIM_TYPE_NONE ); }
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public static final int getTrimTypeByDesc( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeDesc.length; i++ ) { if ( trimTypeDesc[i].equalsIgnoreCase( tt ) ) { return i; } } return getTrimTypeByCode( tt ); }
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ValueMetaBase implements ValueMetaInterface { public static final int getTrimTypeByDesc( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeDesc.length; i++ ) { if ( trimTypeDesc[i].equalsIgnoreCase( tt ) ) { return i; } } return getTrimTypeByCode( tt ); } }
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ValueMetaBase implements ValueMetaInterface { public static final int getTrimTypeByDesc( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeDesc.length; i++ ) { if ( trimTypeDesc[i].equalsIgnoreCase( tt ) ) { return i; } } return getTrimTypeByCode( tt ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { public static final int getTrimTypeByDesc( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeDesc.length; i++ ) { if ( trimTypeDesc[i].equalsIgnoreCase( tt ) ) { return i; } } return getTrimTypeByCode( tt ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { public static final int getTrimTypeByDesc( String tt ) { if ( tt == null ) { return 0; } for ( int i = 0; i < trimTypeDesc.length; i++ ) { if ( trimTypeDesc[i].equalsIgnoreCase( tt ) ) { return i; } } return getTrimTypeByCode( tt ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testGetTrimTypeDesc() { assertEquals( ValueMetaBase.getTrimTypeDesc( ValueMetaInterface.TRIM_TYPE_NONE ), BaseMessages.getString( PKG, "ValueMeta.TrimType.None" ) ); assertEquals( ValueMetaBase.getTrimTypeDesc( ValueMetaInterface.TRIM_TYPE_LEFT ), BaseMessages.getString( PKG, "ValueMeta.TrimType.Left" ) ); assertEquals( ValueMetaBase.getTrimTypeDesc( ValueMetaInterface.TRIM_TYPE_RIGHT ), BaseMessages.getString( PKG, "ValueMeta.TrimType.Right" ) ); assertEquals( ValueMetaBase.getTrimTypeDesc( ValueMetaInterface.TRIM_TYPE_BOTH ), BaseMessages.getString( PKG, "ValueMeta.TrimType.Both" ) ); assertEquals( ValueMetaBase.getTrimTypeDesc( -1 ), BaseMessages.getString( PKG, "ValueMeta.TrimType.None" ) ); assertEquals( ValueMetaBase.getTrimTypeDesc( 10000 ), BaseMessages.getString( PKG, "ValueMeta.TrimType.None" ) ); }
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public static final String getTrimTypeDesc( int i ) { if ( i < 0 || i >= trimTypeDesc.length ) { return trimTypeDesc[0]; } return trimTypeDesc[i]; }
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ValueMetaBase implements ValueMetaInterface { public static final String getTrimTypeDesc( int i ) { if ( i < 0 || i >= trimTypeDesc.length ) { return trimTypeDesc[0]; } return trimTypeDesc[i]; } }
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ValueMetaBase implements ValueMetaInterface { public static final String getTrimTypeDesc( int i ) { if ( i < 0 || i >= trimTypeDesc.length ) { return trimTypeDesc[0]; } return trimTypeDesc[i]; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { public static final String getTrimTypeDesc( int i ) { if ( i < 0 || i >= trimTypeDesc.length ) { return trimTypeDesc[0]; } return trimTypeDesc[i]; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { public static final String getTrimTypeDesc( int i ) { if ( i < 0 || i >= trimTypeDesc.length ) { return trimTypeDesc[0]; } return trimTypeDesc[i]; } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testCompareIntegerToDouble() throws KettleValueException { ValueMetaBase intMeta = new ValueMetaBase( "int", ValueMetaInterface.TYPE_INTEGER ); Long int1 = new Long( 2L ); ValueMetaBase numberMeta = new ValueMetaBase( "number", ValueMetaInterface.TYPE_NUMBER ); Double double2 = new Double( 1.5 ); assertEquals( 1, intMeta.compare( int1, numberMeta, double2 ) ); }
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@Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } }
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ValueMetaBase implements ValueMetaInterface { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } }
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ValueMetaBase implements ValueMetaInterface { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testCompareDate() throws KettleValueException { ValueMetaBase dateMeta = new ValueMetaBase( "int", ValueMetaInterface.TYPE_DATE ); Date date1 = new Date( 6223372036854775804L ); Date date2 = new Date( -6223372036854775804L ); assertEquals( 1, dateMeta.compare( date1, date2 ) ); assertEquals( -1, dateMeta.compare( date2, date1 ) ); assertEquals( 0, dateMeta.compare( date1, date1 ) ); }
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@Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } }
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ValueMetaBase implements ValueMetaInterface { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } }
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ValueMetaBase implements ValueMetaInterface { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public int compare( Object data1, Object data2 ) throws KettleValueException { boolean n1 = isNull( data1 ); boolean n2 = isNull( data2 ); if ( n1 && !n2 ) { if ( isSortedDescending() ) { return 1; } else { return -1; } } if ( !n1 && n2 ) { if ( isSortedDescending() ) { return -1; } else { return 1; } } if ( n1 && n2 ) { return 0; } int cmp = 0; switch ( getType() ) { case TYPE_STRING: String one = getString( data1 ); String two = getString( data2 ); if ( collatorDisabled ) { if ( caseInsensitive ) { cmp = one.compareToIgnoreCase( two ); } else { cmp = one.compareTo( two ); } } else { cmp = collator.compare( one, two ); } break; case TYPE_INTEGER: cmp = getInteger( data1 ).compareTo( getInteger( data2 ) ); break; case TYPE_NUMBER: cmp = Double.compare( getNumber( data1 ).doubleValue(), getNumber( data2 ).doubleValue() ); break; case TYPE_DATE: cmp = Long.valueOf( getDate( data1 ).getTime() ).compareTo( Long.valueOf( getDate( data2 ).getTime() ) ); break; case TYPE_BIGNUMBER: cmp = getBigNumber( data1 ).compareTo( getBigNumber( data2 ) ); break; case TYPE_BOOLEAN: if ( getBoolean( data1 ).booleanValue() == getBoolean( data2 ).booleanValue() ) { cmp = 0; } else if ( getBoolean( data1 ).booleanValue() && !getBoolean( data2 ).booleanValue() ) { cmp = 1; } else { cmp = -1; } break; case TYPE_BINARY: byte[] b1 = (byte[]) data1; byte[] b2 = (byte[]) data2; int length = b1.length < b2.length ? b1.length : b2.length; for ( int i = 0; i < length; i++ ) { cmp = b1[i] - b2[i]; if ( cmp != 0 ) { cmp = cmp < 0 ? -1 : 1; break; } } cmp = b1.length - b2.length; break; default: throw new KettleValueException( toString() + " : Comparing values can not be done with data type : " + getType() ); } if ( isSortedDescending() ) { return -cmp; } else { return cmp; } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testSetPreparedStatementStringValueDontLogTruncated() throws KettleDatabaseException { ValueMetaBase valueMetaString = new ValueMetaBase( "LOG_FIELD", ValueMetaInterface.TYPE_STRING, LOG_FIELD.length(), 0 ); DatabaseMeta databaseMeta = Mockito.mock( DatabaseMeta.class ); PreparedStatement preparedStatement = Mockito.mock( PreparedStatement.class ); Mockito.when( databaseMeta.getMaxTextFieldLength() ).thenReturn( LOG_FIELD.length() ); List<KettleLoggingEvent> events = listener.getEvents(); assertEquals( 0, events.size() ); valueMetaString.setPreparedStatementValue( databaseMeta, preparedStatement, 0, LOG_FIELD ); assertEquals( 0, events.size() ); }
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@Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } } }
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ValueMetaBase implements ValueMetaInterface { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testSetPreparedStatementStringValueLogTruncated() throws KettleDatabaseException { ValueMetaBase valueMetaString = new ValueMetaBase( "LOG_FIELD", ValueMetaInterface.TYPE_STRING, LOG_FIELD.length(), 0 ); DatabaseMeta databaseMeta = Mockito.mock( DatabaseMeta.class ); PreparedStatement preparedStatement = Mockito.mock( PreparedStatement.class ); Mockito.when( databaseMeta.getMaxTextFieldLength() ).thenReturn( MAX_TEXT_FIELD_LEN ); List<KettleLoggingEvent> events = listener.getEvents(); assertEquals( 0, events.size() ); valueMetaString.setPreparedStatementValue( databaseMeta, preparedStatement, 0, LOG_FIELD ); assertEquals( 1, events.size() ); }
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@Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } } }
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ValueMetaBase implements ValueMetaInterface { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index, Object data ) throws KettleDatabaseException { try { switch ( getType() ) { case ValueMetaInterface.TYPE_NUMBER: if ( !isNull( data ) ) { double num = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { num = Const.round( num, getPrecision() ); } preparedStatement.setDouble( index, num ); } else { preparedStatement.setNull( index, java.sql.Types.DOUBLE ); } break; case ValueMetaInterface.TYPE_INTEGER: if ( !isNull( data ) ) { if ( databaseMeta.supportsSetLong() ) { preparedStatement.setLong( index, getInteger( data ).longValue() ); } else { double d = getNumber( data ).doubleValue(); if ( databaseMeta.supportsFloatRoundingOnUpdate() && getPrecision() >= 0 ) { preparedStatement.setDouble( index, d ); } else { preparedStatement.setDouble( index, Const.round( d, getPrecision() ) ); } } } else { preparedStatement.setNull( index, java.sql.Types.INTEGER ); } break; case ValueMetaInterface.TYPE_STRING: if ( getLength() < databaseMeta.getMaxTextFieldLength() ) { if ( !isNull( data ) ) { preparedStatement.setString( index, getString( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } else { if ( !isNull( data ) ) { String string = getString( data ); int maxlen = databaseMeta.getMaxTextFieldLength(); int len = string.length(); int begin = Math.max( len - maxlen, 0 ); if ( begin > 0 ) { log.logMinimal( String.format( "Truncating %d symbols of original message in '%s' field", begin, getName() ) ); string = string.substring( begin ); } if ( databaseMeta.supportsSetCharacterStream() ) { StringReader sr = new StringReader( string ); preparedStatement.setCharacterStream( index, sr, string.length() ); } else { preparedStatement.setString( index, string ); } } else { preparedStatement.setNull( index, java.sql.Types.VARCHAR ); } } break; case ValueMetaInterface.TYPE_DATE: if ( !isNull( data ) ) { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { long dat = getInteger( data ).longValue(); java.sql.Date ddate = new java.sql.Date( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setDate( index, ddate ); } else { preparedStatement.setDate( index, ddate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } else { if ( data instanceof java.sql.Timestamp ) { if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data ); } else { preparedStatement.setTimestamp( index, (java.sql.Timestamp) data, Calendar.getInstance( this .getDateFormatTimeZone() ) ); } } else { long dat = getInteger( data ).longValue(); java.sql.Timestamp sdate = new java.sql.Timestamp( dat ); if ( ignoreTimezone || this.getDateFormatTimeZone() == null ) { preparedStatement.setTimestamp( index, sdate ); } else { preparedStatement.setTimestamp( index, sdate, Calendar.getInstance( this.getDateFormatTimeZone() ) ); } } } } else { if ( getPrecision() == 1 || !databaseMeta.supportsTimeStampToDateConversion() ) { preparedStatement.setNull( index, java.sql.Types.DATE ); } else { preparedStatement.setNull( index, java.sql.Types.TIMESTAMP ); } } break; case ValueMetaInterface.TYPE_BOOLEAN: if ( databaseMeta.supportsBooleanDataType() ) { if ( !isNull( data ) ) { preparedStatement.setBoolean( index, getBoolean( data ).booleanValue() ); } else { preparedStatement.setNull( index, java.sql.Types.BOOLEAN ); } } else { if ( !isNull( data ) ) { preparedStatement.setString( index, getBoolean( data ).booleanValue() ? "Y" : "N" ); } else { preparedStatement.setNull( index, java.sql.Types.CHAR ); } } break; case ValueMetaInterface.TYPE_BIGNUMBER: if ( !isNull( data ) ) { preparedStatement.setBigDecimal( index, getBigNumber( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.DECIMAL ); } break; case ValueMetaInterface.TYPE_BINARY: if ( !isNull( data ) ) { preparedStatement.setBytes( index, getBinary( data ) ); } else { preparedStatement.setNull( index, java.sql.Types.BINARY ); } break; default: preparedStatement.setNull( index, java.sql.Types.VARCHAR ); break; } } catch ( Exception e ) { throw new KettleDatabaseException( "Error setting value #" + index + " [" + toStringMeta() + "] on prepared statement", e ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test( expected = MessageEventFireEventException.class ) public void testOperationFireEventThrowException() throws KettleException { addHandlers( operationMessageEvent, messageEventHandler, messageEventHandler2 ); doThrow( new RuntimeException( "Test" ) ).when( messageEventHandler ).execute( any( Message.class ) ); LogEvent logEvent = new LogEvent<>( new RemoteSource( ModelType.OPERATION, "Operation_ID" ), logEntry ); messageEventService.fireEvent( logEvent ); verify( messageEventHandler, never() ).execute( logEvent ); verify( messageEventHandler2 ).execute( logEvent ); }
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public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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@Test public void testGetNativeDataTypeClass() { ValueMetaInterface base = new ValueMetaBase(); Class<?> clazz = null; try { clazz = base.getNativeDataTypeClass(); Assert.fail(); } catch ( KettleValueException expected ) { Assert.assertNull( clazz ); } }
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@Override public Class<?> getNativeDataTypeClass() throws KettleValueException { throw new KettleValueException( getTypeDesc() + " does not implement this method" ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Class<?> getNativeDataTypeClass() throws KettleValueException { throw new KettleValueException( getTypeDesc() + " does not implement this method" ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public Class<?> getNativeDataTypeClass() throws KettleValueException { throw new KettleValueException( getTypeDesc() + " does not implement this method" ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Class<?> getNativeDataTypeClass() throws KettleValueException { throw new KettleValueException( getTypeDesc() + " does not implement this method" ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public Class<?> getNativeDataTypeClass() throws KettleValueException { throw new KettleValueException( getTypeDesc() + " does not implement this method" ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testConvertDataUsingConversionMetaData() throws KettleValueException, ParseException { ValueMetaString base = new ValueMetaString(); double DELTA = 1e-15; base.setConversionMetadata( new ValueMetaString( "STRING" ) ); Object defaultStringData = "STRING DATA"; String convertedStringData = (String) base.convertDataUsingConversionMetaData( defaultStringData ); assertEquals( "STRING DATA", convertedStringData ); base.setConversionMetadata( new ValueMetaInteger( "INTEGER" ) ); Object defaultIntegerData = "1"; long convertedIntegerData = (long) base.convertDataUsingConversionMetaData( defaultIntegerData ); assertEquals( 1, convertedIntegerData ); base.setConversionMetadata( new ValueMetaNumber( "NUMBER" ) ); Object defaultNumberData = "1.999"; double convertedNumberData = (double) base.convertDataUsingConversionMetaData( defaultNumberData ); assertEquals( 1.999, convertedNumberData, DELTA ); ValueMetaInterface dateConversionMeta = new ValueMetaDate( "DATE" ); dateConversionMeta.setDateFormatTimeZone( TimeZone.getTimeZone( "CST" ) ); base.setConversionMetadata( dateConversionMeta ); Object defaultDateData = "1990/02/18 00:00:00.000"; Date date1 = new Date( 635320800000L ); Date convertedDateData = (Date) base.convertDataUsingConversionMetaData( defaultDateData ); assertEquals( date1, convertedDateData ); base.setConversionMetadata( new ValueMetaBigNumber( "BIG_NUMBER" ) ); Object defaultBigNumber = String.valueOf( BigDecimal.ONE ); BigDecimal convertedBigNumber = (BigDecimal) base.convertDataUsingConversionMetaData( defaultBigNumber ); assertEquals( BigDecimal.ONE, convertedBigNumber ); base.setConversionMetadata( new ValueMetaBoolean( "BOOLEAN" ) ); Object defaultBoolean = "true"; boolean convertedBoolean = (boolean) base.convertDataUsingConversionMetaData( defaultBoolean ); assertEquals( true, convertedBoolean ); }
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@Override public Object convertDataUsingConversionMetaData( Object data ) throws KettleValueException { if ( conversionMetadata == null ) { throw new KettleValueException( "API coding error: please specify the conversion metadata before attempting to convert value " + name ); } switch ( conversionMetadata.getType() ) { case TYPE_STRING: return getString( data ); case TYPE_INTEGER: return getInteger( data ); case TYPE_NUMBER: return getNumber( data ); case TYPE_DATE: return getDate( data ); case TYPE_BIGNUMBER: return getBigNumber( data ); case TYPE_BOOLEAN: return getBoolean( data ); case TYPE_BINARY: return getBinary( data ); default: throw new KettleValueException( toString() + " : I can't convert the specified value to data type : " + conversionMetadata.getType() ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataUsingConversionMetaData( Object data ) throws KettleValueException { if ( conversionMetadata == null ) { throw new KettleValueException( "API coding error: please specify the conversion metadata before attempting to convert value " + name ); } switch ( conversionMetadata.getType() ) { case TYPE_STRING: return getString( data ); case TYPE_INTEGER: return getInteger( data ); case TYPE_NUMBER: return getNumber( data ); case TYPE_DATE: return getDate( data ); case TYPE_BIGNUMBER: return getBigNumber( data ); case TYPE_BOOLEAN: return getBoolean( data ); case TYPE_BINARY: return getBinary( data ); default: throw new KettleValueException( toString() + " : I can't convert the specified value to data type : " + conversionMetadata.getType() ); } } }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataUsingConversionMetaData( Object data ) throws KettleValueException { if ( conversionMetadata == null ) { throw new KettleValueException( "API coding error: please specify the conversion metadata before attempting to convert value " + name ); } switch ( conversionMetadata.getType() ) { case TYPE_STRING: return getString( data ); case TYPE_INTEGER: return getInteger( data ); case TYPE_NUMBER: return getNumber( data ); case TYPE_DATE: return getDate( data ); case TYPE_BIGNUMBER: return getBigNumber( data ); case TYPE_BOOLEAN: return getBoolean( data ); case TYPE_BINARY: return getBinary( data ); default: throw new KettleValueException( toString() + " : I can't convert the specified value to data type : " + conversionMetadata.getType() ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataUsingConversionMetaData( Object data ) throws KettleValueException { if ( conversionMetadata == null ) { throw new KettleValueException( "API coding error: please specify the conversion metadata before attempting to convert value " + name ); } switch ( conversionMetadata.getType() ) { case TYPE_STRING: return getString( data ); case TYPE_INTEGER: return getInteger( data ); case TYPE_NUMBER: return getNumber( data ); case TYPE_DATE: return getDate( data ); case TYPE_BIGNUMBER: return getBigNumber( data ); case TYPE_BOOLEAN: return getBoolean( data ); case TYPE_BINARY: return getBinary( data ); default: throw new KettleValueException( toString() + " : I can't convert the specified value to data type : " + conversionMetadata.getType() ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public Object convertDataUsingConversionMetaData( Object data ) throws KettleValueException { if ( conversionMetadata == null ) { throw new KettleValueException( "API coding error: please specify the conversion metadata before attempting to convert value " + name ); } switch ( conversionMetadata.getType() ) { case TYPE_STRING: return getString( data ); case TYPE_INTEGER: return getInteger( data ); case TYPE_NUMBER: return getNumber( data ); case TYPE_DATE: return getDate( data ); case TYPE_BIGNUMBER: return getBigNumber( data ); case TYPE_BOOLEAN: return getBoolean( data ); case TYPE_BINARY: return getBinary( data ); default: throw new KettleValueException( toString() + " : I can't convert the specified value to data type : " + conversionMetadata.getType() ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testGetCompatibleString() throws KettleValueException { ValueMetaInteger valueMetaInteger = new ValueMetaInteger( "INTEGER" ); valueMetaInteger.setType( 5 ); valueMetaInteger.setStorageType( 1 ); assertEquals( "2", valueMetaInteger.getCompatibleString( new Long( 2 ) ) ); }
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@Override public String getCompatibleString( Object object ) throws KettleValueException { try { String string; switch ( type ) { case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertDateToCompatibleString( (Date) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertDateToCompatibleString( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: if ( object == null ) { string = null; } else { string = convertDateToCompatibleString( (Date) index[( (Integer) object ).intValue()] ); } break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertNumberToCompatibleString( (Double) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertNumberToCompatibleString( (Double) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertNumberToCompatibleString( (Double) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertIntegerToCompatibleString( (Long) object ); break; case STORAGE_TYPE_BINARY_STRING: try { string = convertIntegerToCompatibleString( (Long) convertBinaryStringToNativeType( (byte[]) object ) ); } catch ( ClassCastException e ) { string = convertIntegerToCompatibleString( (Long) object ); } break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertIntegerToCompatibleString( (Long) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; default: return getString( object ); } return string; } catch ( ClassCastException e ) { throw new KettleValueException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]" ); } }
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ValueMetaBase implements ValueMetaInterface { @Override public String getCompatibleString( Object object ) throws KettleValueException { try { String string; switch ( type ) { case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertDateToCompatibleString( (Date) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertDateToCompatibleString( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: if ( object == null ) { string = null; } else { string = convertDateToCompatibleString( (Date) index[( (Integer) object ).intValue()] ); } break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertNumberToCompatibleString( (Double) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertNumberToCompatibleString( (Double) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertNumberToCompatibleString( (Double) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertIntegerToCompatibleString( (Long) object ); break; case STORAGE_TYPE_BINARY_STRING: try { string = convertIntegerToCompatibleString( (Long) convertBinaryStringToNativeType( (byte[]) object ) ); } catch ( ClassCastException e ) { string = convertIntegerToCompatibleString( (Long) object ); } break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertIntegerToCompatibleString( (Long) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; default: return getString( object ); } return string; } catch ( ClassCastException e ) { throw new KettleValueException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]" ); } } }
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ValueMetaBase implements ValueMetaInterface { @Override public String getCompatibleString( Object object ) throws KettleValueException { try { String string; switch ( type ) { case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertDateToCompatibleString( (Date) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertDateToCompatibleString( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: if ( object == null ) { string = null; } else { string = convertDateToCompatibleString( (Date) index[( (Integer) object ).intValue()] ); } break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertNumberToCompatibleString( (Double) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertNumberToCompatibleString( (Double) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertNumberToCompatibleString( (Double) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertIntegerToCompatibleString( (Long) object ); break; case STORAGE_TYPE_BINARY_STRING: try { string = convertIntegerToCompatibleString( (Long) convertBinaryStringToNativeType( (byte[]) object ) ); } catch ( ClassCastException e ) { string = convertIntegerToCompatibleString( (Long) object ); } break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertIntegerToCompatibleString( (Long) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; default: return getString( object ); } return string; } catch ( ClassCastException e ) { throw new KettleValueException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]" ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { @Override public String getCompatibleString( Object object ) throws KettleValueException { try { String string; switch ( type ) { case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertDateToCompatibleString( (Date) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertDateToCompatibleString( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: if ( object == null ) { string = null; } else { string = convertDateToCompatibleString( (Date) index[( (Integer) object ).intValue()] ); } break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertNumberToCompatibleString( (Double) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertNumberToCompatibleString( (Double) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertNumberToCompatibleString( (Double) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertIntegerToCompatibleString( (Long) object ); break; case STORAGE_TYPE_BINARY_STRING: try { string = convertIntegerToCompatibleString( (Long) convertBinaryStringToNativeType( (byte[]) object ) ); } catch ( ClassCastException e ) { string = convertIntegerToCompatibleString( (Long) object ); } break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertIntegerToCompatibleString( (Long) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; default: return getString( object ); } return string; } catch ( ClassCastException e ) { throw new KettleValueException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]" ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { @Override public String getCompatibleString( Object object ) throws KettleValueException { try { String string; switch ( type ) { case TYPE_DATE: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertDateToCompatibleString( (Date) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertDateToCompatibleString( (Date) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: if ( object == null ) { string = null; } else { string = convertDateToCompatibleString( (Date) index[( (Integer) object ).intValue()] ); } break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_NUMBER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertNumberToCompatibleString( (Double) object ); break; case STORAGE_TYPE_BINARY_STRING: string = convertNumberToCompatibleString( (Double) convertBinaryStringToNativeType( (byte[]) object ) ); break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertNumberToCompatibleString( (Double) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; case TYPE_INTEGER: switch ( storageType ) { case STORAGE_TYPE_NORMAL: string = convertIntegerToCompatibleString( (Long) object ); break; case STORAGE_TYPE_BINARY_STRING: try { string = convertIntegerToCompatibleString( (Long) convertBinaryStringToNativeType( (byte[]) object ) ); } catch ( ClassCastException e ) { string = convertIntegerToCompatibleString( (Long) object ); } break; case STORAGE_TYPE_INDEXED: string = object == null ? null : convertIntegerToCompatibleString( (Long) index[( (Integer) object ) .intValue()] ); break; default: throw new KettleValueException( toString() + " : Unknown storage type " + storageType + " specified." ); } break; default: return getString( object ); } return string; } catch ( ClassCastException e ) { throw new KettleValueException( toString() + " : There was a data type error: the data type of " + object.getClass().getName() + " object [" + object + "] does not correspond to value meta [" + toStringMeta() + "]" ); } } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testConvertBigNumberToBoolean() { ValueMetaBase vmb = new ValueMetaBase(); System.out.println( vmb.convertBigNumberToBoolean( new BigDecimal( "-234" ) ) ); System.out.println( vmb.convertBigNumberToBoolean( new BigDecimal( "234" ) ) ); System.out.println( vmb.convertBigNumberToBoolean( new BigDecimal( "0" ) ) ); System.out.println( vmb.convertBigNumberToBoolean( new BigDecimal( "1.7976E308" ) ) ); Assert.assertTrue( vmb.convertBigNumberToBoolean( new BigDecimal( "-234" ) ) ); Assert.assertTrue( vmb.convertBigNumberToBoolean( new BigDecimal( "234" ) ) ); Assert.assertFalse( vmb.convertBigNumberToBoolean( new BigDecimal( "0" ) ) ); Assert.assertTrue( vmb.convertBigNumberToBoolean( new BigDecimal( "1.7976E308" ) ) ); }
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protected Boolean convertBigNumberToBoolean( BigDecimal number ) { if ( number == null ) { return null; } return Boolean.valueOf( number.signum() != 0 ); }
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ValueMetaBase implements ValueMetaInterface { protected Boolean convertBigNumberToBoolean( BigDecimal number ) { if ( number == null ) { return null; } return Boolean.valueOf( number.signum() != 0 ); } }
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ValueMetaBase implements ValueMetaInterface { protected Boolean convertBigNumberToBoolean( BigDecimal number ) { if ( number == null ) { return null; } return Boolean.valueOf( number.signum() != 0 ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); }
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ValueMetaBase implements ValueMetaInterface { protected Boolean convertBigNumberToBoolean( BigDecimal number ) { if ( number == null ) { return null; } return Boolean.valueOf( number.signum() != 0 ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaBase implements ValueMetaInterface { protected Boolean convertBigNumberToBoolean( BigDecimal number ) { if ( number == null ) { return null; } return Boolean.valueOf( number.signum() != 0 ); } ValueMetaBase(); ValueMetaBase( String name ); ValueMetaBase( String name, int type ); ValueMetaBase( String name, int type, int length, int precision ); ValueMetaBase( Node node ); @Deprecated ValueMetaBase( DataInputStream inputStream ); @Deprecated ValueMetaBase( String name, int type, int storageType ); @Override ValueMetaBase clone(); @Override String getComments(); @Override void setComments( String comments ); @Override Object[] getIndex(); @Override void setIndex( Object[] index ); @Override int getLength(); @Override void setLength( int length ); @Override void setLength( int length, int precision ); @Override String getName(); @Override void setName( String name ); @Override String getOrigin(); @Override void setOrigin( String origin ); @Override int getPrecision(); @Override void setPrecision( int precision ); @Override int getStorageType(); @Override void setStorageType( int storageType ); @Override boolean isStorageNormal(); @Override boolean isStorageIndexed(); @Override boolean isStorageBinaryString(); @Override int getType(); @Override @Deprecated void setType( int type ); @Override @Deprecated String getConversionMask(); @Override void setConversionMask( String conversionMask ); @Override String getStringEncoding(); @Override void setStringEncoding( String encoding ); @Override String getDecimalSymbol(); @Override void setDecimalSymbol( String decimalSymbol ); @Override String getGroupingSymbol(); @Override void setGroupingSymbol( String groupingSymbol ); @Override String getCurrencySymbol(); @Override void setCurrencySymbol( String currencySymbol ); @Override boolean isCaseInsensitive(); @Override void setCaseInsensitive( boolean caseInsensitive ); @Override boolean isCollatorDisabled(); @Override void setCollatorDisabled( boolean collatorDisabled ); @Override Locale getCollatorLocale(); @Override void setCollatorLocale( Locale locale ); @Override int getCollatorStrength(); @Override void setCollatorStrength( int collatorStrength ); @Override boolean isSortedDescending(); @Override void setSortedDescending( boolean sortedDescending ); @Override boolean isOutputPaddingEnabled(); @Override void setOutputPaddingEnabled( boolean outputPaddingEnabled ); @Override boolean isLargeTextField(); @Override void setLargeTextField( boolean largeTextField ); @Override boolean isDateFormatLenient(); @Override void setDateFormatLenient( boolean dateFormatLenient ); @Override Locale getDateFormatLocale(); @Override void setDateFormatLocale( Locale dateFormatLocale ); @Override synchronized SimpleDateFormat getDateFormat(); @Override synchronized DecimalFormat getDecimalFormat(); @Override synchronized DecimalFormat getDecimalFormat( boolean useBigDecimal ); @Override String getFormatMask(); static Boolean convertStringToBoolean( String string ); @Override Object convertToNormalStorageType( Object object ); @Override Object convertToBinaryStringStorageType( Object object ); @Override Object convertBinaryStringToNativeType( byte[] binary ); @Override Object convertNormalStorageTypeToBinaryString( Object object ); @Override Object cloneValueData( Object object ); @Override String getCompatibleString( Object object ); @Override String getString( Object object ); @Override Double getNumber( Object object ); @Override Long getInteger( Object object ); @Override BigDecimal getBigNumber( Object object ); @Override Boolean getBoolean( Object object ); @Override Date getDate( Object object ); @Override byte[] getBinary( Object object ); @Override byte[] getBinaryString( Object object ); @Override boolean isString(); @Override boolean isDate(); @Override boolean isBigNumber(); @Override boolean isNumber(); @Override boolean isBoolean(); @Override boolean isSerializableType(); @Override boolean isBinary(); @Override boolean isInteger(); @Override boolean isNumeric(); static final boolean isNumeric( int t ); boolean isSortedAscending(); @Override String getTypeDesc(); String getStorageTypeDesc(); @Override String toString(); @Override String toStringMeta(); @Override void writeData( DataOutputStream outputStream, Object object ); @Override Object readData( DataInputStream inputStream ); @Override void writeMeta( DataOutputStream outputStream ); @Override void readMetaData( DataInputStream inputStream ); @Override String getMetaXML(); @Override String getDataXML( Object object ); @Override Object getValue( Node node ); static final String[] getTypes(); static final String[] getAllTypes(); static final String getTypeDesc( int type ); static final int getType( String desc ); static final int getStorageType( String desc ); static final String getStorageTypeCode( int storageType ); @Override boolean isNull( Object data ); @Override int compare( Object data1, Object data2 ); @Override int compare( Object data1, ValueMetaInterface meta2, Object data2 ); @Override Object convertData( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataCompatible( ValueMetaInterface meta2, Object data2 ); @Override Object convertDataUsingConversionMetaData( Object data ); @Override Object convertDataFromString( String pol, ValueMetaInterface convertMeta, String nullIf, String ifNull,
int trim_type ); @Override int hashCode( Object object ); @Override Value createOriginalValue( Object data ); @Override Object getValueData( Value value ); @Override ValueMetaInterface getStorageMetadata(); @Override void setStorageMetadata( ValueMetaInterface storageMetadata ); @Override int getTrimType(); @Override void setTrimType( int trimType ); static final int getTrimTypeByCode( String tt ); static final int getTrimTypeByDesc( String tt ); static final String getTrimTypeCode( int i ); static final String getTrimTypeDesc( int i ); @Override ValueMetaInterface getConversionMetadata(); @Override void setConversionMetadata( ValueMetaInterface conversionMetadata ); @Override boolean isSingleByteEncoding(); @Override long getNumberOfBinaryStringConversions(); @Override void setNumberOfBinaryStringConversions( long numberOfBinaryStringConversions ); @Override boolean isOriginalAutoIncrement(); @Override void setOriginalAutoIncrement( boolean originalAutoIncrement ); @Override int getOriginalColumnType(); @Override void setOriginalColumnType( int originalColumnType ); @Override String getOriginalColumnTypeName(); @Override void setOriginalColumnTypeName( String originalColumnTypeName ); @Override int isOriginalNullable(); @Override void setOriginalNullable( int originalNullable ); @Override int getOriginalPrecision(); @Override void setOriginalPrecision( int originalPrecision ); @Override int getOriginalScale(); @Override void setOriginalScale( int originalScale ); @Override boolean isOriginalSigned(); @Override void setOriginalSigned( boolean originalSigned ); boolean isBigNumberFormatting(); void setBigNumberFormatting( boolean bigNumberFormatting ); static String[] getTrimTypeCodes(); static String[] getTrimTypeDescriptions(); @Override boolean requiresRealClone(); @Override boolean isLenientStringToNumber(); @Override void setLenientStringToNumber( boolean lenientStringToNumber ); @Override TimeZone getDateFormatTimeZone(); @Override void setDateFormatTimeZone( TimeZone dateFormatTimeZone ); @Override void drawValue( PrimitiveGCInterface gc, Object value ); @SuppressWarnings( "fallthrough" ) @Override ValueMetaInterface getValueFromSQLType( DatabaseMeta databaseMeta, String name, java.sql.ResultSetMetaData rm,
int index, boolean ignoreLength, boolean lazyConversion ); @Override Object getValueFromResultSet( DatabaseInterface databaseInterface, ResultSet resultSet, int index ); @Override void setPreparedStatementValue( DatabaseMeta databaseMeta, PreparedStatement preparedStatement, int index,
Object data ); @Override Object getNativeDataType( Object object ); @Override String getDatabaseColumnTypeDefinition( DatabaseInterface databaseInterface, String tk, String pk,
boolean use_autoinc, boolean add_fieldname, boolean add_cr ); @Override Class<?> getNativeDataTypeClass(); static final String DEFAULT_INTEGER_PARSE_MASK; static final String DEFAULT_NUMBER_PARSE_MASK; static final String DEFAULT_BIGNUMBER_PARSE_MASK; static final String DEFAULT_DATE_PARSE_MASK; static final String DEFAULT_TIMESTAMP_PARSE_MASK; static final String DEFAULT_INTEGER_FORMAT_MASK; static final String DEFAULT_NUMBER_FORMAT_MASK; static final String DEFAULT_BIG_NUMBER_FORMAT_MASK; static final String DEFAULT_DATE_FORMAT_MASK; static final String DEFAULT_TIMESTAMP_FORMAT_MASK; static final String XML_META_TAG; static final String XML_DATA_TAG; static final String COMPATIBLE_DATE_FORMAT_PATTERN; static final boolean EMPTY_STRING_AND_NULL_ARE_DIFFERENT; static final String[] trimTypeCode; static final String[] trimTypeDesc; static final String[] SINGLE_BYTE_ENCODINGS; }
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@Test public void testGetNativeData_emptyIsNotNull() throws Exception { meta.setNullsAndEmptyAreDifferent( true ); assertEquals( BASE_VALUE, meta.getNativeDataType( BASE_VALUE ) ); assertEquals( TEST_VALUE, meta.getNativeDataType( TEST_VALUE ) ); assertEquals( null, meta.getNativeDataType( null ) ); assertEquals( "1", meta.getNativeDataType( 1 ) ); assertEquals( "1.0", meta.getNativeDataType( 1.0 ) ); Date d = ( new SimpleDateFormat( "yyyy-MM-dd HH:mm:ss.SSS" ) ).parse( "2012-11-10 09:08:07.654" ); assertEquals( d.toString(), meta.getNativeDataType( d ) ); Timestamp ts = Timestamp.valueOf( "2012-11-10 09:08:07.654321" ); assertEquals( "2012-11-10 09:08:07.654321", meta.getNativeDataType( ts ) ); meta.setTrimType( ValueMetaInterface.TRIM_TYPE_NONE ); assertEquals( "", meta.getNativeDataType( "" ) ); assertEquals( "1", meta.getNativeDataType( "1" ) ); assertEquals( " ", meta.getNativeDataType( " " ) ); assertEquals( " 1 ", meta.getNativeDataType( " 1 " ) ); meta.setTrimType( ValueMetaInterface.TRIM_TYPE_LEFT ); assertEquals( "", meta.getNativeDataType( "" ) ); assertEquals( "1", meta.getNativeDataType( "1" ) ); assertEquals( "", meta.getNativeDataType( " " ) ); assertEquals( "1 ", meta.getNativeDataType( " 1 " ) ); meta.setTrimType( ValueMetaInterface.TRIM_TYPE_RIGHT ); assertEquals( "", meta.getNativeDataType( "" ) ); assertEquals( "1", meta.getNativeDataType( "1" ) ); assertEquals( "", meta.getNativeDataType( " " ) ); assertEquals( " 1", meta.getNativeDataType( " 1 " ) ); meta.setTrimType( ValueMetaInterface.TRIM_TYPE_BOTH ); assertEquals( "", meta.getNativeDataType( "" ) ); assertEquals( "1", meta.getNativeDataType( "1" ) ); assertEquals( "", meta.getNativeDataType( " " ) ); assertEquals( "1", meta.getNativeDataType( " 1 " ) ); }
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@Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); }
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ValueMetaString extends ValueMetaBase implements ValueMetaInterface { @Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); } }
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ValueMetaString extends ValueMetaBase implements ValueMetaInterface { @Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); } ValueMetaString(); ValueMetaString( String name ); ValueMetaString( String name, int length, int precision ); }
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ValueMetaString extends ValueMetaBase implements ValueMetaInterface { @Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); } ValueMetaString(); ValueMetaString( String name ); ValueMetaString( String name, int length, int precision ); @Override Object getNativeDataType( Object object ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaString extends ValueMetaBase implements ValueMetaInterface { @Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); } ValueMetaString(); ValueMetaString( String name ); ValueMetaString( String name, int length, int precision ); @Override Object getNativeDataType( Object object ); @Override Class<?> getNativeDataTypeClass(); }
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@Test public void testGetNativeData_emptyIsNull() throws Exception { meta.setNullsAndEmptyAreDifferent( false ); assertEquals( BASE_VALUE, meta.getNativeDataType( BASE_VALUE ) ); assertEquals( TEST_VALUE, meta.getNativeDataType( TEST_VALUE ) ); assertEquals( null, meta.getNativeDataType( null ) ); assertEquals( "1", meta.getNativeDataType( 1 ) ); assertEquals( "1.0", meta.getNativeDataType( 1.0 ) ); Date d = ( new SimpleDateFormat( "yyyy-MM-dd HH:mm:ss.SSS" ) ).parse( "2012-11-10 09:08:07.654" ); assertEquals( d.toString(), meta.getNativeDataType( d ) ); Timestamp ts = Timestamp.valueOf( "2012-11-10 09:08:07.654321" ); assertEquals( "2012-11-10 09:08:07.654321", meta.getNativeDataType( ts ) ); meta.setTrimType( ValueMetaInterface.TRIM_TYPE_NONE ); assertEquals( "", meta.getNativeDataType( "" ) ); assertEquals( "1", meta.getNativeDataType( "1" ) ); assertEquals( " ", meta.getNativeDataType( " " ) ); assertEquals( " 1 ", meta.getNativeDataType( " 1 " ) ); meta.setTrimType( ValueMetaInterface.TRIM_TYPE_LEFT ); assertEquals( "", meta.getNativeDataType( "" ) ); assertEquals( "1", meta.getNativeDataType( "1" ) ); assertEquals( "", meta.getNativeDataType( " " ) ); assertEquals( "1 ", meta.getNativeDataType( " 1 " ) ); meta.setTrimType( ValueMetaInterface.TRIM_TYPE_RIGHT ); assertEquals( "", meta.getNativeDataType( "" ) ); assertEquals( "1", meta.getNativeDataType( "1" ) ); assertEquals( "", meta.getNativeDataType( " " ) ); assertEquals( " 1", meta.getNativeDataType( " 1 " ) ); meta.setTrimType( ValueMetaInterface.TRIM_TYPE_BOTH ); assertEquals( "", meta.getNativeDataType( "" ) ); assertEquals( "1", meta.getNativeDataType( "1" ) ); assertEquals( "", meta.getNativeDataType( " " ) ); assertEquals( "1", meta.getNativeDataType( " 1 " ) ); }
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@Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); }
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ValueMetaString extends ValueMetaBase implements ValueMetaInterface { @Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); } }
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ValueMetaString extends ValueMetaBase implements ValueMetaInterface { @Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); } ValueMetaString(); ValueMetaString( String name ); ValueMetaString( String name, int length, int precision ); }
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ValueMetaString extends ValueMetaBase implements ValueMetaInterface { @Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); } ValueMetaString(); ValueMetaString( String name ); ValueMetaString( String name, int length, int precision ); @Override Object getNativeDataType( Object object ); @Override Class<?> getNativeDataTypeClass(); }
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ValueMetaString extends ValueMetaBase implements ValueMetaInterface { @Override public Object getNativeDataType( Object object ) throws KettleValueException { return getString( object ); } ValueMetaString(); ValueMetaString( String name ); ValueMetaString( String name, int length, int precision ); @Override Object getNativeDataType( Object object ); @Override Class<?> getNativeDataTypeClass(); }
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@Test public void testFormat() throws Exception { for ( Locale locale : locales ) { Locale.setDefault( Locale.Category.FORMAT, locale ); tdb = ResourceBundle.getBundle( "org/pentaho/di/core/row/value/timestamp/messages/testdates", locale ); checkFormat( "KETTLE.LONG" ); checkFormat( "LOCALE.DATE", new SimpleTimestampFormat( new SimpleDateFormat().toPattern() ) ); checkFormat( "KETTLE" ); checkFormat( "DB.DEFAULT" ); checkFormat( "LOCALE.DEFAULT" ); } }
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@Override public StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ) { if ( compatibleToSuperPattern ) { return super.format( timestamp, toAppendTo, pos ); } StringBuffer dateBuffer; String nan; if ( timestamp instanceof Timestamp ) { Timestamp tmp = (Timestamp) timestamp; Date date = new Date( tmp.getTime() ); dateBuffer = super.format( date, toAppendTo, pos ); nan = formatNanoseconds( tmp.getNanos() ); } else { dateBuffer = super.format( timestamp, toAppendTo, pos ); String milliseconds = defaultMillisecondDateFormat.format( timestamp ); nan = formatNanoseconds( Integer.valueOf( milliseconds ) * Math.pow( 10, 6 ) ); } int placeholderPosition = replaceHolder( dateBuffer, false ); return dateBuffer.insert( pos.getBeginIndex() + placeholderPosition, nan ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ) { if ( compatibleToSuperPattern ) { return super.format( timestamp, toAppendTo, pos ); } StringBuffer dateBuffer; String nan; if ( timestamp instanceof Timestamp ) { Timestamp tmp = (Timestamp) timestamp; Date date = new Date( tmp.getTime() ); dateBuffer = super.format( date, toAppendTo, pos ); nan = formatNanoseconds( tmp.getNanos() ); } else { dateBuffer = super.format( timestamp, toAppendTo, pos ); String milliseconds = defaultMillisecondDateFormat.format( timestamp ); nan = formatNanoseconds( Integer.valueOf( milliseconds ) * Math.pow( 10, 6 ) ); } int placeholderPosition = replaceHolder( dateBuffer, false ); return dateBuffer.insert( pos.getBeginIndex() + placeholderPosition, nan ); } }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ) { if ( compatibleToSuperPattern ) { return super.format( timestamp, toAppendTo, pos ); } StringBuffer dateBuffer; String nan; if ( timestamp instanceof Timestamp ) { Timestamp tmp = (Timestamp) timestamp; Date date = new Date( tmp.getTime() ); dateBuffer = super.format( date, toAppendTo, pos ); nan = formatNanoseconds( tmp.getNanos() ); } else { dateBuffer = super.format( timestamp, toAppendTo, pos ); String milliseconds = defaultMillisecondDateFormat.format( timestamp ); nan = formatNanoseconds( Integer.valueOf( milliseconds ) * Math.pow( 10, 6 ) ); } int placeholderPosition = replaceHolder( dateBuffer, false ); return dateBuffer.insert( pos.getBeginIndex() + placeholderPosition, nan ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ) { if ( compatibleToSuperPattern ) { return super.format( timestamp, toAppendTo, pos ); } StringBuffer dateBuffer; String nan; if ( timestamp instanceof Timestamp ) { Timestamp tmp = (Timestamp) timestamp; Date date = new Date( tmp.getTime() ); dateBuffer = super.format( date, toAppendTo, pos ); nan = formatNanoseconds( tmp.getNanos() ); } else { dateBuffer = super.format( timestamp, toAppendTo, pos ); String milliseconds = defaultMillisecondDateFormat.format( timestamp ); nan = formatNanoseconds( Integer.valueOf( milliseconds ) * Math.pow( 10, 6 ) ); } int placeholderPosition = replaceHolder( dateBuffer, false ); return dateBuffer.insert( pos.getBeginIndex() + placeholderPosition, nan ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ) { if ( compatibleToSuperPattern ) { return super.format( timestamp, toAppendTo, pos ); } StringBuffer dateBuffer; String nan; if ( timestamp instanceof Timestamp ) { Timestamp tmp = (Timestamp) timestamp; Date date = new Date( tmp.getTime() ); dateBuffer = super.format( date, toAppendTo, pos ); nan = formatNanoseconds( tmp.getNanos() ); } else { dateBuffer = super.format( timestamp, toAppendTo, pos ); String milliseconds = defaultMillisecondDateFormat.format( timestamp ); nan = formatNanoseconds( Integer.valueOf( milliseconds ) * Math.pow( 10, 6 ) ); } int placeholderPosition = replaceHolder( dateBuffer, false ); return dateBuffer.insert( pos.getBeginIndex() + placeholderPosition, nan ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); static final String DEFAULT_TIMESTAMP_FORMAT; }
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@Test public void testParse() throws Exception { for ( Locale locale : locales ) { Locale.setDefault( Locale.Category.FORMAT, locale ); tdb = ResourceBundle.getBundle( "org/pentaho/di/core/row/value/timestamp/messages/testdates", locale ); checkParseKettle(); checkParseKettleLong(); checkParseDbDefault(); checkParseLocaleDefault(); } }
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@Override public Date parse( String text, ParsePosition pos ) { String timestampFormatDate; Date tempDate; if ( compatibleToSuperPattern ) { tempDate = super.parse( text, pos ); return new Timestamp( tempDate.getTime() ); } StringBuilder dateText = new StringBuilder( text.substring( pos.getIndex() ) ); ParsePosition positionError = new ParsePosition( 0 ); tempDate = super.parse( dateText.toString(), positionError ); if ( tempDate != null ) { pos.setErrorIndex( pos.getIndex() ); return null; } int startNanosecondsPosition = positionError.getErrorIndex(); int endNanosecondsPosition = endNanosecondPatternPosition - startNanosecondPatternPosition + 1 + startNanosecondsPosition; endNanosecondsPosition = ( endNanosecondsPosition >= dateText.length() ) ? dateText.length() : endNanosecondsPosition; String nanoseconds = String.valueOf( dateText.subSequence( startNanosecondsPosition, endNanosecondsPosition ) ); dateText.delete( startNanosecondsPosition, endNanosecondsPosition ); ParsePosition position = new ParsePosition( 0 ); dateText.append( NANOSECOND_PLACEHOLDER ); tempDate = super.parse( dateText.toString(), position ); if ( tempDate == null ) { pos.setErrorIndex( position.getErrorIndex() ); return null; } timestampFormatDate = defaultTimestampFormat.format( tempDate ); String result = timestampFormatDate + '.' + nanoseconds; Timestamp res = Timestamp.valueOf( timestampFormatDate + '.' + nanoseconds ); pos.setIndex( pos.getIndex() + result.length() ); return res; }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public Date parse( String text, ParsePosition pos ) { String timestampFormatDate; Date tempDate; if ( compatibleToSuperPattern ) { tempDate = super.parse( text, pos ); return new Timestamp( tempDate.getTime() ); } StringBuilder dateText = new StringBuilder( text.substring( pos.getIndex() ) ); ParsePosition positionError = new ParsePosition( 0 ); tempDate = super.parse( dateText.toString(), positionError ); if ( tempDate != null ) { pos.setErrorIndex( pos.getIndex() ); return null; } int startNanosecondsPosition = positionError.getErrorIndex(); int endNanosecondsPosition = endNanosecondPatternPosition - startNanosecondPatternPosition + 1 + startNanosecondsPosition; endNanosecondsPosition = ( endNanosecondsPosition >= dateText.length() ) ? dateText.length() : endNanosecondsPosition; String nanoseconds = String.valueOf( dateText.subSequence( startNanosecondsPosition, endNanosecondsPosition ) ); dateText.delete( startNanosecondsPosition, endNanosecondsPosition ); ParsePosition position = new ParsePosition( 0 ); dateText.append( NANOSECOND_PLACEHOLDER ); tempDate = super.parse( dateText.toString(), position ); if ( tempDate == null ) { pos.setErrorIndex( position.getErrorIndex() ); return null; } timestampFormatDate = defaultTimestampFormat.format( tempDate ); String result = timestampFormatDate + '.' + nanoseconds; Timestamp res = Timestamp.valueOf( timestampFormatDate + '.' + nanoseconds ); pos.setIndex( pos.getIndex() + result.length() ); return res; } }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public Date parse( String text, ParsePosition pos ) { String timestampFormatDate; Date tempDate; if ( compatibleToSuperPattern ) { tempDate = super.parse( text, pos ); return new Timestamp( tempDate.getTime() ); } StringBuilder dateText = new StringBuilder( text.substring( pos.getIndex() ) ); ParsePosition positionError = new ParsePosition( 0 ); tempDate = super.parse( dateText.toString(), positionError ); if ( tempDate != null ) { pos.setErrorIndex( pos.getIndex() ); return null; } int startNanosecondsPosition = positionError.getErrorIndex(); int endNanosecondsPosition = endNanosecondPatternPosition - startNanosecondPatternPosition + 1 + startNanosecondsPosition; endNanosecondsPosition = ( endNanosecondsPosition >= dateText.length() ) ? dateText.length() : endNanosecondsPosition; String nanoseconds = String.valueOf( dateText.subSequence( startNanosecondsPosition, endNanosecondsPosition ) ); dateText.delete( startNanosecondsPosition, endNanosecondsPosition ); ParsePosition position = new ParsePosition( 0 ); dateText.append( NANOSECOND_PLACEHOLDER ); tempDate = super.parse( dateText.toString(), position ); if ( tempDate == null ) { pos.setErrorIndex( position.getErrorIndex() ); return null; } timestampFormatDate = defaultTimestampFormat.format( tempDate ); String result = timestampFormatDate + '.' + nanoseconds; Timestamp res = Timestamp.valueOf( timestampFormatDate + '.' + nanoseconds ); pos.setIndex( pos.getIndex() + result.length() ); return res; } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public Date parse( String text, ParsePosition pos ) { String timestampFormatDate; Date tempDate; if ( compatibleToSuperPattern ) { tempDate = super.parse( text, pos ); return new Timestamp( tempDate.getTime() ); } StringBuilder dateText = new StringBuilder( text.substring( pos.getIndex() ) ); ParsePosition positionError = new ParsePosition( 0 ); tempDate = super.parse( dateText.toString(), positionError ); if ( tempDate != null ) { pos.setErrorIndex( pos.getIndex() ); return null; } int startNanosecondsPosition = positionError.getErrorIndex(); int endNanosecondsPosition = endNanosecondPatternPosition - startNanosecondPatternPosition + 1 + startNanosecondsPosition; endNanosecondsPosition = ( endNanosecondsPosition >= dateText.length() ) ? dateText.length() : endNanosecondsPosition; String nanoseconds = String.valueOf( dateText.subSequence( startNanosecondsPosition, endNanosecondsPosition ) ); dateText.delete( startNanosecondsPosition, endNanosecondsPosition ); ParsePosition position = new ParsePosition( 0 ); dateText.append( NANOSECOND_PLACEHOLDER ); tempDate = super.parse( dateText.toString(), position ); if ( tempDate == null ) { pos.setErrorIndex( position.getErrorIndex() ); return null; } timestampFormatDate = defaultTimestampFormat.format( tempDate ); String result = timestampFormatDate + '.' + nanoseconds; Timestamp res = Timestamp.valueOf( timestampFormatDate + '.' + nanoseconds ); pos.setIndex( pos.getIndex() + result.length() ); return res; } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public Date parse( String text, ParsePosition pos ) { String timestampFormatDate; Date tempDate; if ( compatibleToSuperPattern ) { tempDate = super.parse( text, pos ); return new Timestamp( tempDate.getTime() ); } StringBuilder dateText = new StringBuilder( text.substring( pos.getIndex() ) ); ParsePosition positionError = new ParsePosition( 0 ); tempDate = super.parse( dateText.toString(), positionError ); if ( tempDate != null ) { pos.setErrorIndex( pos.getIndex() ); return null; } int startNanosecondsPosition = positionError.getErrorIndex(); int endNanosecondsPosition = endNanosecondPatternPosition - startNanosecondPatternPosition + 1 + startNanosecondsPosition; endNanosecondsPosition = ( endNanosecondsPosition >= dateText.length() ) ? dateText.length() : endNanosecondsPosition; String nanoseconds = String.valueOf( dateText.subSequence( startNanosecondsPosition, endNanosecondsPosition ) ); dateText.delete( startNanosecondsPosition, endNanosecondsPosition ); ParsePosition position = new ParsePosition( 0 ); dateText.append( NANOSECOND_PLACEHOLDER ); tempDate = super.parse( dateText.toString(), position ); if ( tempDate == null ) { pos.setErrorIndex( position.getErrorIndex() ); return null; } timestampFormatDate = defaultTimestampFormat.format( tempDate ); String result = timestampFormatDate + '.' + nanoseconds; Timestamp res = Timestamp.valueOf( timestampFormatDate + '.' + nanoseconds ); pos.setIndex( pos.getIndex() + result.length() ); return res; } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); static final String DEFAULT_TIMESTAMP_FORMAT; }
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@Test public void testToPattern() throws Exception { for ( Locale locale : locales ) { Locale.setDefault( Locale.Category.FORMAT, locale ); tdb = ResourceBundle.getBundle( "org/pentaho/di/core/row/value/timestamp/messages/testdates", locale ); String patternExample = tdb.getString( "PATTERN.KETTLE" ); SimpleTimestampFormat stf = new SimpleTimestampFormat( new SimpleDateFormat().toPattern() ); assertEquals( locale.toLanguageTag(), tdb.getString( "PATTERN.LOCALE.DATE" ), stf.toPattern() ); stf = new SimpleTimestampFormat( patternExample, Locale.GERMANY ); assertEquals( locale.toLanguageTag(), patternExample, stf.toPattern() ); stf = new SimpleTimestampFormat( patternExample, Locale.US ); assertEquals( locale.toLanguageTag(), patternExample, stf.toPattern() ); } }
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@Override public String toPattern() { return originalPattern; }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public String toPattern() { return originalPattern; } }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public String toPattern() { return originalPattern; } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public String toPattern() { return originalPattern; } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public String toPattern() { return originalPattern; } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); static final String DEFAULT_TIMESTAMP_FORMAT; }
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@Test public void testToLocalizedPattern() throws Exception { for ( Locale locale : locales ) { Locale.setDefault( Locale.Category.FORMAT, locale ); tdb = ResourceBundle.getBundle( "org/pentaho/di/core/row/value/timestamp/messages/testdates", locale ); SimpleTimestampFormat stf = new SimpleTimestampFormat( new SimpleDateFormat().toPattern() ); assertEquals( locale.toLanguageTag(), tdb.getString( "PATTERN.LOCALE.COMPILED" ), stf.toLocalizedPattern() ); String patternExample = tdb.getString( "PATTERN.KETTLE" ); stf = new SimpleTimestampFormat( patternExample ); assertEquals( locale.toLanguageTag(), tdb.getString( "PATTERN.LOCALE.COMPILED_DATE" ), stf.toLocalizedPattern() ); } }
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@Override public String toLocalizedPattern() { if ( compatibleToSuperPattern ) { return super.toLocalizedPattern(); } else { StringBuffer pattern = new StringBuffer( super.toLocalizedPattern() ); int placeholderPosition = replaceHolder( pattern, true ); for ( int i = placeholderPosition; i <= endNanosecondPatternPosition - startNanosecondPatternPosition + placeholderPosition; i++ ) { pattern.insert( i, patternNanosecond ); } return pattern.toString(); } }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public String toLocalizedPattern() { if ( compatibleToSuperPattern ) { return super.toLocalizedPattern(); } else { StringBuffer pattern = new StringBuffer( super.toLocalizedPattern() ); int placeholderPosition = replaceHolder( pattern, true ); for ( int i = placeholderPosition; i <= endNanosecondPatternPosition - startNanosecondPatternPosition + placeholderPosition; i++ ) { pattern.insert( i, patternNanosecond ); } return pattern.toString(); } } }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public String toLocalizedPattern() { if ( compatibleToSuperPattern ) { return super.toLocalizedPattern(); } else { StringBuffer pattern = new StringBuffer( super.toLocalizedPattern() ); int placeholderPosition = replaceHolder( pattern, true ); for ( int i = placeholderPosition; i <= endNanosecondPatternPosition - startNanosecondPatternPosition + placeholderPosition; i++ ) { pattern.insert( i, patternNanosecond ); } return pattern.toString(); } } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public String toLocalizedPattern() { if ( compatibleToSuperPattern ) { return super.toLocalizedPattern(); } else { StringBuffer pattern = new StringBuffer( super.toLocalizedPattern() ); int placeholderPosition = replaceHolder( pattern, true ); for ( int i = placeholderPosition; i <= endNanosecondPatternPosition - startNanosecondPatternPosition + placeholderPosition; i++ ) { pattern.insert( i, patternNanosecond ); } return pattern.toString(); } } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public String toLocalizedPattern() { if ( compatibleToSuperPattern ) { return super.toLocalizedPattern(); } else { StringBuffer pattern = new StringBuffer( super.toLocalizedPattern() ); int placeholderPosition = replaceHolder( pattern, true ); for ( int i = placeholderPosition; i <= endNanosecondPatternPosition - startNanosecondPatternPosition + placeholderPosition; i++ ) { pattern.insert( i, patternNanosecond ); } return pattern.toString(); } } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); static final String DEFAULT_TIMESTAMP_FORMAT; }
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@Test public void testStopMessageFireEvent() throws KettleException { addHandlers( new StopMessage( "" ), messageEventHandler, messageEventHandler2 ); StopMessage msg = new StopMessage( "User request" ); messageEventService.fireEvent( msg ); verify( messageEventHandler ).execute( msg ); verify( messageEventHandler2 ).execute( msg ); }
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public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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MessageEventService { public void fireEvent( final Message event ) throws MessageEventFireEventException { if ( event != null ) { if ( containsHandlerFor( event ) ) { final Collection<MessageEventHandler> handlers = getHandlersFor( event ); if ( handlers != null && handlers.size() > 0 ) { MessageEventFireEventException messageEventFireEventException = null; for ( final MessageEventHandler handler : handlers ) { try { handler.execute( event ); } catch ( final Exception e ) { if ( messageEventFireEventException == null ) { messageEventFireEventException = new MessageEventFireEventException( "Unable to execute some handler." ); } messageEventFireEventException.addHandlerException( e ); } } if ( messageEventFireEventException != null ) { throw messageEventFireEventException; } } } } else { throw new MessageEventFireEventException( "Unable to fire a null event" ); } } MessageEventService(); void fireEvent( final Message event ); final void addHandler( final Message eventType, final MessageEventHandler handler ); final boolean hasHandlers( final Message eventType ); List<MessageEventHandler> getHandlersFor( final Message eventType ); }
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@Test public void testApplyPattern() throws Exception { for ( Locale locale : locales ) { Locale.setDefault( Locale.Category.FORMAT, locale ); tdb = ResourceBundle.getBundle( "org/pentaho/di/core/row/value/timestamp/messages/testdates", locale ); String patternExample = tdb.getString( "PATTERN.KETTLE" ); SimpleTimestampFormat stf = new SimpleTimestampFormat( new SimpleDateFormat().toPattern() ); assertEquals( locale.toLanguageTag(), tdb.getString( "PATTERN.LOCALE.DATE" ), stf.toPattern() ); stf.applyPattern( patternExample ); checkFormat( "KETTLE", stf ); } }
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@Override public void applyPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, false ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public void applyPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, false ); } }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public void applyPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, false ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public void applyPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, false ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public void applyPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, false ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); static final String DEFAULT_TIMESTAMP_FORMAT; }
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@Test public void testApplyLocalizedPattern() throws Exception { Locale.setDefault( Locale.Category.FORMAT, Locale.US ); SimpleTimestampFormat stf = new SimpleTimestampFormat( new SimpleDateFormat().toPattern() ); for ( Locale locale : locales ) { Locale.setDefault( Locale.Category.FORMAT, locale ); tdb = ResourceBundle.getBundle( "org/pentaho/di/core/row/value/timestamp/messages/testdates", locale ); stf.applyLocalizedPattern( tdb.getString( "PATTERN.LOCALE.DEFAULT" ) ); assertEquals( locale.toLanguageTag(), tdb.getString( "PATTERN.LOCALE.DEFAULT" ), stf.toLocalizedPattern() ); checkFormat( "LOCALE.DEFAULT", stf ); } }
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@Override public void applyLocalizedPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, true ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public void applyLocalizedPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, true ); } }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public void applyLocalizedPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, true ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public void applyLocalizedPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, true ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); }
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SimpleTimestampFormat extends SimpleDateFormat { @Override public void applyLocalizedPattern( String pattern ) { DateFormatSymbols formatSymbols = super.getDateFormatSymbols(); init( pattern, formatSymbols, true ); } SimpleTimestampFormat( String pattern ); SimpleTimestampFormat( String pattern, Locale locale ); SimpleTimestampFormat( String pattern, DateFormatSymbols formatSymbols ); @Override void setDateFormatSymbols( DateFormatSymbols newFormatSymbols ); @Override StringBuffer format( Date timestamp, StringBuffer toAppendTo, FieldPosition pos ); @Override AttributedCharacterIterator formatToCharacterIterator( Object obj ); @Override Date parse( String text, ParsePosition pos ); @Override String toPattern(); @Override String toLocalizedPattern(); @Override void applyPattern( String pattern ); @Override void applyLocalizedPattern( String pattern ); @Override Date parse( String source ); @Override Object parseObject( String source, ParsePosition pos ); static final String DEFAULT_TIMESTAMP_FORMAT; }
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@Test @PrepareForTest( { EnvUtil.class } ) public void testLoadXML() throws KettleValueException, KettlePluginException, ParseException { PowerMockito.mockStatic( EnvUtil.class ); Mockito.when( EnvUtil.getSystemProperty( Const.KETTLE_DEFAULT_DATE_FORMAT ) ).thenReturn( "yyyy-MM-dd HH:mm:ss.SSS" ); ValueMetaAndData valueMetaAndData = new ValueMetaAndData( Mockito.mock( ValueMetaInterface.class ), new Object() ); PluginRegistry pluginRegistry = Mockito.mock( PluginRegistry.class ); List<PluginInterface> pluginTypeList = new ArrayList<>(); PluginInterface plugin = Mockito.mock( PluginInterface.class ); Mockito.when( plugin.getName() ).thenReturn( "3" ); String[] ids = { "3" }; Mockito.when( plugin.getIds() ).thenReturn( ids ); pluginTypeList.add( plugin ); Mockito.when( pluginRegistry.getPlugins( ValueMetaPluginType.class ) ).thenReturn( pluginTypeList ); ValueMetaFactory.pluginRegistry = pluginRegistry; NodeList nodeList = Mockito.mock( NodeList.class ); Mockito.when( nodeList.getLength() ).thenReturn( 2 ); Node node = Mockito.mock( Node.class ); Mockito.when( node.getChildNodes() ).thenReturn( nodeList ); Node childNodeText = Mockito.mock( Node.class ); Mockito.when( childNodeText.getNodeName() ).thenReturn( "text" ); Mockito.when( nodeList.item( 0 ) ).thenReturn( childNodeText ); Node nodeValue = Mockito.mock( Node.class ); Mockito.when( childNodeText.getFirstChild() ).thenReturn( nodeValue ); String testData = "2010/01/01 00:00:00.000"; Mockito.when( nodeValue.getNodeValue() ).thenReturn( testData ); Node childNodeType = Mockito.mock( Node.class ); Mockito.when( childNodeType.getNodeName() ).thenReturn( "type" ); Mockito.when( nodeList.item( 1 ) ).thenReturn( childNodeType ); Node nodeTypeValue = Mockito.mock( Node.class ); Mockito.when( childNodeType.getFirstChild() ).thenReturn( nodeTypeValue ); Mockito.when( nodeTypeValue.getNodeValue() ).thenReturn( "3" ); valueMetaAndData.loadXML( node ); Assert.assertEquals( valueMetaAndData.getValueData(), new SimpleDateFormat( ValueMetaBase.COMPATIBLE_DATE_FORMAT_PATTERN ).parse( testData ) ); }
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public boolean loadXML( Node valnode ) { valueMeta = null; try { String valname = XMLHandler.getTagValue( valnode, "name" ); int valtype = ValueMetaBase.getType( XMLHandler.getTagValue( valnode, "type" ) ); String text = XMLHandler.getTagValue( valnode, "text" ); boolean isnull = "Y".equalsIgnoreCase( XMLHandler.getTagValue( valnode, "isnull" ) ); int len = Const.toInt( XMLHandler.getTagValue( valnode, "length" ), -1 ); int prec = Const.toInt( XMLHandler.getTagValue( valnode, "precision" ), -1 ); String mask = XMLHandler.getTagValue( valnode, "mask" ); valueMeta = new ValueMeta( valname, valtype ); valueData = text; valueMeta.setLength( len ); valueMeta.setPrecision( prec ); if ( mask != null ) { valueMeta.setConversionMask( mask ); } if ( valtype != ValueMetaInterface.TYPE_STRING ) { ValueMetaInterface originMeta = new ValueMetaString( valname ); if ( valueMeta.isNumeric() ) { originMeta.setDecimalSymbol( "." ); originMeta.setGroupingSymbol( null ); originMeta.setCurrencySymbol( null ); } if ( valtype == ValueMetaInterface.TYPE_DATE ) { originMeta.setConversionMask( ValueMetaBase.COMPATIBLE_DATE_FORMAT_PATTERN ); } valueData = Const.trim( text ); valueData = valueMeta.convertData( originMeta, valueData ); } if ( isnull ) { valueData = null; } } catch ( Exception e ) { valueData = null; return false; } return true; }
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ValueMetaAndData { public boolean loadXML( Node valnode ) { valueMeta = null; try { String valname = XMLHandler.getTagValue( valnode, "name" ); int valtype = ValueMetaBase.getType( XMLHandler.getTagValue( valnode, "type" ) ); String text = XMLHandler.getTagValue( valnode, "text" ); boolean isnull = "Y".equalsIgnoreCase( XMLHandler.getTagValue( valnode, "isnull" ) ); int len = Const.toInt( XMLHandler.getTagValue( valnode, "length" ), -1 ); int prec = Const.toInt( XMLHandler.getTagValue( valnode, "precision" ), -1 ); String mask = XMLHandler.getTagValue( valnode, "mask" ); valueMeta = new ValueMeta( valname, valtype ); valueData = text; valueMeta.setLength( len ); valueMeta.setPrecision( prec ); if ( mask != null ) { valueMeta.setConversionMask( mask ); } if ( valtype != ValueMetaInterface.TYPE_STRING ) { ValueMetaInterface originMeta = new ValueMetaString( valname ); if ( valueMeta.isNumeric() ) { originMeta.setDecimalSymbol( "." ); originMeta.setGroupingSymbol( null ); originMeta.setCurrencySymbol( null ); } if ( valtype == ValueMetaInterface.TYPE_DATE ) { originMeta.setConversionMask( ValueMetaBase.COMPATIBLE_DATE_FORMAT_PATTERN ); } valueData = Const.trim( text ); valueData = valueMeta.convertData( originMeta, valueData ); } if ( isnull ) { valueData = null; } } catch ( Exception e ) { valueData = null; return false; } return true; } }
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ValueMetaAndData { public boolean loadXML( Node valnode ) { valueMeta = null; try { String valname = XMLHandler.getTagValue( valnode, "name" ); int valtype = ValueMetaBase.getType( XMLHandler.getTagValue( valnode, "type" ) ); String text = XMLHandler.getTagValue( valnode, "text" ); boolean isnull = "Y".equalsIgnoreCase( XMLHandler.getTagValue( valnode, "isnull" ) ); int len = Const.toInt( XMLHandler.getTagValue( valnode, "length" ), -1 ); int prec = Const.toInt( XMLHandler.getTagValue( valnode, "precision" ), -1 ); String mask = XMLHandler.getTagValue( valnode, "mask" ); valueMeta = new ValueMeta( valname, valtype ); valueData = text; valueMeta.setLength( len ); valueMeta.setPrecision( prec ); if ( mask != null ) { valueMeta.setConversionMask( mask ); } if ( valtype != ValueMetaInterface.TYPE_STRING ) { ValueMetaInterface originMeta = new ValueMetaString( valname ); if ( valueMeta.isNumeric() ) { originMeta.setDecimalSymbol( "." ); originMeta.setGroupingSymbol( null ); originMeta.setCurrencySymbol( null ); } if ( valtype == ValueMetaInterface.TYPE_DATE ) { originMeta.setConversionMask( ValueMetaBase.COMPATIBLE_DATE_FORMAT_PATTERN ); } valueData = Const.trim( text ); valueData = valueMeta.convertData( originMeta, valueData ); } if ( isnull ) { valueData = null; } } catch ( Exception e ) { valueData = null; return false; } return true; } ValueMetaAndData(); ValueMetaAndData( ValueMetaInterface valueMeta, Object valueData ); ValueMetaAndData( String valueName, Object valueData ); ValueMetaAndData( Node valnode ); }
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ValueMetaAndData { public boolean loadXML( Node valnode ) { valueMeta = null; try { String valname = XMLHandler.getTagValue( valnode, "name" ); int valtype = ValueMetaBase.getType( XMLHandler.getTagValue( valnode, "type" ) ); String text = XMLHandler.getTagValue( valnode, "text" ); boolean isnull = "Y".equalsIgnoreCase( XMLHandler.getTagValue( valnode, "isnull" ) ); int len = Const.toInt( XMLHandler.getTagValue( valnode, "length" ), -1 ); int prec = Const.toInt( XMLHandler.getTagValue( valnode, "precision" ), -1 ); String mask = XMLHandler.getTagValue( valnode, "mask" ); valueMeta = new ValueMeta( valname, valtype ); valueData = text; valueMeta.setLength( len ); valueMeta.setPrecision( prec ); if ( mask != null ) { valueMeta.setConversionMask( mask ); } if ( valtype != ValueMetaInterface.TYPE_STRING ) { ValueMetaInterface originMeta = new ValueMetaString( valname ); if ( valueMeta.isNumeric() ) { originMeta.setDecimalSymbol( "." ); originMeta.setGroupingSymbol( null ); originMeta.setCurrencySymbol( null ); } if ( valtype == ValueMetaInterface.TYPE_DATE ) { originMeta.setConversionMask( ValueMetaBase.COMPATIBLE_DATE_FORMAT_PATTERN ); } valueData = Const.trim( text ); valueData = valueMeta.convertData( originMeta, valueData ); } if ( isnull ) { valueData = null; } } catch ( Exception e ) { valueData = null; return false; } return true; } ValueMetaAndData(); ValueMetaAndData( ValueMetaInterface valueMeta, Object valueData ); ValueMetaAndData( String valueName, Object valueData ); ValueMetaAndData( Node valnode ); @Override Object clone(); @Override String toString(); String getXML(); boolean loadXML( Node valnode ); String toStringMeta(); Object getValueData(); void setValueData( Object valueData ); ValueMetaInterface getValueMeta(); void setValueMeta( ValueMetaInterface valueMeta ); }
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ValueMetaAndData { public boolean loadXML( Node valnode ) { valueMeta = null; try { String valname = XMLHandler.getTagValue( valnode, "name" ); int valtype = ValueMetaBase.getType( XMLHandler.getTagValue( valnode, "type" ) ); String text = XMLHandler.getTagValue( valnode, "text" ); boolean isnull = "Y".equalsIgnoreCase( XMLHandler.getTagValue( valnode, "isnull" ) ); int len = Const.toInt( XMLHandler.getTagValue( valnode, "length" ), -1 ); int prec = Const.toInt( XMLHandler.getTagValue( valnode, "precision" ), -1 ); String mask = XMLHandler.getTagValue( valnode, "mask" ); valueMeta = new ValueMeta( valname, valtype ); valueData = text; valueMeta.setLength( len ); valueMeta.setPrecision( prec ); if ( mask != null ) { valueMeta.setConversionMask( mask ); } if ( valtype != ValueMetaInterface.TYPE_STRING ) { ValueMetaInterface originMeta = new ValueMetaString( valname ); if ( valueMeta.isNumeric() ) { originMeta.setDecimalSymbol( "." ); originMeta.setGroupingSymbol( null ); originMeta.setCurrencySymbol( null ); } if ( valtype == ValueMetaInterface.TYPE_DATE ) { originMeta.setConversionMask( ValueMetaBase.COMPATIBLE_DATE_FORMAT_PATTERN ); } valueData = Const.trim( text ); valueData = valueMeta.convertData( originMeta, valueData ); } if ( isnull ) { valueData = null; } } catch ( Exception e ) { valueData = null; return false; } return true; } ValueMetaAndData(); ValueMetaAndData( ValueMetaInterface valueMeta, Object valueData ); ValueMetaAndData( String valueName, Object valueData ); ValueMetaAndData( Node valnode ); @Override Object clone(); @Override String toString(); String getXML(); boolean loadXML( Node valnode ); String toStringMeta(); Object getValueData(); void setValueData( Object valueData ); ValueMetaInterface getValueMeta(); void setValueMeta( ValueMetaInterface valueMeta ); static final String XML_TAG; static final String VALUE_REPOSITORY_NUMBER_CONVERSION_MASK; static final String VALUE_REPOSITORY_INTEGER_CONVERSION_MASK; static final String VALUE_REPOSITORY_DATE_CONVERSION_MASK; static final String VALUE_REPOSITORY_DECIMAL_SYMBOL; static final String VALUE_REPOSITORY_GROUPING_SYMBOL; }
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@Test public void testWrite() throws IOException { WriterOutputStream stream = new WriterOutputStream( writer ); stream.write( 68 ); stream.write( "value".getBytes(), 1, 3 ); stream.write( "value".getBytes() ); stream.flush(); stream.close(); verify( writer ).append( new String( new byte[] { (byte) 68 } ) ); verify( writer ).append( "alu" ); verify( writer ).append( "value" ); verify( writer ).flush(); verify( writer ).close(); assertNull( stream.getWriter() ); writer = mock( Writer.class ); WriterOutputStream streamWithEncoding = new WriterOutputStream( writer, encoding ); streamWithEncoding.write( "value".getBytes( encoding ) ); verify( writer ).append( "value" ); }
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@Override public void write( int b ) throws IOException { write( new byte[] { (byte) b, } ); }
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WriterOutputStream extends OutputStream { @Override public void write( int b ) throws IOException { write( new byte[] { (byte) b, } ); } }
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WriterOutputStream extends OutputStream { @Override public void write( int b ) throws IOException { write( new byte[] { (byte) b, } ); } WriterOutputStream( Writer writer ); WriterOutputStream( Writer writer, String encoding ); }
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WriterOutputStream extends OutputStream { @Override public void write( int b ) throws IOException { write( new byte[] { (byte) b, } ); } WriterOutputStream( Writer writer ); WriterOutputStream( Writer writer, String encoding ); @Override void write( int b ); @Override void write( byte[] b, int off, int len ); @Override void write( byte[] b ); @Override void close(); @Override void flush(); Writer getWriter(); String getEncoding(); }
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WriterOutputStream extends OutputStream { @Override public void write( int b ) throws IOException { write( new byte[] { (byte) b, } ); } WriterOutputStream( Writer writer ); WriterOutputStream( Writer writer, String encoding ); @Override void write( int b ); @Override void write( byte[] b, int off, int len ); @Override void write( byte[] b ); @Override void close(); @Override void flush(); Writer getWriter(); String getEncoding(); }
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@Test public void testFindJarFiles_DirWithJarInNameNotAdded() throws IOException, KettleFileException { Files.createDirectories( PATH_TO_DIR_WITH_JAR_IN_NAME ); FileObject[] findJarFiles = plFolder.findJarFiles(); assertNotNull( findJarFiles ); assertEquals( 0, findJarFiles.length ); }
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@Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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@Test public void testFindJarFiles_DirWithJarInNameNotAddedAndTxtFileNotAdded() throws IOException, KettleFileException { Files.createDirectories( PATH_TO_DIR_WITH_JAR_IN_NAME ); Files.createFile( PATH_TO_NOT_JAR_FILE ); FileObject[] findJarFiles = plFolder.findJarFiles(); assertNotNull( findJarFiles ); assertEquals( 0, findJarFiles.length ); }
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@Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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@Test public void testFindJarFiles_SeveralJarsInDifferentDirs() throws IOException, KettleFileException { Files.createDirectories( PATH_TO_DIR_WITH_JAR_IN_NAME ); Files.createFile( PATH_TO_JAR_FILE1 ); Files.createFile( PATH_TO_NOT_JAR_FILE ); Files.createDirectories( PATH_TO_TEST_DIR_NAME ); Files.createFile( PATH_TO_JAR_FILE2 ); Files.createFile( PATH_TO_NOT_JAR_FILE_IN_TEST_DIR ); Files.createFile( Paths.get( BASE_TEMP_DIR, PLUGINS_DIR_NAME, JAR_FILE2_NAME ) ); Files.createFile( Paths.get( BASE_TEMP_DIR, PLUGINS_DIR_NAME, NOT_JAR_FILE_NAME ) ); FileObject[] findJarFiles = plFolder.findJarFiles(); assertNotNull( findJarFiles ); assertEquals( 3, findJarFiles.length ); }
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@Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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@Test public void testFindJarFiles_DirWithKettleIgnoreFileIgnored() throws IOException, KettleFileException { Files.createDirectories( PATH_TO_TEST_DIR_NAME ); Files.createFile( PATH_TO_JAR_FILE2 ); Files.createFile( PATH_TO_KETTLE_IGNORE_FILE ); FileObject[] findJarFiles = plFolder.findJarFiles(); assertNotNull( findJarFiles ); assertEquals( 0, findJarFiles.length ); }
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@Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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@Test public void testFindJarFiles_LibDirIgnored() throws IOException, KettleFileException { Files.createDirectories( Paths.get( BASE_TEMP_DIR, PLUGINS_DIR_NAME, "lib" ) ); Files.createFile( PATH_TO_JAR_IN_LIB_DIR ); FileObject[] findJarFiles = plFolder.findJarFiles(); assertNotNull( findJarFiles ); assertEquals( 0, findJarFiles.length ); }
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@Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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@Test public void testFindJarFiles_ExceptionThrows() { String nullFolder = null; String expectedMessage = "Unable to list jar files in plugin folder '" + nullFolder + "'"; plFolder = new PluginFolder( nullFolder, false, true ); try { plFolder.findJarFiles(); fail( "KettleFileException was not occured but expected." ); } catch ( KettleFileException e ) { assertTrue( e instanceof KettleFileException ); assertTrue( e.getLocalizedMessage().trim().startsWith( expectedMessage ) ); } }
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@Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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PluginFolder implements PluginFolderInterface { @Override public FileObject[] findJarFiles() throws KettleFileException { return findJarFiles( searchLibDir ); } PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder ); PluginFolder( String folder, boolean pluginXmlFolder, boolean pluginAnnotationsFolder,
boolean searchLibDir ); @Override String toString(); static List<PluginFolderInterface> populateFolders( String xmlSubfolder ); @Override FileObject[] findJarFiles(); FileObject[] findJarFiles( final boolean includeLibJars ); @Override String getFolder(); void setFolder( String folder ); @Override boolean isPluginXmlFolder(); void setPluginXmlFolder( boolean pluginXmlFolder ); @Override boolean isPluginAnnotationsFolder(); void setPluginAnnotationsFolder( boolean pluginAnnotationsFolder ); }
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@Test public void testGetMinimum() { final Point minimalCanvasPoint = new Point( 0, 0 ); final Point stepPoint = new Point( 500, 500 ); Point point = transMeta.getMinimum(); assertEquals( minimalCanvasPoint.x, point.x ); assertEquals( minimalCanvasPoint.y, point.y ); StepMeta stepMeta = mock( StepMeta.class ); when( stepMeta.getLocation() ).thenReturn( stepPoint ); transMeta.addStep( stepMeta ); Point actualStepPoint = transMeta.getMinimum(); assertEquals( stepPoint.x - TransMeta.BORDER_INDENT, actualStepPoint.x ); assertEquals( stepPoint.y - TransMeta.BORDER_INDENT, actualStepPoint.y ); }
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public Point getMinimum() { int minx = Integer.MAX_VALUE, miny = Integer.MAX_VALUE; for ( int i = 0; i < nrSteps(); i++ ) { StepMeta stepMeta = getStep( i ); Point loc = stepMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } for ( int i = 0; i < nrNotes(); i++ ) { NotePadMeta notePadMeta = getNote( i ); Point loc = notePadMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } if ( minx > BORDER_INDENT && minx != Integer.MAX_VALUE ) { minx -= BORDER_INDENT; } else { minx = 0; } if ( miny > BORDER_INDENT && miny != Integer.MAX_VALUE ) { miny -= BORDER_INDENT; } else { miny = 0; } return new Point( minx, miny ); }
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TransMeta extends AbstractMeta implements XMLInterface, Comparator<TransMeta>, Comparable<TransMeta>, Cloneable, ResourceExportInterface,
RepositoryElementInterface, LoggingObjectInterface { public Point getMinimum() { int minx = Integer.MAX_VALUE, miny = Integer.MAX_VALUE; for ( int i = 0; i < nrSteps(); i++ ) { StepMeta stepMeta = getStep( i ); Point loc = stepMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } for ( int i = 0; i < nrNotes(); i++ ) { NotePadMeta notePadMeta = getNote( i ); Point loc = notePadMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } if ( minx > BORDER_INDENT && minx != Integer.MAX_VALUE ) { minx -= BORDER_INDENT; } else { minx = 0; } if ( miny > BORDER_INDENT && miny != Integer.MAX_VALUE ) { miny -= BORDER_INDENT; } else { miny = 0; } return new Point( minx, miny ); } }
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TransMeta extends AbstractMeta implements XMLInterface, Comparator<TransMeta>, Comparable<TransMeta>, Cloneable, ResourceExportInterface,
RepositoryElementInterface, LoggingObjectInterface { public Point getMinimum() { int minx = Integer.MAX_VALUE, miny = Integer.MAX_VALUE; for ( int i = 0; i < nrSteps(); i++ ) { StepMeta stepMeta = getStep( i ); Point loc = stepMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } for ( int i = 0; i < nrNotes(); i++ ) { NotePadMeta notePadMeta = getNote( i ); Point loc = notePadMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } if ( minx > BORDER_INDENT && minx != Integer.MAX_VALUE ) { minx -= BORDER_INDENT; } else { minx = 0; } if ( miny > BORDER_INDENT && miny != Integer.MAX_VALUE ) { miny -= BORDER_INDENT; } else { miny = 0; } return new Point( minx, miny ); } TransMeta(); TransMeta( VariableSpace parent ); TransMeta( String filename, String name ); @Deprecated TransMeta( String filename, String name, String[] arguments ); TransMeta( String fname ); TransMeta( String fname, VariableSpace parentVariableSpace ); TransMeta( String fname, boolean setInternalVariables ); TransMeta( String fname, Repository rep ); TransMeta( String fname, Repository rep, boolean setInternalVariables ); TransMeta( String fname, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace ); TransMeta( String fname, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace,
OverwritePrompter prompter ); TransMeta( String fname, IMetaStore metaStore, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); TransMeta( InputStream xmlStream, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); TransMeta( Node transnode, Repository rep ); }
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TransMeta extends AbstractMeta implements XMLInterface, Comparator<TransMeta>, Comparable<TransMeta>, Cloneable, ResourceExportInterface,
RepositoryElementInterface, LoggingObjectInterface { public Point getMinimum() { int minx = Integer.MAX_VALUE, miny = Integer.MAX_VALUE; for ( int i = 0; i < nrSteps(); i++ ) { StepMeta stepMeta = getStep( i ); Point loc = stepMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } for ( int i = 0; i < nrNotes(); i++ ) { NotePadMeta notePadMeta = getNote( i ); Point loc = notePadMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } if ( minx > BORDER_INDENT && minx != Integer.MAX_VALUE ) { minx -= BORDER_INDENT; } else { minx = 0; } if ( miny > BORDER_INDENT && miny != Integer.MAX_VALUE ) { miny -= BORDER_INDENT; } else { miny = 0; } return new Point( minx, miny ); } TransMeta(); TransMeta( VariableSpace parent ); TransMeta( String filename, String name ); @Deprecated TransMeta( String filename, String name, String[] arguments ); TransMeta( String fname ); TransMeta( String fname, VariableSpace parentVariableSpace ); TransMeta( String fname, boolean setInternalVariables ); TransMeta( String fname, Repository rep ); TransMeta( String fname, Repository rep, boolean setInternalVariables ); TransMeta( String fname, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace ); TransMeta( String fname, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace,
OverwritePrompter prompter ); TransMeta( String fname, IMetaStore metaStore, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); TransMeta( InputStream xmlStream, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); TransMeta( Node transnode, Repository rep ); @Override int compare( TransMeta t1, TransMeta t2 ); @Override int compareTo( TransMeta o ); @Override boolean equals( Object obj ); @Override Object clone(); Object realClone( boolean doClear ); @Override void clear(); void addStep( StepMeta stepMeta ); void addOrReplaceStep( StepMeta stepMeta ); void addTransHop( TransHopMeta hi ); void addDependency( TransDependency td ); void addStep( int p, StepMeta stepMeta ); void addTransHop( int p, TransHopMeta hi ); void addDependency( int p, TransDependency td ); List<StepMeta> getSteps(); StepMeta getStep( int i ); TransHopMeta getTransHop( int i ); TransDependency getDependency( int i ); void removeStep( int i ); void removeTransHop( int i ); void removeTransHop( TransHopMeta hop ); void removeDependency( int i ); void removeAllDependencies(); int nrSteps(); int nrTransHops(); int nrDependencies(); int nrStepChangeListeners(); void setStep( int i, StepMeta stepMeta ); void setTransHop( int i, TransHopMeta hi ); List<StepMeta> getUsedSteps(); StepMeta findStep( String name ); StepMeta findStep( String name, StepMeta exclude ); TransHopMeta findTransHop( String name ); TransHopMeta findTransHopFrom( StepMeta fromstep ); List<TransHopMeta> findAllTransHopFrom( StepMeta fromstep ); TransHopMeta findTransHop( TransHopMeta hi ); TransHopMeta findTransHop( StepMeta from, StepMeta to ); TransHopMeta findTransHop( StepMeta from, StepMeta to, boolean disabledToo ); TransHopMeta findTransHopTo( StepMeta tostep ); boolean isStepInformative( StepMeta this_step, StepMeta prev_step ); @Deprecated int findNrPrevSteps( String stepname ); @Deprecated int findNrPrevSteps( String stepname, boolean info ); int findNrPrevSteps( StepMeta stepMeta ); @Deprecated StepMeta findPrevStep( String stepname, int nr ); @Deprecated StepMeta findPrevStep( String stepname, int nr, boolean info ); StepMeta findPrevStep( StepMeta stepMeta, int nr ); @Deprecated int findNrPrevSteps( StepMeta stepMeta, boolean info ); @Deprecated StepMeta findPrevStep( StepMeta stepMeta, int nr, boolean info ); List<StepMeta> findPreviousSteps( StepMeta stepMeta ); List<StepMeta> findPreviousSteps( StepMeta stepMeta, boolean info ); StepMeta[] getInfoStep( StepMeta stepMeta ); int findNrInfoSteps( StepMeta stepMeta ); RowMetaInterface getPrevInfoFields( String stepname ); RowMetaInterface getPrevInfoFields( StepMeta stepMeta ); @Deprecated int findNrNextSteps( StepMeta stepMeta ); @Deprecated StepMeta findNextStep( StepMeta stepMeta, int nr ); StepMeta[] getPrevSteps( StepMeta stepMeta ); String[] getPrevStepNames( String stepname ); String[] getPrevStepNames( StepMeta stepMeta ); @Deprecated StepMeta[] getNextSteps( StepMeta stepMeta ); List<StepMeta> findNextSteps( StepMeta stepMeta ); String[] getNextStepNames( StepMeta stepMeta ); StepMeta getStep( int x, int y, int iconsize ); boolean partOfTransHop( StepMeta stepMeta ); RowMetaInterface getStepFields( String stepname ); RowMetaInterface getStepFields( StepMeta stepMeta ); RowMetaInterface getStepFields( StepMeta[] stepMeta ); RowMetaInterface getStepFields( StepMeta stepMeta, ProgressMonitorListener monitor ); RowMetaInterface getStepFields( StepMeta stepMeta, StepMeta targetStep, ProgressMonitorListener monitor ); RowMetaInterface getPrevStepFields( String stepname ); RowMetaInterface getPrevStepFields( StepMeta stepMeta ); RowMetaInterface getPrevStepFields( StepMeta stepMeta, ProgressMonitorListener monitor ); RowMetaInterface getThisStepFields( String stepname, RowMetaInterface row ); RowMetaInterface getThisStepFields( StepMeta stepMeta, StepMeta nextStep, RowMetaInterface row ); RowMetaInterface getThisStepFields( StepMeta stepMeta, StepMeta nextStep, RowMetaInterface row,
ProgressMonitorListener monitor ); boolean isUsingPartitionSchema( PartitionSchema partitionSchema ); boolean isUsingAClusterSchema(); boolean isUsingClusterSchema( ClusterSchema clusterSchema ); boolean isUsingSlaveServer( SlaveServer slaveServer ); boolean isRepReference(); boolean isFileReference(); static boolean isRepReference( String exactFilename, String exactTransname ); static boolean isFileReference( String exactFilename, String exactTransname ); int indexOfTransHop( TransHopMeta hi ); int indexOfStep( StepMeta stepMeta ); @Override String getFileType(); @Override String[] getFilterNames(); @Override String[] getFilterExtensions(); @Override String getDefaultExtension(); @Override String getXML(); String getXML( boolean includeSteps, boolean includeDatabase, boolean includeSlaves, boolean includeClusters,
boolean includePartitions ); void loadXML( Node transnode, Repository rep, boolean setInternalVariables ); void loadXML( Node transnode, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace ); void loadXML( Node transnode, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace,
OverwritePrompter prompter ); void loadXML( Node transnode, String fname, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); void loadXML( Node transnode, String fname, IMetaStore metaStore, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); byte[] getKey(); void setKey( byte[] key ); boolean isPrivateKey(); void setPrivateKey( boolean privateKey ); @Override boolean loadSharedObject( SharedObjectInterface object ); List<StepMeta> getTransHopSteps( boolean all ); boolean isStepUsedInTransHops( StepMeta stepMeta ); boolean isAnySelectedStepUsedInTransHops(); @Override void clearChanged(); boolean haveStepsChanged(); boolean haveHopsChanged(); boolean havePartitionSchemasChanged(); boolean haveClusterSchemasChanged(); @Override boolean hasChanged(); boolean hasLoop( StepMeta stepMeta ); void selectAll(); void unselectAll(); Point[] getSelectedStepLocations(); Point[] getSelectedNoteLocations(); List<StepMeta> getSelectedSteps(); String[] getSelectedStepNames(); int[] getStepIndexes( List<StepMeta> steps ); Point getMaximum(); Point getMinimum(); String[] getStepNames(); StepMeta[] getStepsArray(); boolean findPrevious( StepMeta startStep, StepMeta stepToFind ); void sortSteps(); void sortHops(); Map<StepMeta, Map<StepMeta, Boolean>> sortStepsNatural(); void sortHopsNatural(); void analyseImpact( List<DatabaseImpact> impact, ProgressMonitorListener monitor ); String getAlternativeStepname( String stepname ); List<SQLStatement> getSQLStatements(); List<SQLStatement> getSQLStatements( ProgressMonitorListener monitor ); String getSQLStatementsString(); @Deprecated void checkSteps( List<CheckResultInterface> remarks, boolean only_selected, ProgressMonitorListener monitor ); void checkSteps( List<CheckResultInterface> remarks, boolean only_selected, ProgressMonitorListener monitor,
VariableSpace space, Repository repository, IMetaStore metaStore ); @Deprecated List<RowMetaAndData> getResultRows(); @Deprecated void setResultRows( List<RowMetaAndData> resultRows ); String getPathAndName(); @Deprecated String[] getArguments(); @Deprecated void setArguments( String[] arguments ); @Deprecated Hashtable<String, Counter> getCounters(); @Deprecated void setCounters( Hashtable<String, Counter> counters ); List<TransDependency> getDependencies(); void setDependencies( List<TransDependency> dependencies ); DatabaseMeta getMaxDateConnection(); void setMaxDateConnection( DatabaseMeta maxDateConnection ); double getMaxDateDifference(); void setMaxDateDifference( double maxDateDifference ); String getMaxDateField(); void setMaxDateField( String maxDateField ); double getMaxDateOffset(); void setMaxDateOffset( double maxDateOffset ); String getMaxDateTable(); void setMaxDateTable( String maxDateTable ); int getSizeRowset(); void setSizeRowset( int sizeRowset ); DBCache getDbCache(); void setDbCache( DBCache dbCache ); String getTransversion(); void setTransversion( String n ); void setTransstatus( int n ); int getTransstatus(); @Override String toString(); void cancelQueries(); Map<String, String> getUsedArguments( String[] arguments ); int getSleepTimeEmpty(); int getSleepTimeFull(); void setSleepTimeEmpty( int sleepTimeEmpty ); void setSleepTimeFull( int sleepTimeFull ); boolean isDatabaseConnectionUsed( DatabaseMeta databaseMeta ); List<StringSearchResult> getStringList( boolean searchSteps, boolean searchDatabases, boolean searchNotes,
boolean includePasswords ); List<StringSearchResult> getStringList( boolean searchSteps, boolean searchDatabases, boolean searchNotes ); List<String> getUsedVariables(); @Deprecated Result getPreviousResult(); @Deprecated void setPreviousResult( Result previousResult ); @Deprecated List<ResultFile> getResultFiles(); @Deprecated void setResultFiles( List<ResultFile> resultFiles ); List<PartitionSchema> getPartitionSchemas(); void setPartitionSchemas( List<PartitionSchema> partitionSchemas ); String[] getPartitionSchemasNames(); boolean isFeedbackShown(); void setFeedbackShown( boolean feedbackShown ); int getFeedbackSize(); void setFeedbackSize( int feedbackSize ); boolean isUsingUniqueConnections(); void setUsingUniqueConnections( boolean usingUniqueConnections ); List<ClusterSchema> getClusterSchemas(); void setClusterSchemas( List<ClusterSchema> clusterSchemas ); String[] getClusterSchemaNames(); PartitionSchema findPartitionSchema( String name ); ClusterSchema findClusterSchema( String name ); void addOrReplacePartitionSchema( PartitionSchema partitionSchema ); void addOrReplaceClusterSchema( ClusterSchema clusterSchema ); boolean isUsingThreadPriorityManagment(); void setUsingThreadPriorityManagment( boolean usingThreadPriorityManagment ); void checkRowMixingStatically( StepMeta stepMeta, ProgressMonitorListener monitor ); @Override void setInternalKettleVariables( VariableSpace var ); StepMeta findMappingInputStep( String stepname ); StepMeta findMappingOutputStep( String stepname ); List<ResourceReference> getResourceDependencies(); @Override String exportResources( VariableSpace space, Map<String, ResourceDefinition> definitions,
ResourceNamingInterface resourceNamingInterface, Repository repository, IMetaStore metaStore ); SlaveStepCopyPartitionDistribution getSlaveStepCopyPartitionDistribution(); void setSlaveStepCopyPartitionDistribution(
SlaveStepCopyPartitionDistribution slaveStepCopyPartitionDistribution ); ClusterSchema findFirstUsedClusterSchema(); boolean isSlaveTransformation(); void setSlaveTransformation( boolean slaveTransformation ); boolean isCapturingStepPerformanceSnapShots(); void setCapturingStepPerformanceSnapShots( boolean capturingStepPerformanceSnapShots ); long getStepPerformanceCapturingDelay(); void setStepPerformanceCapturingDelay( long stepPerformanceCapturingDelay ); String getStepPerformanceCapturingSizeLimit(); void setStepPerformanceCapturingSizeLimit( String stepPerformanceCapturingSizeLimit ); void clearCaches(); @Override RepositoryObjectType getRepositoryElementType(); LogChannelInterface getLogChannel(); @Override String getLogChannelId(); @Override LoggingObjectType getObjectType(); TransLogTable getTransLogTable(); void setTransLogTable( TransLogTable transLogTable ); PerformanceLogTable getPerformanceLogTable(); void setPerformanceLogTable( PerformanceLogTable performanceLogTable ); StepLogTable getStepLogTable(); void setStepLogTable( StepLogTable stepLogTable ); List<LogTableInterface> getLogTables(); TransformationType getTransformationType(); void setTransformationType( TransformationType transformationType ); void writeXML( String filename ); boolean hasRepositoryReferences(); void lookupRepositoryReferences( Repository repository ); MetricsLogTable getMetricsLogTable(); void setMetricsLogTable( MetricsLogTable metricsLogTable ); @Override boolean isGatheringMetrics(); @Override void setGatheringMetrics( boolean gatheringMetrics ); @Override boolean isForcingSeparateLogging(); @Override void setForcingSeparateLogging( boolean forcingSeparateLogging ); void addStepChangeListener( StepMetaChangeListenerInterface listener ); void addStepChangeListener( int p, StepMetaChangeListenerInterface list ); void removeStepChangeListener( StepMetaChangeListenerInterface list ); void notifyAllListeners( StepMeta oldMeta, StepMeta newMeta ); boolean containsStepMeta( StepMeta stepMeta ); List<MissingTrans> getMissingTrans(); void addMissingTrans( MissingTrans trans ); void removeMissingTrans( MissingTrans trans ); @Override boolean hasMissingPlugins(); @Override NamedClusterEmbedManager getNamedClusterEmbedManager( ); }
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TransMeta extends AbstractMeta implements XMLInterface, Comparator<TransMeta>, Comparable<TransMeta>, Cloneable, ResourceExportInterface,
RepositoryElementInterface, LoggingObjectInterface { public Point getMinimum() { int minx = Integer.MAX_VALUE, miny = Integer.MAX_VALUE; for ( int i = 0; i < nrSteps(); i++ ) { StepMeta stepMeta = getStep( i ); Point loc = stepMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } for ( int i = 0; i < nrNotes(); i++ ) { NotePadMeta notePadMeta = getNote( i ); Point loc = notePadMeta.getLocation(); if ( loc.x < minx ) { minx = loc.x; } if ( loc.y < miny ) { miny = loc.y; } } if ( minx > BORDER_INDENT && minx != Integer.MAX_VALUE ) { minx -= BORDER_INDENT; } else { minx = 0; } if ( miny > BORDER_INDENT && miny != Integer.MAX_VALUE ) { miny -= BORDER_INDENT; } else { miny = 0; } return new Point( minx, miny ); } TransMeta(); TransMeta( VariableSpace parent ); TransMeta( String filename, String name ); @Deprecated TransMeta( String filename, String name, String[] arguments ); TransMeta( String fname ); TransMeta( String fname, VariableSpace parentVariableSpace ); TransMeta( String fname, boolean setInternalVariables ); TransMeta( String fname, Repository rep ); TransMeta( String fname, Repository rep, boolean setInternalVariables ); TransMeta( String fname, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace ); TransMeta( String fname, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace,
OverwritePrompter prompter ); TransMeta( String fname, IMetaStore metaStore, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); TransMeta( InputStream xmlStream, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); TransMeta( Node transnode, Repository rep ); @Override int compare( TransMeta t1, TransMeta t2 ); @Override int compareTo( TransMeta o ); @Override boolean equals( Object obj ); @Override Object clone(); Object realClone( boolean doClear ); @Override void clear(); void addStep( StepMeta stepMeta ); void addOrReplaceStep( StepMeta stepMeta ); void addTransHop( TransHopMeta hi ); void addDependency( TransDependency td ); void addStep( int p, StepMeta stepMeta ); void addTransHop( int p, TransHopMeta hi ); void addDependency( int p, TransDependency td ); List<StepMeta> getSteps(); StepMeta getStep( int i ); TransHopMeta getTransHop( int i ); TransDependency getDependency( int i ); void removeStep( int i ); void removeTransHop( int i ); void removeTransHop( TransHopMeta hop ); void removeDependency( int i ); void removeAllDependencies(); int nrSteps(); int nrTransHops(); int nrDependencies(); int nrStepChangeListeners(); void setStep( int i, StepMeta stepMeta ); void setTransHop( int i, TransHopMeta hi ); List<StepMeta> getUsedSteps(); StepMeta findStep( String name ); StepMeta findStep( String name, StepMeta exclude ); TransHopMeta findTransHop( String name ); TransHopMeta findTransHopFrom( StepMeta fromstep ); List<TransHopMeta> findAllTransHopFrom( StepMeta fromstep ); TransHopMeta findTransHop( TransHopMeta hi ); TransHopMeta findTransHop( StepMeta from, StepMeta to ); TransHopMeta findTransHop( StepMeta from, StepMeta to, boolean disabledToo ); TransHopMeta findTransHopTo( StepMeta tostep ); boolean isStepInformative( StepMeta this_step, StepMeta prev_step ); @Deprecated int findNrPrevSteps( String stepname ); @Deprecated int findNrPrevSteps( String stepname, boolean info ); int findNrPrevSteps( StepMeta stepMeta ); @Deprecated StepMeta findPrevStep( String stepname, int nr ); @Deprecated StepMeta findPrevStep( String stepname, int nr, boolean info ); StepMeta findPrevStep( StepMeta stepMeta, int nr ); @Deprecated int findNrPrevSteps( StepMeta stepMeta, boolean info ); @Deprecated StepMeta findPrevStep( StepMeta stepMeta, int nr, boolean info ); List<StepMeta> findPreviousSteps( StepMeta stepMeta ); List<StepMeta> findPreviousSteps( StepMeta stepMeta, boolean info ); StepMeta[] getInfoStep( StepMeta stepMeta ); int findNrInfoSteps( StepMeta stepMeta ); RowMetaInterface getPrevInfoFields( String stepname ); RowMetaInterface getPrevInfoFields( StepMeta stepMeta ); @Deprecated int findNrNextSteps( StepMeta stepMeta ); @Deprecated StepMeta findNextStep( StepMeta stepMeta, int nr ); StepMeta[] getPrevSteps( StepMeta stepMeta ); String[] getPrevStepNames( String stepname ); String[] getPrevStepNames( StepMeta stepMeta ); @Deprecated StepMeta[] getNextSteps( StepMeta stepMeta ); List<StepMeta> findNextSteps( StepMeta stepMeta ); String[] getNextStepNames( StepMeta stepMeta ); StepMeta getStep( int x, int y, int iconsize ); boolean partOfTransHop( StepMeta stepMeta ); RowMetaInterface getStepFields( String stepname ); RowMetaInterface getStepFields( StepMeta stepMeta ); RowMetaInterface getStepFields( StepMeta[] stepMeta ); RowMetaInterface getStepFields( StepMeta stepMeta, ProgressMonitorListener monitor ); RowMetaInterface getStepFields( StepMeta stepMeta, StepMeta targetStep, ProgressMonitorListener monitor ); RowMetaInterface getPrevStepFields( String stepname ); RowMetaInterface getPrevStepFields( StepMeta stepMeta ); RowMetaInterface getPrevStepFields( StepMeta stepMeta, ProgressMonitorListener monitor ); RowMetaInterface getThisStepFields( String stepname, RowMetaInterface row ); RowMetaInterface getThisStepFields( StepMeta stepMeta, StepMeta nextStep, RowMetaInterface row ); RowMetaInterface getThisStepFields( StepMeta stepMeta, StepMeta nextStep, RowMetaInterface row,
ProgressMonitorListener monitor ); boolean isUsingPartitionSchema( PartitionSchema partitionSchema ); boolean isUsingAClusterSchema(); boolean isUsingClusterSchema( ClusterSchema clusterSchema ); boolean isUsingSlaveServer( SlaveServer slaveServer ); boolean isRepReference(); boolean isFileReference(); static boolean isRepReference( String exactFilename, String exactTransname ); static boolean isFileReference( String exactFilename, String exactTransname ); int indexOfTransHop( TransHopMeta hi ); int indexOfStep( StepMeta stepMeta ); @Override String getFileType(); @Override String[] getFilterNames(); @Override String[] getFilterExtensions(); @Override String getDefaultExtension(); @Override String getXML(); String getXML( boolean includeSteps, boolean includeDatabase, boolean includeSlaves, boolean includeClusters,
boolean includePartitions ); void loadXML( Node transnode, Repository rep, boolean setInternalVariables ); void loadXML( Node transnode, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace ); void loadXML( Node transnode, Repository rep, boolean setInternalVariables, VariableSpace parentVariableSpace,
OverwritePrompter prompter ); void loadXML( Node transnode, String fname, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); void loadXML( Node transnode, String fname, IMetaStore metaStore, Repository rep, boolean setInternalVariables,
VariableSpace parentVariableSpace, OverwritePrompter prompter ); byte[] getKey(); void setKey( byte[] key ); boolean isPrivateKey(); void setPrivateKey( boolean privateKey ); @Override boolean loadSharedObject( SharedObjectInterface object ); List<StepMeta> getTransHopSteps( boolean all ); boolean isStepUsedInTransHops( StepMeta stepMeta ); boolean isAnySelectedStepUsedInTransHops(); @Override void clearChanged(); boolean haveStepsChanged(); boolean haveHopsChanged(); boolean havePartitionSchemasChanged(); boolean haveClusterSchemasChanged(); @Override boolean hasChanged(); boolean hasLoop( StepMeta stepMeta ); void selectAll(); void unselectAll(); Point[] getSelectedStepLocations(); Point[] getSelectedNoteLocations(); List<StepMeta> getSelectedSteps(); String[] getSelectedStepNames(); int[] getStepIndexes( List<StepMeta> steps ); Point getMaximum(); Point getMinimum(); String[] getStepNames(); StepMeta[] getStepsArray(); boolean findPrevious( StepMeta startStep, StepMeta stepToFind ); void sortSteps(); void sortHops(); Map<StepMeta, Map<StepMeta, Boolean>> sortStepsNatural(); void sortHopsNatural(); void analyseImpact( List<DatabaseImpact> impact, ProgressMonitorListener monitor ); String getAlternativeStepname( String stepname ); List<SQLStatement> getSQLStatements(); List<SQLStatement> getSQLStatements( ProgressMonitorListener monitor ); String getSQLStatementsString(); @Deprecated void checkSteps( List<CheckResultInterface> remarks, boolean only_selected, ProgressMonitorListener monitor ); void checkSteps( List<CheckResultInterface> remarks, boolean only_selected, ProgressMonitorListener monitor,
VariableSpace space, Repository repository, IMetaStore metaStore ); @Deprecated List<RowMetaAndData> getResultRows(); @Deprecated void setResultRows( List<RowMetaAndData> resultRows ); String getPathAndName(); @Deprecated String[] getArguments(); @Deprecated void setArguments( String[] arguments ); @Deprecated Hashtable<String, Counter> getCounters(); @Deprecated void setCounters( Hashtable<String, Counter> counters ); List<TransDependency> getDependencies(); void setDependencies( List<TransDependency> dependencies ); DatabaseMeta getMaxDateConnection(); void setMaxDateConnection( DatabaseMeta maxDateConnection ); double getMaxDateDifference(); void setMaxDateDifference( double maxDateDifference ); String getMaxDateField(); void setMaxDateField( String maxDateField ); double getMaxDateOffset(); void setMaxDateOffset( double maxDateOffset ); String getMaxDateTable(); void setMaxDateTable( String maxDateTable ); int getSizeRowset(); void setSizeRowset( int sizeRowset ); DBCache getDbCache(); void setDbCache( DBCache dbCache ); String getTransversion(); void setTransversion( String n ); void setTransstatus( int n ); int getTransstatus(); @Override String toString(); void cancelQueries(); Map<String, String> getUsedArguments( String[] arguments ); int getSleepTimeEmpty(); int getSleepTimeFull(); void setSleepTimeEmpty( int sleepTimeEmpty ); void setSleepTimeFull( int sleepTimeFull ); boolean isDatabaseConnectionUsed( DatabaseMeta databaseMeta ); List<StringSearchResult> getStringList( boolean searchSteps, boolean searchDatabases, boolean searchNotes,
boolean includePasswords ); List<StringSearchResult> getStringList( boolean searchSteps, boolean searchDatabases, boolean searchNotes ); List<String> getUsedVariables(); @Deprecated Result getPreviousResult(); @Deprecated void setPreviousResult( Result previousResult ); @Deprecated List<ResultFile> getResultFiles(); @Deprecated void setResultFiles( List<ResultFile> resultFiles ); List<PartitionSchema> getPartitionSchemas(); void setPartitionSchemas( List<PartitionSchema> partitionSchemas ); String[] getPartitionSchemasNames(); boolean isFeedbackShown(); void setFeedbackShown( boolean feedbackShown ); int getFeedbackSize(); void setFeedbackSize( int feedbackSize ); boolean isUsingUniqueConnections(); void setUsingUniqueConnections( boolean usingUniqueConnections ); List<ClusterSchema> getClusterSchemas(); void setClusterSchemas( List<ClusterSchema> clusterSchemas ); String[] getClusterSchemaNames(); PartitionSchema findPartitionSchema( String name ); ClusterSchema findClusterSchema( String name ); void addOrReplacePartitionSchema( PartitionSchema partitionSchema ); void addOrReplaceClusterSchema( ClusterSchema clusterSchema ); boolean isUsingThreadPriorityManagment(); void setUsingThreadPriorityManagment( boolean usingThreadPriorityManagment ); void checkRowMixingStatically( StepMeta stepMeta, ProgressMonitorListener monitor ); @Override void setInternalKettleVariables( VariableSpace var ); StepMeta findMappingInputStep( String stepname ); StepMeta findMappingOutputStep( String stepname ); List<ResourceReference> getResourceDependencies(); @Override String exportResources( VariableSpace space, Map<String, ResourceDefinition> definitions,
ResourceNamingInterface resourceNamingInterface, Repository repository, IMetaStore metaStore ); SlaveStepCopyPartitionDistribution getSlaveStepCopyPartitionDistribution(); void setSlaveStepCopyPartitionDistribution(
SlaveStepCopyPartitionDistribution slaveStepCopyPartitionDistribution ); ClusterSchema findFirstUsedClusterSchema(); boolean isSlaveTransformation(); void setSlaveTransformation( boolean slaveTransformation ); boolean isCapturingStepPerformanceSnapShots(); void setCapturingStepPerformanceSnapShots( boolean capturingStepPerformanceSnapShots ); long getStepPerformanceCapturingDelay(); void setStepPerformanceCapturingDelay( long stepPerformanceCapturingDelay ); String getStepPerformanceCapturingSizeLimit(); void setStepPerformanceCapturingSizeLimit( String stepPerformanceCapturingSizeLimit ); void clearCaches(); @Override RepositoryObjectType getRepositoryElementType(); LogChannelInterface getLogChannel(); @Override String getLogChannelId(); @Override LoggingObjectType getObjectType(); TransLogTable getTransLogTable(); void setTransLogTable( TransLogTable transLogTable ); PerformanceLogTable getPerformanceLogTable(); void setPerformanceLogTable( PerformanceLogTable performanceLogTable ); StepLogTable getStepLogTable(); void setStepLogTable( StepLogTable stepLogTable ); List<LogTableInterface> getLogTables(); TransformationType getTransformationType(); void setTransformationType( TransformationType transformationType ); void writeXML( String filename ); boolean hasRepositoryReferences(); void lookupRepositoryReferences( Repository repository ); MetricsLogTable getMetricsLogTable(); void setMetricsLogTable( MetricsLogTable metricsLogTable ); @Override boolean isGatheringMetrics(); @Override void setGatheringMetrics( boolean gatheringMetrics ); @Override boolean isForcingSeparateLogging(); @Override void setForcingSeparateLogging( boolean forcingSeparateLogging ); void addStepChangeListener( StepMetaChangeListenerInterface listener ); void addStepChangeListener( int p, StepMetaChangeListenerInterface list ); void removeStepChangeListener( StepMetaChangeListenerInterface list ); void notifyAllListeners( StepMeta oldMeta, StepMeta newMeta ); boolean containsStepMeta( StepMeta stepMeta ); List<MissingTrans> getMissingTrans(); void addMissingTrans( MissingTrans trans ); void removeMissingTrans( MissingTrans trans ); @Override boolean hasMissingPlugins(); @Override NamedClusterEmbedManager getNamedClusterEmbedManager( ); static final String XML_TAG; static final String STRING_TRANSMETA; static final RepositoryObjectType REPOSITORY_ELEMENT_TYPE; static final int BORDER_INDENT; static final String[] desc_type_undo; static final String XML_TAG_ORDER; static final String XML_TAG_NOTEPADS; static final String XML_TAG_PARAMETERS; static final String XML_TAG_PARTITIONSCHEMAS; static final String XML_TAG_SLAVESERVERS; static final String XML_TAG_CLUSTERSCHEMAS; static final String XML_TAG_STEP_ERROR_HANDLING; }
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@Test( expected = DuplicateParamException.class ) public void testAddParameterDefinitionWithException() throws DuplicateParamException { namedParams.addParameterDefinition( "key", "value", "description" ); namedParams.addParameterDefinition( "key", "value", "description" ); }
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@Override public void addParameterDefinition( String key, String defValue, String description ) throws DuplicateParamException { if ( params.get( key ) == null ) { OneNamedParam oneParam = new OneNamedParam(); oneParam.key = key; oneParam.defaultValue = defValue; oneParam.description = description; oneParam.value = ""; params.put( key, oneParam ); } else { throw new DuplicateParamException( "Duplicate parameter '" + key + "' detected." ); } }
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NamedParamsDefault implements NamedParams { @Override public void addParameterDefinition( String key, String defValue, String description ) throws DuplicateParamException { if ( params.get( key ) == null ) { OneNamedParam oneParam = new OneNamedParam(); oneParam.key = key; oneParam.defaultValue = defValue; oneParam.description = description; oneParam.value = ""; params.put( key, oneParam ); } else { throw new DuplicateParamException( "Duplicate parameter '" + key + "' detected." ); } } }
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NamedParamsDefault implements NamedParams { @Override public void addParameterDefinition( String key, String defValue, String description ) throws DuplicateParamException { if ( params.get( key ) == null ) { OneNamedParam oneParam = new OneNamedParam(); oneParam.key = key; oneParam.defaultValue = defValue; oneParam.description = description; oneParam.value = ""; params.put( key, oneParam ); } else { throw new DuplicateParamException( "Duplicate parameter '" + key + "' detected." ); } } NamedParamsDefault(); }
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NamedParamsDefault implements NamedParams { @Override public void addParameterDefinition( String key, String defValue, String description ) throws DuplicateParamException { if ( params.get( key ) == null ) { OneNamedParam oneParam = new OneNamedParam(); oneParam.key = key; oneParam.defaultValue = defValue; oneParam.description = description; oneParam.value = ""; params.put( key, oneParam ); } else { throw new DuplicateParamException( "Duplicate parameter '" + key + "' detected." ); } } NamedParamsDefault(); @Override void addParameterDefinition( String key, String defValue, String description ); @Override String getParameterDescription( String key ); @Override String getParameterValue( String key ); @Override String getParameterDefault( String key ); @Override String[] listParameters(); @Override void setParameterValue( String key, String value ); @Override void eraseParameters(); @Override void clearParameters(); @Override void activateParameters(); @Override void copyParametersFrom( NamedParams aParam ); }
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NamedParamsDefault implements NamedParams { @Override public void addParameterDefinition( String key, String defValue, String description ) throws DuplicateParamException { if ( params.get( key ) == null ) { OneNamedParam oneParam = new OneNamedParam(); oneParam.key = key; oneParam.defaultValue = defValue; oneParam.description = description; oneParam.value = ""; params.put( key, oneParam ); } else { throw new DuplicateParamException( "Duplicate parameter '" + key + "' detected." ); } } NamedParamsDefault(); @Override void addParameterDefinition( String key, String defValue, String description ); @Override String getParameterDescription( String key ); @Override String getParameterValue( String key ); @Override String getParameterDefault( String key ); @Override String[] listParameters(); @Override void setParameterValue( String key, String value ); @Override void eraseParameters(); @Override void clearParameters(); @Override void activateParameters(); @Override void copyParametersFrom( NamedParams aParam ); }
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@Test public void testCopyParametersFromNullChecks() throws Exception { namedParams.copyParametersFrom( null ); NamedParams namedParams2 = new NamedParamsDefault(); ( (NamedParamsDefault) namedParams ).params = null; namedParams.copyParametersFrom( namedParams2 ); }
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@Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } }
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NamedParamsDefault implements NamedParams { @Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } } }
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NamedParamsDefault implements NamedParams { @Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } } NamedParamsDefault(); }
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NamedParamsDefault implements NamedParams { @Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } } NamedParamsDefault(); @Override void addParameterDefinition( String key, String defValue, String description ); @Override String getParameterDescription( String key ); @Override String getParameterValue( String key ); @Override String getParameterDefault( String key ); @Override String[] listParameters(); @Override void setParameterValue( String key, String value ); @Override void eraseParameters(); @Override void clearParameters(); @Override void activateParameters(); @Override void copyParametersFrom( NamedParams aParam ); }
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NamedParamsDefault implements NamedParams { @Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } } NamedParamsDefault(); @Override void addParameterDefinition( String key, String defValue, String description ); @Override String getParameterDescription( String key ); @Override String getParameterValue( String key ); @Override String getParameterDefault( String key ); @Override String[] listParameters(); @Override void setParameterValue( String key, String value ); @Override void eraseParameters(); @Override void clearParameters(); @Override void activateParameters(); @Override void copyParametersFrom( NamedParams aParam ); }
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@Test public void testCopyParametersFrom() throws Exception { NamedParams namedParams2 = new NamedParamsDefault(); namedParams2.addParameterDefinition( "key", "default value", "description" ); namedParams2.setParameterValue( "key", "value" ); assertNull( namedParams.getParameterValue( "key" ) ); namedParams.copyParametersFrom( namedParams2 ); assertEquals( "value", namedParams.getParameterValue( "key" ) ); }
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@Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } }
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NamedParamsDefault implements NamedParams { @Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } } }
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NamedParamsDefault implements NamedParams { @Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } } NamedParamsDefault(); }
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NamedParamsDefault implements NamedParams { @Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } } NamedParamsDefault(); @Override void addParameterDefinition( String key, String defValue, String description ); @Override String getParameterDescription( String key ); @Override String getParameterValue( String key ); @Override String getParameterDefault( String key ); @Override String[] listParameters(); @Override void setParameterValue( String key, String value ); @Override void eraseParameters(); @Override void clearParameters(); @Override void activateParameters(); @Override void copyParametersFrom( NamedParams aParam ); }
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NamedParamsDefault implements NamedParams { @Override public void copyParametersFrom( NamedParams aParam ) { if ( params != null && aParam != null ) { params.clear(); String[] keys = aParam.listParameters(); for ( int idx = 0; idx < keys.length; idx++ ) { String desc; try { desc = aParam.getParameterDescription( keys[idx] ); } catch ( UnknownParamException e ) { desc = ""; } String defValue; try { defValue = aParam.getParameterDefault( keys[idx] ); } catch ( UnknownParamException e ) { defValue = ""; } String value; try { value = aParam.getParameterValue( keys[idx] ); } catch ( UnknownParamException e ) { value = ""; } try { addParameterDefinition( keys[idx], defValue, desc ); } catch ( DuplicateParamException e ) { } setParameterValue( keys[idx], value ); } } } NamedParamsDefault(); @Override void addParameterDefinition( String key, String defValue, String description ); @Override String getParameterDescription( String key ); @Override String getParameterValue( String key ); @Override String getParameterDefault( String key ); @Override String[] listParameters(); @Override void setParameterValue( String key, String value ); @Override void eraseParameters(); @Override void clearParameters(); @Override void activateParameters(); @Override void copyParametersFrom( NamedParams aParam ); }
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@Test public void testLoadClass() throws Exception { final String classToLoad = "dummy.Class"; final AtomicBoolean loadClassCalled = new AtomicBoolean(); ClassLoader parent = new ClassLoader() { @Override protected Class<?> loadClass( String name, boolean resolve ) throws ClassNotFoundException { if ( name.equals( classToLoad ) && !resolve ) { loadClassCalled.set( true ); } throw new NoClassDefFoundError(); } }; PDIClassLoader cl = new PDIClassLoader( parent ); try { cl.loadClass( classToLoad, true ); fail( "This class doesn't exist" ); } catch ( ClassNotFoundException cnfe ) { assertTrue( loadClassCalled.get() ); } }
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@Override protected synchronized Class<?> loadClass( String name, boolean resolve ) throws ClassNotFoundException { try { return super.loadClass( name, resolve ); } catch ( NoClassDefFoundError e ) { return super.findClass( name ); } }
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PDIClassLoader extends URLClassLoader { @Override protected synchronized Class<?> loadClass( String name, boolean resolve ) throws ClassNotFoundException { try { return super.loadClass( name, resolve ); } catch ( NoClassDefFoundError e ) { return super.findClass( name ); } } }
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PDIClassLoader extends URLClassLoader { @Override protected synchronized Class<?> loadClass( String name, boolean resolve ) throws ClassNotFoundException { try { return super.loadClass( name, resolve ); } catch ( NoClassDefFoundError e ) { return super.findClass( name ); } } PDIClassLoader( URL[] url, ClassLoader parent ); PDIClassLoader( ClassLoader parent ); }
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PDIClassLoader extends URLClassLoader { @Override protected synchronized Class<?> loadClass( String name, boolean resolve ) throws ClassNotFoundException { try { return super.loadClass( name, resolve ); } catch ( NoClassDefFoundError e ) { return super.findClass( name ); } } PDIClassLoader( URL[] url, ClassLoader parent ); PDIClassLoader( ClassLoader parent ); }
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PDIClassLoader extends URLClassLoader { @Override protected synchronized Class<?> loadClass( String name, boolean resolve ) throws ClassNotFoundException { try { return super.loadClass( name, resolve ); } catch ( NoClassDefFoundError e ) { return super.findClass( name ); } } PDIClassLoader( URL[] url, ClassLoader parent ); PDIClassLoader( ClassLoader parent ); }
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