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src_fm_fc_ms_ff_method2testcases_v0

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DefaultPreconditions implements Preconditions { @Override public boolean isConnected(TGDevice device) { return device != null && device.getState() == TGDevice.STATE_CONNECTED; } @Override boolean isConnecting(TGDevice device); @Override boolean isConnected(TGDevice device); @Override boolean canConnect(TGDevice device); @Override boolean isBluetoothAdapterInitialized(); @Override boolean isBluetoothAdapterInitialized(BluetoothAdapter bluetoothAdapter); @Override boolean isBluetoothEnabled(); @Override boolean isBluetoothEnabled(BluetoothAdapter bluetoothAdapter); }	@Test public void shouldBeConnected() { when(tgDevice.getState()).thenReturn(TGDevice.STATE_CONNECTED); boolean isConnected = preconditions.isConnected(tgDevice); assertThat(isConnected).isTrue(); } @Test public void shouldNotBeConnected() { when(tgDevice.getState()).thenReturn(TGDevice.STATE_DISCONNECTED); boolean isConnected = preconditions.isConnected(tgDevice); assertThat(isConnected).isFalse(); } @Test public void shouldNotBeConnectedWhenDeviceIsNull() { boolean isConnected = preconditions.isConnected(null); assertThat(isConnected).isFalse(); }
DefaultPreconditions implements Preconditions { @Override public boolean canConnect(TGDevice device) { return !isConnecting(device) && !isConnected(device); } @Override boolean isConnecting(TGDevice device); @Override boolean isConnected(TGDevice device); @Override boolean canConnect(TGDevice device); @Override boolean isBluetoothAdapterInitialized(); @Override boolean isBluetoothAdapterInitialized(BluetoothAdapter bluetoothAdapter); @Override boolean isBluetoothEnabled(); @Override boolean isBluetoothEnabled(BluetoothAdapter bluetoothAdapter); }	@Test public void shouldBeAbleToConnect() { when(tgDevice.getState()).thenReturn(TGDevice.STATE_DISCONNECTED); boolean isConnected = preconditions.canConnect(tgDevice); assertThat(isConnected).isTrue(); } @Test public void shouldNotBeAbleToConnectWhenConnecting() { when(tgDevice.getState()).thenReturn(TGDevice.STATE_CONNECTING); boolean isConnected = preconditions.canConnect(tgDevice); assertThat(isConnected).isFalse(); } @Test public void shouldNotBeAbleToConnectWhenConnected() { when(tgDevice.getState()).thenReturn(TGDevice.STATE_CONNECTED); boolean isConnected = preconditions.canConnect(tgDevice); assertThat(isConnected).isFalse(); }
MDSHiveParserOutputFormat extends FileOutputFormat<NullWritable,ParserWritable> implements HiveOutputFormat<NullWritable,ParserWritable> { @Override public RecordWriter<NullWritable, ParserWritable> getRecordWriter( final FileSystem ignored, final JobConf job, final String name, final Progressable progress) throws IOException { throw new RuntimeException("Should never be used"); } @Override RecordWriter<NullWritable, ParserWritable> getRecordWriter( final FileSystem ignored, final JobConf job, final String name, final Progressable progress); @Override org.apache.hadoop.hive.ql.exec.FileSinkOperator.RecordWriter getHiveRecordWriter( final JobConf job , final Path outputPath , final Class<? extends Writable> valueClass , final boolean isCompressed , final Properties tableProperties , final Progressable progress ); }	@Test public void T_getRecordWriter() throws IOException{ MDSHiveParserOutputFormat a = new MDSHiveParserOutputFormat(); assertThrows( RuntimeException.class , () -> { a.getRecordWriter( null , null , "hoge" , null ); } ); }
UnsupportedBlockIndex implements IBlockIndex { @Override public List<Integer> getBlockSpreadIndex( final IFilter filter ){ return null; } @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); static final IBlockIndex INSTANCE; }	@Test public void T_canBlockSkip_1(){ assertEquals( UnsupportedBlockIndex.INSTANCE.getBlockSpreadIndex( null ) , null ); }
FindBlockIndex { public static IBlockIndex get( final String target ) throws IOException{ IBlockIndex cacheResult = CACHE.get( target ); if( cacheResult != null ){ return cacheResult.getNewInstance(); } if( target == null \|\| target.isEmpty() ){ throw new IOException( "IBlockIndex class name is null or empty." ); } Object obj = FindClass.getObject( target , true , FindBlockIndex.class.getClassLoader() ); if( ! ( obj instanceof IBlockIndex ) ){ throw new IOException( "Invalid IBlockIndex class : " + target ); } CACHE.put( target , (IBlockIndex)obj ); return ( (IBlockIndex)obj ).getNewInstance(); } private FindBlockIndex(); static IBlockIndex get( final String target ); }	@Test public void T_get_2() throws IOException{ assertThrows( IOException.class , () -> { FindBlockIndex.get( null ); } ); } @Test public void T_get_3() throws IOException{ assertThrows( IOException.class , () -> { FindBlockIndex.get( "" ); } ); } @Test public void T_get_4() throws IOException{ assertThrows( IOException.class , () -> { FindBlockIndex.get( "java.lang.String" ); } ); } @Test public void T_get_5() throws IOException{ assertThrows( IOException.class , () -> { FindBlockIndex.get( "___HOGEHOGE__" ); } ); }
LongRangeBlockIndex implements IBlockIndex { @Override public BlockIndexType getBlockIndexType(){ return BlockIndexType.RANGE_LONG; } LongRangeBlockIndex(); LongRangeBlockIndex( final long min , final long max ); @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); long getMin(); long getMax(); @Override String toString(); }	@Test public void T_getBlockIndexType_1(){ IBlockIndex bIndex = new LongRangeBlockIndex(); assertEquals( BlockIndexType.RANGE_LONG , bIndex.getBlockIndexType() ); }
LongRangeBlockIndex implements IBlockIndex { @Override public int getBinarySize(){ return Long.BYTES * 2; } LongRangeBlockIndex(); LongRangeBlockIndex( final long min , final long max ); @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); long getMin(); long getMax(); @Override String toString(); }	@Test public void T_getBinarySize_1(){ LongRangeBlockIndex bIndex = new LongRangeBlockIndex( (long)10 , (long)20 ); assertEquals( Long.BYTES * 2 , bIndex.getBinarySize() ); }
DoubleRangeBlockIndex implements IBlockIndex { @Override public BlockIndexType getBlockIndexType(){ return BlockIndexType.RANGE_DOUBLE; } DoubleRangeBlockIndex(); DoubleRangeBlockIndex( final Double min , final Double max ); @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); Double getMin(); Double getMax(); }	@Test public void T_getBlockIndexType_1(){ IBlockIndex bIndex = new DoubleRangeBlockIndex(); assertEquals( BlockIndexType.RANGE_DOUBLE , bIndex.getBlockIndexType() ); }
DoubleRangeBlockIndex implements IBlockIndex { @Override public int getBinarySize(){ return Double.BYTES * 2; } DoubleRangeBlockIndex(); DoubleRangeBlockIndex( final Double min , final Double max ); @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); Double getMin(); Double getMax(); }	@Test public void T_getBinarySize_1(){ DoubleRangeBlockIndex bIndex = new DoubleRangeBlockIndex( (double)10 , (double)20 ); assertEquals( Double.BYTES * 2 , bIndex.getBinarySize() ); }
ShortRangeBlockIndex implements IBlockIndex { @Override public BlockIndexType getBlockIndexType(){ return BlockIndexType.RANGE_SHORT; } ShortRangeBlockIndex(); ShortRangeBlockIndex( final short min , final short max ); @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); short getMin(); short getMax(); }	@Test public void T_getBlockIndexType_1(){ IBlockIndex bIndex = new ShortRangeBlockIndex(); assertEquals( BlockIndexType.RANGE_SHORT , bIndex.getBlockIndexType() ); }
ParserWritable implements Writable { @Override public void readFields( final DataInput dataInput ) throws IOException { throw new UnsupportedOperationException("readFields unsupported"); } void set( final IParser parser ); @Override void write( final DataOutput dataOutput ); @Override void readFields( final DataInput dataInput ); public IParser parser; }	@Test public void T_readFields_1() throws IOException{ ParserWritable writable = new ParserWritable(); assertThrows( UnsupportedOperationException.class , () -> { writable.readFields( null ); } ); }
ShortRangeBlockIndex implements IBlockIndex { @Override public int getBinarySize(){ return Short.BYTES * 2; } ShortRangeBlockIndex(); ShortRangeBlockIndex( final short min , final short max ); @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); short getMin(); short getMax(); }	@Test public void T_getBinarySize_1(){ ShortRangeBlockIndex bIndex = new ShortRangeBlockIndex( (short)10 , (short)20 ); assertEquals( 4 , bIndex.getBinarySize() ); }
IntegerRangeBlockIndex implements IBlockIndex { @Override public BlockIndexType getBlockIndexType(){ return BlockIndexType.RANGE_INTEGER; } IntegerRangeBlockIndex(); IntegerRangeBlockIndex( final int min , final int max ); @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); int getMin(); int getMax(); }	@Test public void T_getBlockIndexType_1(){ IBlockIndex bIndex = new IntegerRangeBlockIndex(); assertEquals( BlockIndexType.RANGE_INTEGER , bIndex.getBlockIndexType() ); }
IntegerRangeBlockIndex implements IBlockIndex { @Override public int getBinarySize(){ return Integer.BYTES * 2; } IntegerRangeBlockIndex(); IntegerRangeBlockIndex( final int min , final int max ); @Override BlockIndexType getBlockIndexType(); @Override boolean merge( final IBlockIndex blockIndex ); @Override int getBinarySize(); @Override byte[] toBinary(); @Override void setFromBinary( final byte[] buffer , final int start , final int length ); @Override List<Integer> getBlockSpreadIndex( final IFilter filter ); @Override IBlockIndex getNewInstance(); int getMin(); int getMax(); }	@Test public void T_getBinarySize_1(){ IntegerRangeBlockIndex bIndex = new IntegerRangeBlockIndex( (int)10 , (int)20 ); assertEquals( Integer.BYTES * 2 , bIndex.getBinarySize() ); }
CollectionUtils { public static List<Integer> unionFromSortedCollection( final List<Integer> list1 , final List<Integer> list2 ){ List<Integer> result = new ArrayList<Integer>(); List<Integer> loopTarget; List<Integer> compreTarget; if( list1.size() < list2.size() ){ loopTarget = list2; compreTarget = list1; } else{ loopTarget = list1; compreTarget = list2; } int compreTargetIndex = 0; for( int i = 0 ; i < loopTarget.size() ; i++ ){ if( compreTargetIndex == compreTarget.size() ){ for( int ii = i ; ii < loopTarget.size() ; ii++ ){ result.add( loopTarget.get( ii ) ); } break; } int loopIndex = loopTarget.get( i ).intValue(); while( compreTarget.get( compreTargetIndex ).intValue() < loopIndex ){ result.add( compreTarget.get( compreTargetIndex ) ); compreTargetIndex++; if( compreTargetIndex == compreTarget.size() ){ break; } } result.add( loopTarget.get( i ) ); } if( compreTargetIndex < compreTarget.size() ){ for( int i = compreTargetIndex ; i < compreTarget.size() ; i++ ){ result.add( compreTarget.get( i ) ); } } return result; } private CollectionUtils(); static List<Integer> intersectionFromSortedCollection( final List<Integer> list1 , final List<Integer> list2 ); static List<Integer> unionFromSortedCollection( final List<Integer> list1 , final List<Integer> list2 ); }	@Test public void T_unionFromSortedCollection_1(){ List<Integer> a = new ArrayList<Integer>(); a.add( 0 ); a.add( 6 ); List<Integer> b = new ArrayList<Integer>(); b.add( 1 ); b.add( 2 ); b.add( 6 ); List<Integer> result = CollectionUtils.unionFromSortedCollection( a , b ); assertEquals( result.get(0).intValue() , 0 ); assertEquals( result.get(1).intValue() , 1 ); assertEquals( result.get(2).intValue() , 2 ); assertEquals( result.get(3).intValue() , 6 ); } @Test public void T_unionFromSortedCollection_2(){ List<Integer> a = new ArrayList<Integer>(); a.add( 0 ); a.add( 6 ); List<Integer> b = new ArrayList<Integer>(); List<Integer> result = CollectionUtils.unionFromSortedCollection( a , b ); assertEquals( result.get(0).intValue() , 0 ); assertEquals( result.get(1).intValue() , 6 ); } @Test public void T_unionFromSortedCollection_3(){ List<Integer> a = new ArrayList<Integer>(); a.add( 0 ); a.add( 6 ); List<Integer> b = new ArrayList<Integer>(); b.add( 1 ); b.add( 2 ); b.add( 6 ); List<Integer> result = CollectionUtils.unionFromSortedCollection( b , a ); assertEquals( result.get(0).intValue() , 0 ); assertEquals( result.get(1).intValue() , 1 ); assertEquals( result.get(2).intValue() , 2 ); assertEquals( result.get(3).intValue() , 6 ); } @Test public void T_unionFromSortedCollection_4(){ List<Integer> a = new ArrayList<Integer>(); a.add( 0 ); a.add( 6 ); List<Integer> b = new ArrayList<Integer>(); List<Integer> result = CollectionUtils.unionFromSortedCollection( b , a ); assertEquals( result.get(0).intValue() , 0 ); assertEquals( result.get(1).intValue() , 6 ); } @Test public void T_unionFromSortedCollection_5(){ List<Integer> a = new ArrayList<Integer>(); a.add( 2 ); List<Integer> b = new ArrayList<Integer>(); b.add( 5 ); List<Integer> result = CollectionUtils.unionFromSortedCollection( b , a ); assertEquals( result.get(0).intValue() , 2 ); assertEquals( result.get(1).intValue() , 5 ); } @Test public void T_unionFromSortedCollection_6(){ List<Integer> a = new ArrayList<Integer>(); a.add( 0 ); List<Integer> b = new ArrayList<Integer>(); b.add( 2 ); List<Integer> result = CollectionUtils.unionFromSortedCollection( a , b ); assertEquals( result.get(0).intValue() , 0 ); assertEquals( result.get(1).intValue() , 2 ); }
FindColumnBinaryMaker { public static IColumnBinaryMaker get( final String target ) throws IOException{ if( CACHE.containsKey( target ) ){ return CACHE.get( target ); } if( target == null \|\| target.isEmpty() ){ throw new IOException( "IColumnBinaryMaker class name is null or empty." ); } Object obj = FindClass.getObject( target , true , FindColumnBinaryMaker.class.getClassLoader() ); if( ! ( obj instanceof IColumnBinaryMaker ) ){ throw new IOException( "Invalid IColumnBinaryMaker class : " + target ); } if( ! CACHE.containsKey( target ) ){ synchronized( LOCK ){ if( ! CACHE.containsKey( target ) ){ CACHE.put( target , (IColumnBinaryMaker)obj ); } } } return (IColumnBinaryMaker)obj; } private FindColumnBinaryMaker(); static IColumnBinaryMaker get( final String target ); }	@Test public void T_get_1() throws IOException{ IColumnBinaryMaker maker = FindColumnBinaryMaker.get( UnsupportedColumnBinaryMaker.class.getName() ); assertTrue( maker instanceof UnsupportedColumnBinaryMaker ); } @Test public void T_get_2() throws IOException{ assertThrows( IOException.class , () -> { IColumnBinaryMaker maker = FindColumnBinaryMaker.get( null ); } ); } @Test public void T_get_3() throws IOException{ assertThrows( IOException.class , () -> { IColumnBinaryMaker maker = FindColumnBinaryMaker.get( "" ); } ); } @Test public void T_get_4() throws IOException{ assertThrows( IOException.class , () -> { IColumnBinaryMaker maker = FindColumnBinaryMaker.get( "java.lang.String" ); } ); } @Test public void T_get_5() throws IOException{ assertThrows( IOException.class , () -> { IColumnBinaryMaker maker = FindColumnBinaryMaker.get( "____TEST____" ); } ); }
MDSMapObjectInspector implements SettableMapObjectInspector { @Override public ObjectInspector getMapKeyObjectInspector(){ return keyObjectInspector; } MDSMapObjectInspector( final MapTypeInfo typeInfo ); @Override ObjectInspector getMapKeyObjectInspector(); @Override ObjectInspector getMapValueObjectInspector(); @Override Object getMapValueElement( final Object object, final Object key ); @Override Map<?, ?> getMap( final Object object ); @Override int getMapSize( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create(); @Override Object put( final Object map, final Object key, final Object value ); @Override Object remove( final Object map , final Object key ); @Override Object clear( final Object map ); }	@Test public void T_getMapKeyObjectInspector_1(){ MapTypeInfo info = new MapTypeInfo(); info.setMapKeyTypeInfo( TypeInfoFactory.stringTypeInfo ); info.setMapValueTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSMapObjectInspector inspector = new MDSMapObjectInspector( info ); assertTrue( inspector.getMapKeyObjectInspector() instanceof StringObjectInspector ); }
UnsafeOptimizeFloatColumnBinaryMaker implements IColumnBinaryMaker { public static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ){ if( dicIndexLength <= NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ){ return new ByteDictionaryIndexMaker(); } else if( dicIndexLength <= NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ){ return new ShortDictionaryIndexMaker(); } else{ return new IntDictionaryIndexMaker(); } } static IDictionaryMaker chooseDictionaryMaker( final float min , final float max ); static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_chooseDictionaryIndexMaker_1(){ assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( -1 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( 0 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( 128 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH - 1 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ByteDictionaryIndexMaker ); assertFalse( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ByteDictionaryIndexMaker ); } @Test public void T_chooseDictionaryIndexMaker_2(){ assertFalse( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( 30000 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH - 1 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ShortDictionaryIndexMaker ); assertFalse( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.ShortDictionaryIndexMaker ); } @Test public void T_chooseDictionaryIndexMaker_3(){ assertFalse( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.IntDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.IntDictionaryIndexMaker ); assertTrue( UnsafeOptimizeFloatColumnBinaryMaker.chooseDictionaryIndexMaker( Integer.MAX_VALUE ) instanceof UnsafeOptimizeFloatColumnBinaryMaker.IntDictionaryIndexMaker ); }
LazyColumn implements IColumn { @Override public int add( final ColumnType type , final Object obj , final int index ) throws IOException{ return columnManager.get().add( type , obj , index ); } LazyColumn( final String columnName , final ColumnType columnType , final IColumnManager columnManager ); @Override void setColumnName( final String columnName ); @Override String getColumnName(); @Override ColumnType getColumnType(); @Override void setParentsColumn( final IColumn parentsColumn ); @Override IColumn getParentsColumn(); @Override int add( final ColumnType type , final Object obj , final int index ); @Override void addCell( final ColumnType type , final ICell cell , final int index ); @Override ICellManager getCellManager(); @Override void setCellManager( final ICellManager cellManager ); @Override ICell get( final int index ); @Override List<String> getColumnKeys(); @Override int getColumnSize(); @Override List<IColumn> getListColumn(); @Override IColumn getColumn( final int index ); @Override IColumn getColumn( final String columnName ); @Override IColumn getColumn( final ColumnType type ); @Override void setDefaultCell( final ICell defaultCell ); @Override int size(); @Override IField getSchema(); @Override IField getSchema( final String schemaName ); @Override void setIndex( final ICellIndex index ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); @Override PrimitiveObject[] getPrimitiveObjectArray( final IExpressionIndex indexList , final int start , final int length ); @Override void setPrimitiveObjectArray( final IExpressionIndex indexList , final int start , final int length , final IMemoryAllocator allocator ); @Override String toString(); }	@Test public void T_add_1()throws IOException{ LazyColumn column = new LazyColumn( "dummy" , ColumnType.STRING , new TestColumnMnager() ); column.add( ColumnType.STRING , new StringObj( "d" ) , 3 ); }
LazyColumn implements IColumn { @Override public void addCell( final ColumnType type , final ICell cell , final int index ) throws IOException{ columnManager.get().addCell( type , cell , index ); } LazyColumn( final String columnName , final ColumnType columnType , final IColumnManager columnManager ); @Override void setColumnName( final String columnName ); @Override String getColumnName(); @Override ColumnType getColumnType(); @Override void setParentsColumn( final IColumn parentsColumn ); @Override IColumn getParentsColumn(); @Override int add( final ColumnType type , final Object obj , final int index ); @Override void addCell( final ColumnType type , final ICell cell , final int index ); @Override ICellManager getCellManager(); @Override void setCellManager( final ICellManager cellManager ); @Override ICell get( final int index ); @Override List<String> getColumnKeys(); @Override int getColumnSize(); @Override List<IColumn> getListColumn(); @Override IColumn getColumn( final int index ); @Override IColumn getColumn( final String columnName ); @Override IColumn getColumn( final ColumnType type ); @Override void setDefaultCell( final ICell defaultCell ); @Override int size(); @Override IField getSchema(); @Override IField getSchema( final String schemaName ); @Override void setIndex( final ICellIndex index ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); @Override PrimitiveObject[] getPrimitiveObjectArray( final IExpressionIndex indexList , final int start , final int length ); @Override void setPrimitiveObjectArray( final IExpressionIndex indexList , final int start , final int length , final IMemoryAllocator allocator ); @Override String toString(); }	@Test public void T_addCell_1()throws IOException{ LazyColumn column = new LazyColumn( "dummy" , ColumnType.STRING , new TestColumnMnager() ); column.addCell( ColumnType.STRING , new PrimitiveCell( ColumnType.STRING , null ) , 3 ); }
LazyColumn implements IColumn { @Override public void setCellManager( final ICellManager cellManager ){ columnManager.get().setCellManager( cellManager ); } LazyColumn( final String columnName , final ColumnType columnType , final IColumnManager columnManager ); @Override void setColumnName( final String columnName ); @Override String getColumnName(); @Override ColumnType getColumnType(); @Override void setParentsColumn( final IColumn parentsColumn ); @Override IColumn getParentsColumn(); @Override int add( final ColumnType type , final Object obj , final int index ); @Override void addCell( final ColumnType type , final ICell cell , final int index ); @Override ICellManager getCellManager(); @Override void setCellManager( final ICellManager cellManager ); @Override ICell get( final int index ); @Override List<String> getColumnKeys(); @Override int getColumnSize(); @Override List<IColumn> getListColumn(); @Override IColumn getColumn( final int index ); @Override IColumn getColumn( final String columnName ); @Override IColumn getColumn( final ColumnType type ); @Override void setDefaultCell( final ICell defaultCell ); @Override int size(); @Override IField getSchema(); @Override IField getSchema( final String schemaName ); @Override void setIndex( final ICellIndex index ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); @Override PrimitiveObject[] getPrimitiveObjectArray( final IExpressionIndex indexList , final int start , final int length ); @Override void setPrimitiveObjectArray( final IExpressionIndex indexList , final int start , final int length , final IMemoryAllocator allocator ); @Override String toString(); }	@Test public void T_setCellManager_1()throws IOException{ LazyColumn column = new LazyColumn( "dummy" , ColumnType.STRING , new TestColumnMnager() ); column.setCellManager( null ); }
MDSMapObjectInspector implements SettableMapObjectInspector { @Override public ObjectInspector getMapValueObjectInspector(){ return valueObjectInspector; } MDSMapObjectInspector( final MapTypeInfo typeInfo ); @Override ObjectInspector getMapKeyObjectInspector(); @Override ObjectInspector getMapValueObjectInspector(); @Override Object getMapValueElement( final Object object, final Object key ); @Override Map<?, ?> getMap( final Object object ); @Override int getMapSize( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create(); @Override Object put( final Object map, final Object key, final Object value ); @Override Object remove( final Object map , final Object key ); @Override Object clear( final Object map ); }	@Test public void T_getMapValueObjectInspector_1(){ MapTypeInfo info = new MapTypeInfo(); info.setMapKeyTypeInfo( TypeInfoFactory.stringTypeInfo ); info.setMapValueTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSMapObjectInspector inspector = new MDSMapObjectInspector( info ); assertTrue( inspector.getMapValueObjectInspector() instanceof StringObjectInspector ); }
LazyColumn implements IColumn { @Override public ICell get( final int index ){ return columnManager.get().get( index ); } LazyColumn( final String columnName , final ColumnType columnType , final IColumnManager columnManager ); @Override void setColumnName( final String columnName ); @Override String getColumnName(); @Override ColumnType getColumnType(); @Override void setParentsColumn( final IColumn parentsColumn ); @Override IColumn getParentsColumn(); @Override int add( final ColumnType type , final Object obj , final int index ); @Override void addCell( final ColumnType type , final ICell cell , final int index ); @Override ICellManager getCellManager(); @Override void setCellManager( final ICellManager cellManager ); @Override ICell get( final int index ); @Override List<String> getColumnKeys(); @Override int getColumnSize(); @Override List<IColumn> getListColumn(); @Override IColumn getColumn( final int index ); @Override IColumn getColumn( final String columnName ); @Override IColumn getColumn( final ColumnType type ); @Override void setDefaultCell( final ICell defaultCell ); @Override int size(); @Override IField getSchema(); @Override IField getSchema( final String schemaName ); @Override void setIndex( final ICellIndex index ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); @Override PrimitiveObject[] getPrimitiveObjectArray( final IExpressionIndex indexList , final int start , final int length ); @Override void setPrimitiveObjectArray( final IExpressionIndex indexList , final int start , final int length , final IMemoryAllocator allocator ); @Override String toString(); }	@Test public void T_get_1()throws IOException{ LazyColumn column = new LazyColumn( "dummy" , ColumnType.STRING , new TestColumnMnager() ); assertEquals( ( (PrimitiveObject)( column.get(0).getRow() ) ).getString() , "a" ); assertEquals( ( (PrimitiveObject)( column.get(1).getRow() ) ).getString() , "b" ); assertEquals( ( (PrimitiveObject)( column.get(2).getRow() ) ).getString() , "c" ); }
UnsafeOptimizeLongColumnBinaryMaker implements IColumnBinaryMaker { public static ColumnType getDiffColumnType( final long min , final long max ){ long diff = max - min; if( diff < 0 ){ return ColumnType.LONG; } if( diff <= NumberToBinaryUtils.LONG_BYTE_MAX_LENGTH ){ return ColumnType.BYTE; } else if( diff <= NumberToBinaryUtils.LONG_SHORT_MAX_LENGTH ){ return ColumnType.SHORT; } else if( diff <= NumberToBinaryUtils.LONG_INT_MAX_LENGTH ){ return ColumnType.INTEGER; } return ColumnType.LONG; } static ColumnType getDiffColumnType( final long min , final long max ); static PrimitiveObject createConstObject( final ColumnType type , final long num ); static IDictionaryMaker chooseDictionaryMaker( final long min , final long max ); static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_getDiffColumnType_1(){ long min = 0; long max = -100; assertEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( min , max ) , ColumnType.LONG ); } @Test public void T_getDiffColumnType_2(){ assertEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFF ) , ColumnType.BYTE ); assertEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( -255 , 0 ) , ColumnType.BYTE ); assertNotEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFF + 1 ) , ColumnType.BYTE ); assertNotEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( -256 , 0 ) , ColumnType.BYTE ); } @Test public void T_getDiffColumnType_3(){ assertEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFF ) , ColumnType.SHORT ); assertEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( -65535 , 0 ) , ColumnType.SHORT ); assertNotEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFF + 1 ) , ColumnType.SHORT ); assertNotEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( -65536 , 0 ) , ColumnType.SHORT ); } @Test public void T_getDiffColumnType_4(){ assertEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFFFFFFL ) , ColumnType.INTEGER ); assertEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( -4294967295L , 0 ) , ColumnType.INTEGER ); assertNotEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFFFFFFL + 1 ) , ColumnType.INTEGER ); assertNotEquals( UnsafeOptimizeLongColumnBinaryMaker.getDiffColumnType( -4294967296L , 0 ) , ColumnType.INTEGER ); }
UnsafeOptimizeLongColumnBinaryMaker implements IColumnBinaryMaker { public static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ){ if( dicIndexLength <= NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ){ return new ByteDictionaryIndexMaker(); } else if( dicIndexLength <= NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ){ return new ShortDictionaryIndexMaker(); } else{ return new IntDictionaryIndexMaker( dicIndexLength ); } } static ColumnType getDiffColumnType( final long min , final long max ); static PrimitiveObject createConstObject( final ColumnType type , final long num ); static IDictionaryMaker chooseDictionaryMaker( final long min , final long max ); static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_chooseDictionaryIndexMaker_1(){ assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( -1 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( 0 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( 128 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH - 1 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ByteDictionaryIndexMaker ); assertFalse( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ByteDictionaryIndexMaker ); } @Test public void T_chooseDictionaryIndexMaker_2(){ assertFalse( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( 30000 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH - 1 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ShortDictionaryIndexMaker ); assertFalse( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.ShortDictionaryIndexMaker ); } @Test public void T_chooseDictionaryIndexMaker_3(){ assertFalse( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ) instanceof UnsafeOptimizeLongColumnBinaryMaker.IntDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeLongColumnBinaryMaker.IntDictionaryIndexMaker ); assertTrue( UnsafeOptimizeLongColumnBinaryMaker.chooseDictionaryIndexMaker( Integer.MAX_VALUE ) instanceof UnsafeOptimizeLongColumnBinaryMaker.IntDictionaryIndexMaker ); }
UnsafeOptimizeDoubleColumnBinaryMaker implements IColumnBinaryMaker { public static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ){ if( dicIndexLength <= NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ){ return new ByteDictionaryIndexMaker(); } else if( dicIndexLength <= NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ){ return new ShortDictionaryIndexMaker(); } else{ return new IntDictionaryIndexMaker(); } } static IDictionaryMaker chooseDictionaryMaker( final double min , final double max ); static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_chooseDictionaryIndexMaker_1(){ assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( -1 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( 0 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( 128 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH - 1 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ByteDictionaryIndexMaker ); assertFalse( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ByteDictionaryIndexMaker ); } @Test public void T_chooseDictionaryIndexMaker_2(){ assertFalse( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( 30000 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH - 1 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ShortDictionaryIndexMaker ); assertFalse( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.ShortDictionaryIndexMaker ); } @Test public void T_chooseDictionaryIndexMaker_3(){ assertFalse( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.IntDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.IntDictionaryIndexMaker ); assertTrue( UnsafeOptimizeDoubleColumnBinaryMaker.chooseDictionaryIndexMaker( Integer.MAX_VALUE ) instanceof UnsafeOptimizeDoubleColumnBinaryMaker.IntDictionaryIndexMaker ); }
MDSMapObjectInspector implements SettableMapObjectInspector { @Override public Category getCategory(){ return Category.MAP; } MDSMapObjectInspector( final MapTypeInfo typeInfo ); @Override ObjectInspector getMapKeyObjectInspector(); @Override ObjectInspector getMapValueObjectInspector(); @Override Object getMapValueElement( final Object object, final Object key ); @Override Map<?, ?> getMap( final Object object ); @Override int getMapSize( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create(); @Override Object put( final Object map, final Object key, final Object value ); @Override Object remove( final Object map , final Object key ); @Override Object clear( final Object map ); }	@Test public void T_getCategory_1(){ MapTypeInfo info = new MapTypeInfo(); info.setMapKeyTypeInfo( TypeInfoFactory.stringTypeInfo ); info.setMapValueTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSMapObjectInspector inspector = new MDSMapObjectInspector( info ); assertEquals( Category.MAP , inspector.getCategory() ); }
UnsafeOptimizeDumpLongColumnBinaryMaker implements IColumnBinaryMaker { public static ColumnType getDiffColumnType( final long min , final long max ){ long diff = max - min; if( diff < 0 ){ return ColumnType.LONG; } if( diff <= NumberToBinaryUtils.LONG_BYTE_MAX_LENGTH ){ return ColumnType.BYTE; } else if( diff <= NumberToBinaryUtils.LONG_SHORT_MAX_LENGTH ){ return ColumnType.SHORT; } else if( diff <= NumberToBinaryUtils.LONG_INT_MAX_LENGTH ){ return ColumnType.INTEGER; } return ColumnType.LONG; } static int getLogicalSize( final int columnSize , final ColumnType columnType ); static ColumnType getDiffColumnType( final long min , final long max ); static PrimitiveObject createConstObject( final ColumnType type , final long num ); static IBinaryMaker chooseBinaryMaker( final long min , final long max ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_getDiffColumnType_1(){ long min = 0; long max = -100; assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( min , max ) , ColumnType.LONG ); } @Test public void T_getDiffColumnType_2(){ assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFF ) , ColumnType.BYTE ); assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( -255 , 0 ) , ColumnType.BYTE ); assertNotEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFF + 1 ) , ColumnType.BYTE ); assertNotEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( -256 , 0 ) , ColumnType.BYTE ); } @Test public void T_getDiffColumnType_3(){ assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFF ) , ColumnType.SHORT ); assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( -65535 , 0 ) , ColumnType.SHORT ); assertNotEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFF + 1 ) , ColumnType.SHORT ); assertNotEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( -65536 , 0 ) , ColumnType.SHORT ); } @Test public void T_getDiffColumnType_4(){ assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFFFFFFL ) , ColumnType.INTEGER ); assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( -4294967295L , 0 ) , ColumnType.INTEGER ); assertNotEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFFFFFFL + 1 ) , ColumnType.INTEGER ); assertNotEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getDiffColumnType( -4294967296L , 0 ) , ColumnType.INTEGER ); }
UnsafeOptimizeDumpLongColumnBinaryMaker implements IColumnBinaryMaker { public static int getLogicalSize( final int columnSize , final ColumnType columnType ){ int byteSize = Long.BYTES; switch( columnType ){ case BYTE: byteSize = Byte.BYTES; break; case SHORT: byteSize = Short.BYTES; break; case INTEGER: byteSize = Integer.BYTES; break; default: byteSize = Long.BYTES; break; } return columnSize * byteSize; } static int getLogicalSize( final int columnSize , final ColumnType columnType ); static ColumnType getDiffColumnType( final long min , final long max ); static PrimitiveObject createConstObject( final ColumnType type , final long num ); static IBinaryMaker chooseBinaryMaker( final long min , final long max ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_getLogicalSize_1(){ assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getLogicalSize( 100 , ColumnType.BYTE ) , Byte.BYTES * 100 ); assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getLogicalSize( 100 , ColumnType.SHORT ) , Short.BYTES * 100 ); assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getLogicalSize( 100 , ColumnType.INTEGER ) , Integer.BYTES * 100 ); assertEquals( UnsafeOptimizeDumpLongColumnBinaryMaker.getLogicalSize( 100 , ColumnType.LONG ) , Long.BYTES * 100 ); }
OptimizeStringColumnBinaryMaker implements IColumnBinaryMaker { @Override public int calcBinarySize( final IColumnAnalizeResult analizeResult ){ StringColumnAnalizeResult stringAnalizeResult = (StringColumnAnalizeResult)analizeResult; boolean hasNull = analizeResult.getNullCount() != 0; if( ! hasNull && analizeResult.getUniqCount() == 1 ){ return stringAnalizeResult.getUniqUtf8ByteSize(); } IDictionaryIndexMaker indexMaker = chooseDictionaryIndexMaker( stringAnalizeResult.getColumnSize() ); ILengthMaker lengthMaker = chooseLengthMaker( stringAnalizeResult.getMinUtf8Bytes() , stringAnalizeResult.getMaxUtf8Bytes() ); int indexBinaryLength = indexMaker.calcBinarySize( stringAnalizeResult.getColumnSize() ); int lengthBinaryLength = lengthMaker.calcBinarySize( stringAnalizeResult.getUniqCount() ); return Integer.BYTES * 2 + indexBinaryLength + lengthBinaryLength + stringAnalizeResult.getUniqUtf8ByteSize(); } static ColumnType getDiffColumnType( final int min , final int max ); static ILengthMaker chooseLengthMaker( final int min , final int max ); static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_calc_1() throws IOException{ IColumn column = new PrimitiveColumn( ColumnType.STRING , "STRING" ); column.add( ColumnType.STRING , new StringObj( "ab" ) , 0 ); column.add( ColumnType.STRING , new StringObj( "b" ) , 1 ); column.add( ColumnType.STRING , new StringObj( "c" ) , 5 ); ColumnBinaryMakerConfig defaultConfig = new ColumnBinaryMakerConfig(); ColumnBinaryMakerCustomConfigNode configNode = new ColumnBinaryMakerCustomConfigNode( "root" , defaultConfig ); IColumnBinaryMaker maker = new OptimizeStringColumnBinaryMaker(); StringColumnAnalizer a = new StringColumnAnalizer( column ); IColumnAnalizeResult result = a.analize(); int length = maker.calcBinarySize( result ); int calcResult = 4 * 2 + 6 + 3 + 4; assertEquals( calcResult , length ); }
BufferDirectSequentialStringCellIndex implements ICellIndex { @Override public boolean[] filter( final IFilter filter , final boolean[] filterArray ) throws IOException{ switch( filter.getFilterType() ){ case STRING: IStringFilter stringFilter = (IStringFilter)filter; String targetStr = stringFilter.getSearchString(); switch( stringFilter.getStringFilterType() ){ case PERFECT: return toColumnList( perfectMatch( targetStr ) , filterArray ); case PARTIAL: return toColumnList( partialMatch( targetStr ) , filterArray ); case FORWARD: return toColumnList( forwardMatch( targetStr ) , filterArray ); case BACKWARD: return toColumnList( backwardMatch( targetStr ) , filterArray ); case REGEXP: return toColumnList( regexpMatch( targetStr ) , filterArray ); default: return null; } case STRING_COMPARE: IStringCompareFilter stringCompareFilter = (IStringCompareFilter)filter; IStringComparator comparator = stringCompareFilter.getStringComparator(); return toColumnList( compareString( comparator ) , filterArray ); case STRING_DICTIONARY: IStringDictionaryFilter stringDictionaryFilter = (IStringDictionaryFilter)filter; Set<String> dictionary = stringDictionaryFilter.getDictionary(); return toColumnList( dictionaryString( dictionary ) , filterArray ); default: return null; } } BufferDirectSequentialStringCellIndex( final IDicManager dicManager , final IntBuffer dicIndexIntBuffer ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); }	@Test public void T_filter_1() throws IOException{ List<PrimitiveObject> dic = new ArrayList<PrimitiveObject>(); dic.add( new StringObj( "abc" ) ); dic.add( new StringObj( "bcd" ) ); dic.add( new StringObj( "cde" ) ); dic.add( new StringObj( "def" ) ); dic.add( new StringObj( "efg" ) ); IntBuffer buffer = IntBuffer.allocate( 100 ); for( int i = 0 ; i < 100 ; i++ ){ buffer.put( i % 5 ); } ICellIndex index = new BufferDirectSequentialStringCellIndex( new TestDicManager( dic ) , buffer ); IFilter filter = new PerfectMatchStringFilter( "abc" ); FilterdExpressionIndex result = new FilterdExpressionIndex( index.filter( filter , new boolean[100] ) ); assertEquals( result.size() , 20 ); for( int i = 0,n=0 ; n < 100 ; i++,n+=5 ){ assertEquals( result.get(i) , n ); } } @Test public void T_filter_2() throws IOException{ List<PrimitiveObject> dic = new ArrayList<PrimitiveObject>(); dic.add( new StringObj( "abc" ) ); dic.add( new StringObj( "bcd" ) ); dic.add( new StringObj( "cde" ) ); dic.add( new StringObj( "def" ) ); dic.add( new StringObj( "efg" ) ); IntBuffer buffer = IntBuffer.allocate( 100 ); for( int i = 0 ; i < 100 ; i++ ){ buffer.put( i % 5 ); } ICellIndex index = new BufferDirectSequentialStringCellIndex( new TestDicManager( dic ) , buffer ); IFilter filter = new PartialMatchStringFilter( "b" ); FilterdExpressionIndex result = new FilterdExpressionIndex( index.filter( filter , new boolean[100] ) ); assertEquals( result.size() , 40 ); for( int i = 0,n=0 ; n < 100 ; i+=2,n+=5 ){ assertEquals( result.get(i) , n ); assertEquals( result.get(i+1) , n+1 ); } } @Test public void T_filter_3() throws IOException{ List<PrimitiveObject> dic = new ArrayList<PrimitiveObject>(); dic.add( new StringObj( "abc" ) ); dic.add( new StringObj( "bcd" ) ); dic.add( new StringObj( "cde" ) ); dic.add( new StringObj( "def" ) ); dic.add( new StringObj( "efg" ) ); IntBuffer buffer = IntBuffer.allocate( 100 ); for( int i = 0 ; i < 100 ; i++ ){ buffer.put( i % 5 ); } ICellIndex index = new BufferDirectSequentialStringCellIndex( new TestDicManager( dic ) , buffer ); IFilter filter = new ForwardMatchStringFilter( "bc" ); FilterdExpressionIndex result = new FilterdExpressionIndex( index.filter( filter , new boolean[100] ) ); assertEquals( result.size() , 20 ); for( int i = 0,n=0 ; n < 100 ; i++,n+=5 ){ assertEquals( result.get(i) , n+1 ); } } @Test public void T_filter_4() throws IOException{ List<PrimitiveObject> dic = new ArrayList<PrimitiveObject>(); dic.add( new StringObj( "abc" ) ); dic.add( new StringObj( "bcd" ) ); dic.add( new StringObj( "cde" ) ); dic.add( new StringObj( "def" ) ); dic.add( new StringObj( "efg" ) ); IntBuffer buffer = IntBuffer.allocate( 100 ); for( int i = 0 ; i < 100 ; i++ ){ buffer.put( i % 5 ); } ICellIndex index = new BufferDirectSequentialStringCellIndex( new TestDicManager( dic ) , buffer ); IFilter filter = new BackwardMatchStringFilter( "bc" ); FilterdExpressionIndex result = new FilterdExpressionIndex( index.filter( filter , new boolean[100] ) ); assertEquals( result.size() , 20 ); for( int i = 0,n=0 ; n < 100 ; i++,n+=5 ){ assertEquals( result.get(i) , n ); } } @Test public void T_filter_5() throws IOException{ List<PrimitiveObject> dic = new ArrayList<PrimitiveObject>(); dic.add( new StringObj( "abc" ) ); dic.add( new StringObj( "bcd" ) ); dic.add( new StringObj( "cde" ) ); dic.add( new StringObj( "def" ) ); dic.add( new StringObj( "efg" ) ); IntBuffer buffer = IntBuffer.allocate( 100 ); for( int i = 0 ; i < 100 ; i++ ){ buffer.put( i % 5 ); } ICellIndex index = new BufferDirectSequentialStringCellIndex( new TestDicManager( dic ) , buffer ); IFilter filter = new RegexpMatchStringFilter( "e.g" ); FilterdExpressionIndex result = new FilterdExpressionIndex( index.filter( filter , new boolean[100] ) ); assertEquals( result.size() , 20 ); for( int i = 0,n=0 ; n < 100 ; i++,n+=5 ){ assertEquals( result.get(i) , n+4 ); } } @Test public void T_filter_6() throws IOException{ List<PrimitiveObject> dic = new ArrayList<PrimitiveObject>(); dic.add( new StringObj( "abc" ) ); dic.add( new StringObj( "bcd" ) ); dic.add( new StringObj( "cde" ) ); dic.add( new StringObj( "def" ) ); dic.add( new StringObj( "efg" ) ); IntBuffer buffer = IntBuffer.allocate( 100 ); for( int i = 0 ; i < 100 ; i++ ){ buffer.put( i % 5 ); } ICellIndex index = new BufferDirectSequentialStringCellIndex( new TestDicManager( dic ) , buffer ); boolean[] result = index.filter( new NullFilter( ColumnType.STRING ) , new boolean[100] ); assertEquals( result , null ); } @Test public void T_filter_7() throws IOException{ List<PrimitiveObject> dic = new ArrayList<PrimitiveObject>(); dic.add( new StringObj( "abc" ) ); dic.add( new StringObj( "bcd" ) ); dic.add( new StringObj( "cde" ) ); dic.add( new StringObj( "def" ) ); dic.add( new StringObj( "efg" ) ); IntBuffer buffer = IntBuffer.allocate( 100 ); for( int i = 0 ; i < 100 ; i++ ){ buffer.put( i % 5 ); } ICellIndex index = new BufferDirectSequentialStringCellIndex( new TestDicManager( dic ) , buffer ); Set<String> filterDic = new HashSet<String>(); filterDic.add( "abc" ); filterDic.add( "bcd" ); IFilter filter = new StringDictionaryFilter( filterDic ); FilterdExpressionIndex result = new FilterdExpressionIndex( index.filter( filter , new boolean[100] ) ); assertEquals( result.size() , 40 ); for( int i = 0,n=0 ; n < 100 ; i+=2,n+=5 ){ assertEquals( result.get(i) , n ); assertEquals( result.get(i+1) , n+1 ); } }
UnionField { public UnionObject get( final ColumnAndIndex columnAndIndex ){ IGetUnionObject field = columnTypeMap.get( columnAndIndex.column.get( columnAndIndex.index ).getType() ); if( field == null ){ return null; } return field.get( columnAndIndex ); } UnionField( final UnionTypeInfo typeInfo ); UnionObject get( final ColumnAndIndex columnAndIndex ); }	@Test public void T_bytes_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.BYTES , "hoge" ); byte[] inBytes = "f1".getBytes( "UTF8" ); column.add( ColumnType.BYTES , new BytesObj( inBytes ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)0 ); assertEquals( union.getObject() , new BytesWritable( inBytes ) ); } @Test public void T_boolean_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.BOOLEAN , "hoge" ); column.add( ColumnType.BOOLEAN , new BooleanObj( true ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)1 ); assertEquals( union.getObject() , new BooleanWritable( true ) ); } @Test public void T_byte_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.BYTE , "hoge" ); column.add( ColumnType.BYTE , new ByteObj( (byte)255 ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)2 ); assertEquals( union.getObject() , new ByteWritable( (byte)255 ) ); } @Test public void T_double_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.DOUBLE , "hoge" ); column.add( ColumnType.DOUBLE , new DoubleObj( (double)0.1 ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)3 ); assertEquals( union.getObject() , new DoubleWritable( (double)0.1 ) ); } @Test public void T_float_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.FLOAT , "hoge" ); column.add( ColumnType.FLOAT , new FloatObj( (float)0.1 ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)4 ); assertEquals( union.getObject() , new FloatWritable( (float)0.1 ) ); } @Test public void T_int_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.INTEGER , "hoge" ); column.add( ColumnType.INTEGER , new IntegerObj( 1 ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)5 ); assertEquals( union.getObject() , new IntWritable( 1 ) ); } @Test public void T_long_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.LONG , "hoge" ); column.add( ColumnType.LONG , new LongObj( 1 ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)6 ); assertEquals( union.getObject() , new LongWritable( 1 ) ); } @Test public void T_short_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.SHORT , "hoge" ); column.add( ColumnType.SHORT , new ShortObj( (short)1 ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)7 ); assertEquals( union.getObject() , new org.apache.hadoop.hive.serde2.io.ShortWritable( (short)1 ) ); } @Test public void T_null_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.SHORT , "hoge" ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( null , union ); } @Test public void T_string_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); IColumn column = new PrimitiveColumn( ColumnType.STRING , "hoge" ); column.add( ColumnType.STRING , new StringObj( "f1" ) , 0 ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( column , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)8 ); assertEquals( union.getObject() , new Text( "f1" ) ); } @Test public void T_struct_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); Map<String,Object> dataContainer = new HashMap<String,Object>(); dataContainer.put( "str" , new StringObj( "a" ) ); dataContainer.put( "num" , new IntegerObj( 1 ) ); dataContainer.put( "uni" , new IntegerObj( 1 ) ); Spread spread = new Spread(); spread.addRow( dataContainer ); SpreadColumn spreadColumn = new SpreadColumn( "root" ); spreadColumn.setSpread( spread ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( spreadColumn , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)10 ); assertEquals( union.getObject().getClass().getName() , ColumnAndIndex.class.getName() ); } @Test public void T_array_1() throws IOException{ UnionTypeInfo unionTypeInfo = getTypeInfo(); UnionField unionField = new UnionField( unionTypeInfo ); Map<String,Object> dataContainer = new HashMap<String,Object>(); List<Object> array = new ArrayList<Object>(); array.add( new StringObj( "a" ) ); array.add( new StringObj( "b" ) ); array.add( new StringObj( "c" ) ); dataContainer.put( "array" , array ); Spread spread = new Spread(); spread.addRow( dataContainer ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( spread.getColumn( "array" ) , 0 , 0 ); UnionObject union = unionField.get( columnAndIndex ); assertEquals( union.getTag() , (byte)9 ); assertEquals( union.getObject().getClass().getName() , ColumnAndIndex.class.getName() ); }
SequentialBooleanCellIndex implements ICellIndex { @Override public boolean[] filter( final IFilter filter , final boolean[] filterArray ) throws IOException{ if( filter == null ){ return null; } if( filter.getFilterType() == FilterType.BOOLEAN ){ byte target; if( ( (BooleanFilter)filter ).getFlag() ){ target = 1; } else{ target = 0; } for( int i = 0 ; i < buffer.length ; i++ ){ if( buffer[i] == target ){ filterArray[i] = true; } } return filterArray; } return null; } SequentialBooleanCellIndex( final byte[] buffer ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); }	@Test public void T_filter_1() throws IOException{ byte[] data = new byte[10]; for( int i = 0 ; i < 10 ; i++ ){ data[i] = (byte)( i % 2 ); } SequentialBooleanCellIndex index = new SequentialBooleanCellIndex( data ); boolean[] result = index.filter( new BooleanFilter( true ) , new boolean[10] ); assertEquals( false , result[0] ); assertEquals( true , result[1] ); assertEquals( false , result[2] ); assertEquals( true , result[3] ); assertEquals( false , result[4] ); assertEquals( true , result[5] ); assertEquals( false , result[6] ); assertEquals( true , result[7] ); assertEquals( false , result[8] ); assertEquals( true , result[9] ); } @Test public void T_filter_2() throws IOException{ byte[] data = new byte[10]; for( int i = 0 ; i < 10 ; i++ ){ data[i] = (byte)( i % 2 ); } SequentialBooleanCellIndex index = new SequentialBooleanCellIndex( data ); boolean[] result = index.filter( new BooleanFilter( false ) , new boolean[10] ); assertEquals( true , result[0] ); assertEquals( false , result[1] ); assertEquals( true , result[2] ); assertEquals( false , result[3] ); assertEquals( true , result[4] ); assertEquals( false , result[5] ); assertEquals( true , result[6] ); assertEquals( false , result[7] ); assertEquals( true , result[8] ); assertEquals( false , result[9] ); } @Test public void T_filter_3() throws IOException{ byte[] data = new byte[10]; for( int i = 0 ; i < 10 ; i++ ){ data[i] = (byte)( i % 2 ); } SequentialBooleanCellIndex index = new SequentialBooleanCellIndex( data ); boolean[] result = index.filter( null , new boolean[10] ); assertEquals( result , null ); } @Test public void T_filter_4() throws IOException{ byte[] data = new byte[10]; for( int i = 0 ; i < 10 ; i++ ){ data[i] = (byte)( i % 2 ); } SequentialBooleanCellIndex index = new SequentialBooleanCellIndex( data ); boolean[] result = index.filter( new NullFilter( ColumnType.BOOLEAN ) , new boolean[10] ); assertEquals( result , null ); }
UnsafeOptimizeDumpStringColumnBinaryMaker implements IColumnBinaryMaker { public static ColumnType getDiffColumnType( final int min , final int max ){ int diff = max - min; if( diff < 0 ){ return ColumnType.INTEGER; } if( diff <= NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ){ return ColumnType.BYTE; } else if( diff <= NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ){ return ColumnType.SHORT; } return ColumnType.INTEGER; } static ColumnType getDiffColumnType( final int min , final int max ); static ILengthMaker chooseLengthMaker( final boolean hasNull , final int min , final int max ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_getDiffColumnType_1(){ int min = 0; int max = -100; assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( min , max ) , ColumnType.INTEGER ); } @Test public void T_getDiffColumnType_2(){ assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( 0 , 0xFF ) , ColumnType.BYTE ); assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( -255 , 0 ) , ColumnType.BYTE ); assertNotEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( 0 , 0xFF + 1 ) , ColumnType.BYTE ); assertNotEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( -256 , 0 ) , ColumnType.BYTE ); } @Test public void T_getDiffColumnType_3(){ assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFF ) , ColumnType.SHORT ); assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( -65535 , 0 ) , ColumnType.SHORT ); assertNotEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFF + 1 ) , ColumnType.SHORT ); assertNotEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( -65536 , 0 ) , ColumnType.SHORT ); }
UnsafeOptimizeDumpStringColumnBinaryMaker implements IColumnBinaryMaker { @Override public int calcBinarySize( final IColumnAnalizeResult analizeResult ){ StringColumnAnalizeResult stringAnalizeResult = (StringColumnAnalizeResult)analizeResult; boolean hasNull = analizeResult.getNullCount() != 0; if( ! hasNull && analizeResult.getUniqCount() == 1 ){ return stringAnalizeResult.getUniqUtf8ByteSize(); } int nullBinaryLength = stringAnalizeResult.getColumnSize(); if( ! hasNull ){ nullBinaryLength = 0; } ILengthMaker lengthMaker = chooseLengthMaker( hasNull , stringAnalizeResult.getMinUtf8Bytes() , stringAnalizeResult.getMaxUtf8Bytes() ); return Integer.BYTES * 2 + Integer.BYTES + nullBinaryLength + lengthMaker.calcBinarySize( stringAnalizeResult.getColumnSize() ) + stringAnalizeResult.getTotalUtf8ByteSize(); } static ColumnType getDiffColumnType( final int min , final int max ); static ILengthMaker chooseLengthMaker( final boolean hasNull , final int min , final int max ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_chooseDictionaryIndexMaker_Byte_1() throws IOException{ UnsafeOptimizeStringColumnBinaryMaker.IDictionaryIndexMaker indexMaker = UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( 127 ); assertEquals( ( Byte.BYTES * -1 ) , indexMaker.calcBinarySize( -1 ) ); assertEquals( ( Byte.BYTES * 0 ) , indexMaker.calcBinarySize( 0 ) ); assertEquals( ( Byte.BYTES * 256 ) , indexMaker.calcBinarySize( 256 ) ); int[] dicIndex = new int[128]; for( int i = 0,n = 0 ; i < dicIndex.length ; i++,n+=2 ){ dicIndex[i] = n; } byte[] b = new byte[indexMaker.calcBinarySize( dicIndex.length ) ]; indexMaker.create( dicIndex , b , 0 , b.length , ByteOrder.nativeOrder() ); IntBuffer intBuffer = indexMaker.getIndexIntBuffer( dicIndex.length , b , 0 , b.length , ByteOrder.nativeOrder() ); for( int i = 0 ; i < intBuffer.capacity() ; i++ ){ assertEquals( dicIndex[i] , intBuffer.get() ); } } @Test public void T_chooseDictionaryIndexMaker_Short_1() throws IOException{ UnsafeOptimizeStringColumnBinaryMaker.IDictionaryIndexMaker indexMaker = UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( 0xFFFF ); assertEquals( ( Short.BYTES * -1 ) , indexMaker.calcBinarySize( -1 ) ); assertEquals( ( Short.BYTES * 0 ) , indexMaker.calcBinarySize( 0 ) ); assertEquals( ( Short.BYTES * 256 ) , indexMaker.calcBinarySize( 256 ) ); int[] dicIndex = new int[128]; for( int i = 0,n = ( 0xFFFF - 256 ) ; i < dicIndex.length ; i++,n+=2 ){ dicIndex[i] = n; } byte[] b = new byte[indexMaker.calcBinarySize( dicIndex.length ) ]; indexMaker.create( dicIndex , b , 0 , b.length , ByteOrder.nativeOrder() ); IntBuffer intBuffer = indexMaker.getIndexIntBuffer( dicIndex.length , b , 0 , b.length , ByteOrder.nativeOrder() ); for( int i = 0 ; i < intBuffer.capacity() ; i++ ){ assertEquals( dicIndex[i] , intBuffer.get() ); } }
OptimizeDumpStringColumnBinaryMaker implements IColumnBinaryMaker { @Override public int calcBinarySize( final IColumnAnalizeResult analizeResult ){ StringColumnAnalizeResult stringAnalizeResult = (StringColumnAnalizeResult)analizeResult; boolean hasNull = analizeResult.getNullCount() != 0; if( ! hasNull && analizeResult.getUniqCount() == 1 ){ return stringAnalizeResult.getUniqUtf8ByteSize(); } int nullBinaryLength = stringAnalizeResult.getColumnSize(); if( ! hasNull ){ nullBinaryLength = 0; } ILengthMaker lengthMaker = chooseLengthMaker( hasNull , stringAnalizeResult.getMinUtf8Bytes() , stringAnalizeResult.getMaxUtf8Bytes() ); return Integer.BYTES * 2 + Integer.BYTES + nullBinaryLength + lengthMaker.calcBinarySize( stringAnalizeResult.getColumnSize() ) + stringAnalizeResult.getTotalUtf8ByteSize(); } static ColumnType getDiffColumnType( final int min , final int max ); static ILengthMaker chooseLengthMaker( final boolean hasNull , final int min , final int max ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_calc_1() throws IOException{ IColumn column = new PrimitiveColumn( ColumnType.STRING , "STRING" ); column.add( ColumnType.STRING , new StringObj( "a" ) , 0 ); column.add( ColumnType.STRING , new StringObj( "b" ) , 1 ); column.add( ColumnType.STRING , new StringObj( "c" ) , 5 ); ColumnBinaryMakerConfig defaultConfig = new ColumnBinaryMakerConfig(); ColumnBinaryMakerCustomConfigNode configNode = new ColumnBinaryMakerCustomConfigNode( "root" , defaultConfig ); IColumnBinaryMaker maker = new OptimizeDumpStringColumnBinaryMaker(); StringColumnAnalizer a = new StringColumnAnalizer( column ); IColumnAnalizeResult result = a.analize(); int length = maker.calcBinarySize( result ); int calcResult = 4 * 3 + 6 + 6 + 3; assertEquals( calcResult , length ); }
OptimizeIndexDumpStringColumnBinaryMaker implements IColumnBinaryMaker { @Override public int calcBinarySize( final IColumnAnalizeResult analizeResult ){ StringColumnAnalizeResult stringAnalizeResult = (StringColumnAnalizeResult)analizeResult; boolean hasNull = analizeResult.getNullCount() != 0; if( ! hasNull && analizeResult.getUniqCount() == 1 ){ return stringAnalizeResult.getUniqUtf8ByteSize(); } IIndexMaker indexMaker = chooseIndexMaker( stringAnalizeResult.getRowStart() , stringAnalizeResult.getRowEnd() ); ILengthMaker lengthMaker = chooseLengthMaker( stringAnalizeResult.getMinUtf8Bytes() , stringAnalizeResult.getMaxUtf8Bytes() ); int indexBinaryLength = indexMaker.calcBinarySize( stringAnalizeResult.getRowCount() ); int lengthBinaryLength = lengthMaker.calcBinarySize( stringAnalizeResult.getRowCount() ); return Integer.BYTES * 5 + indexBinaryLength + lengthBinaryLength + stringAnalizeResult.getTotalUtf8ByteSize(); } static ColumnType getDiffColumnType( final int min , final int max ); static ILengthMaker chooseLengthMaker( final int min , final int max ); static IIndexMaker chooseIndexMaker( final int startIndex , final int lastIndex ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_calc_1() throws IOException{ IColumn column = new PrimitiveColumn( ColumnType.STRING , "STRING" ); column.add( ColumnType.STRING , new StringObj( "a" ) , 0 ); column.add( ColumnType.STRING , new StringObj( "b" ) , 1 ); column.add( ColumnType.STRING , new StringObj( "c" ) , 5 ); ColumnBinaryMakerConfig defaultConfig = new ColumnBinaryMakerConfig(); ColumnBinaryMakerCustomConfigNode configNode = new ColumnBinaryMakerCustomConfigNode( "root" , defaultConfig ); IColumnBinaryMaker maker = new OptimizeIndexDumpStringColumnBinaryMaker(); StringColumnAnalizer a = new StringColumnAnalizer( column ); IColumnAnalizeResult result = a.analize(); int length = maker.calcBinarySize( result ); int calcResult = 4 * 5 + 3 + 3; assertEquals( calcResult , length ); }
UnsafeOptimizeStringColumnBinaryMaker implements IColumnBinaryMaker { public static ColumnType getDiffColumnType( final int min , final int max ){ int diff = max - min; if( diff < 0 ){ return ColumnType.INTEGER; } if( diff <= NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ){ return ColumnType.BYTE; } else if( diff <= NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ){ return ColumnType.SHORT; } return ColumnType.INTEGER; } static ColumnType getDiffColumnType( final int min , final int max ); static ILengthMaker chooseLengthMaker( final int min , final int max ); static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_getDiffColumnType_1(){ int min = 0; int max = -100; assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( min , max ) , ColumnType.INTEGER ); } @Test public void T_getDiffColumnType_2(){ assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( 0 , 0xFF ) , ColumnType.BYTE ); assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( -255 , 0 ) , ColumnType.BYTE ); assertNotEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( 0 , 0xFF + 1 ) , ColumnType.BYTE ); assertNotEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( -256 , 0 ) , ColumnType.BYTE ); } @Test public void T_getDiffColumnType_3(){ assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFF ) , ColumnType.SHORT ); assertEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( -65535 , 0 ) , ColumnType.SHORT ); assertNotEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( 0 , 0xFFFF + 1 ) , ColumnType.SHORT ); assertNotEquals( UnsafeOptimizeStringColumnBinaryMaker.getDiffColumnType( -65536 , 0 ) , ColumnType.SHORT ); }
UnsafeOptimizeStringColumnBinaryMaker implements IColumnBinaryMaker { public static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ){ if( dicIndexLength <= NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ){ return new ByteDictionaryIndexMaker(); } else if( dicIndexLength <= NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ){ return new ShortDictionaryIndexMaker(); } else{ return new IntDictionaryIndexMaker( 0 , dicIndexLength ); } } static ColumnType getDiffColumnType( final int min , final int max ); static ILengthMaker chooseLengthMaker( final int min , final int max ); static IDictionaryIndexMaker chooseDictionaryIndexMaker( final int dicIndexLength ); @Override ColumnBinary toBinary(final ColumnBinaryMakerConfig commonConfig , final ColumnBinaryMakerCustomConfigNode currentConfigNode , final IColumn column ); @Override int calcBinarySize( final IColumnAnalizeResult analizeResult ); @Override IColumn toColumn( final ColumnBinary columnBinary ); @Override void loadInMemoryStorage( final ColumnBinary columnBinary , final IMemoryAllocator allocator ); @Override void setBlockIndexNode( final BlockIndexNode parentNode , final ColumnBinary columnBinary , final int spreadIndex ); }	@Test public void T_chooseDictionaryIndexMaker_1(){ assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( -1 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( 0 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( 128 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH - 1 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ByteDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ByteDictionaryIndexMaker ); assertFalse( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ByteDictionaryIndexMaker ); } @Test public void T_chooseDictionaryIndexMaker_2(){ assertFalse( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_BYTE_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( 30000 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH - 1 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ShortDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ShortDictionaryIndexMaker ); assertFalse( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.ShortDictionaryIndexMaker ); } @Test public void T_chooseDictionaryIndexMaker_3(){ assertFalse( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH ) instanceof UnsafeOptimizeStringColumnBinaryMaker.IntDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( NumberToBinaryUtils.INT_SHORT_MAX_LENGTH + 1 ) instanceof UnsafeOptimizeStringColumnBinaryMaker.IntDictionaryIndexMaker ); assertTrue( UnsafeOptimizeStringColumnBinaryMaker.chooseDictionaryIndexMaker( Integer.MAX_VALUE ) instanceof UnsafeOptimizeStringColumnBinaryMaker.IntDictionaryIndexMaker ); }
ColumnBinaryMakerCustomConfigNode { public ColumnBinaryMakerCustomConfigNode getChildConfigNode( final String columnName ){ return childConfigNode.get( columnName ); } ColumnBinaryMakerCustomConfigNode( final String currentColumnName , final ColumnBinaryMakerConfig currentConfig ); ColumnBinaryMakerCustomConfigNode( final ColumnBinaryMakerConfig commonConfig , final IParser jsonParser ); void addChildConfigNode( final String columnName , final ColumnBinaryMakerCustomConfigNode child ); ColumnBinaryMakerConfig getCurrentConfig(); ColumnBinaryMakerCustomConfigNode getChildConfigNode( final String columnName ); String getColumnName(); }	@Test public void T_newInstance_4() throws IOException{ ColumnBinaryMakerConfig defaultConfig = new ColumnBinaryMakerConfig(); ColumnBinaryMakerCustomConfigNode configNode = new ColumnBinaryMakerCustomConfigNode( "root" , defaultConfig ); assertNull( configNode.getChildConfigNode( "hoge" ) ); }
ColumnNameNode { public String getNodeName(){ return currentNodeName; } ColumnNameNode( final String currentNodeName ); ColumnNameNode( final String currentNodeName , final boolean isDisableFlag ); void addChild( final ColumnNameNode childNode ); void setNeedAllChild( final boolean needChild ); boolean isNeedAllChild(); String getNodeName(); boolean containsChild( final String childNodeName ); boolean isChildEmpty(); ColumnNameNode getChild( final String childNodeName ); int getChildSize(); boolean isDisable(); @Override String toString(); String toString( final int depth ); final String currentNodeName; final Map<String,ColumnNameNode> childNodeMap; public boolean isDisableFlag; public boolean needChild; }	@Test public void T_newInstance_1(){ ColumnNameNode columnNameNode = new ColumnNameNode( "root" ); assertEquals( columnNameNode.getNodeName() , "root" ); }
Block { public void setColumnBinaryTree( final ColumnBinaryTree columnBinaryTree ){ this.columnBinaryTree = columnBinaryTree; } void setColumnBinaryTree( final ColumnBinaryTree columnBinaryTree ); int size(); List<ColumnBinary> get( final int index ); }	@Test public void T_setColumnBinaryTree_1(){ Block block = new Block(); block.setColumnBinaryTree( null ); }
BlockReadOffset implements Comparable<BlockReadOffset> { @Override public int compareTo( final BlockReadOffset target ){ if( this.streamStart > target.streamStart ){ return 1; } else if( this.streamStart < target.streamStart ){ return -1; } return 0; } BlockReadOffset( final int streamStart , final int bufferStart, final int length , final byte[] buffer ); @Override int compareTo( final BlockReadOffset target ); final int streamStart; final int bufferStart; final int length; final byte[] buffer; }	@Test public void T_compareTo_1(){ BlockReadOffset o1 = new BlockReadOffset( 100 , 0 , 20 , new byte[0] ); BlockReadOffset o2 = new BlockReadOffset( 100 , 0 , 20 , new byte[0] ); assertEquals( o1.compareTo( o2 ) , 0 ); } @Test public void T_compareTo_2(){ BlockReadOffset o1 = new BlockReadOffset( 100 , 0 , 20 , new byte[0] ); BlockReadOffset o2 = new BlockReadOffset( 200 , 0 , 20 , new byte[0] ); assertEquals( o1.compareTo( o2 ) , -1 ); } @Test public void T_compareTo_3(){ BlockReadOffset o1 = new BlockReadOffset( 100 , 0 , 20 , new byte[0] ); BlockReadOffset o2 = new BlockReadOffset( 50 , 0 , 20 , new byte[0] ); assertEquals( o1.compareTo( o2 ) , 1 ); }
ArrayColumn implements IColumn { public void setSpread( final Spread spread ){ this.spread = spread; cellManager.clear(); } ArrayColumn( final String columnName ); void setSpread( final Spread spread ); @Override void setColumnName( final String columnName ); @Override String getColumnName(); @Override ColumnType getColumnType(); @Override void setParentsColumn( final IColumn parentsColumn ); @Override IColumn getParentsColumn(); @Override int add( final ColumnType type , final Object obj , final int index ); @Override void addCell( final ColumnType type , final ICell cell , final int index ); @Override ICellManager getCellManager(); @Override void setCellManager( final ICellManager cellManager ); @Override ICell get( final int index ); @Override List<String> getColumnKeys(); @Override int getColumnSize(); @Override List<IColumn> getListColumn(); @Override IColumn getColumn( final int index ); @Override IColumn getColumn( final String columnName ); @Override IColumn getColumn( final ColumnType type ); @Override void setDefaultCell( final ICell defaultCell ); @Override int size(); @Override IField getSchema(); @Override IField getSchema( final String schemaName ); IColumn getChildColumn(); @Override void setIndex( final ICellIndex index ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); @Override PrimitiveObject[] getPrimitiveObjectArray(final IExpressionIndex indexList , final int start , final int length ); @Override void setPrimitiveObjectArray(final IExpressionIndex indexList , final int start , final int length , final IMemoryAllocator allocator ); @Override String toString(); }	@Test public void T_setSpreadNotException() { ArrayColumn target = new ArrayColumn("column_name"); Spread spread = new Spread(); target.setSpread(spread); }
ArrayColumn implements IColumn { @Override public String getColumnName(){ return columnName; } ArrayColumn( final String columnName ); void setSpread( final Spread spread ); @Override void setColumnName( final String columnName ); @Override String getColumnName(); @Override ColumnType getColumnType(); @Override void setParentsColumn( final IColumn parentsColumn ); @Override IColumn getParentsColumn(); @Override int add( final ColumnType type , final Object obj , final int index ); @Override void addCell( final ColumnType type , final ICell cell , final int index ); @Override ICellManager getCellManager(); @Override void setCellManager( final ICellManager cellManager ); @Override ICell get( final int index ); @Override List<String> getColumnKeys(); @Override int getColumnSize(); @Override List<IColumn> getListColumn(); @Override IColumn getColumn( final int index ); @Override IColumn getColumn( final String columnName ); @Override IColumn getColumn( final ColumnType type ); @Override void setDefaultCell( final ICell defaultCell ); @Override int size(); @Override IField getSchema(); @Override IField getSchema( final String schemaName ); IColumn getChildColumn(); @Override void setIndex( final ICellIndex index ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); @Override PrimitiveObject[] getPrimitiveObjectArray(final IExpressionIndex indexList , final int start , final int length ); @Override void setPrimitiveObjectArray(final IExpressionIndex indexList , final int start , final int length , final IMemoryAllocator allocator ); @Override String toString(); }	@Test public void T_getColumnName() { ArrayColumn target = new ArrayColumn("column_name"); assertEquals(target.getColumnName(), "column_name"); }
ArrayColumn implements IColumn { @Override public ColumnType getColumnType(){ return ColumnType.ARRAY; } ArrayColumn( final String columnName ); void setSpread( final Spread spread ); @Override void setColumnName( final String columnName ); @Override String getColumnName(); @Override ColumnType getColumnType(); @Override void setParentsColumn( final IColumn parentsColumn ); @Override IColumn getParentsColumn(); @Override int add( final ColumnType type , final Object obj , final int index ); @Override void addCell( final ColumnType type , final ICell cell , final int index ); @Override ICellManager getCellManager(); @Override void setCellManager( final ICellManager cellManager ); @Override ICell get( final int index ); @Override List<String> getColumnKeys(); @Override int getColumnSize(); @Override List<IColumn> getListColumn(); @Override IColumn getColumn( final int index ); @Override IColumn getColumn( final String columnName ); @Override IColumn getColumn( final ColumnType type ); @Override void setDefaultCell( final ICell defaultCell ); @Override int size(); @Override IField getSchema(); @Override IField getSchema( final String schemaName ); IColumn getChildColumn(); @Override void setIndex( final ICellIndex index ); @Override boolean[] filter( final IFilter filter , final boolean[] filterArray ); @Override PrimitiveObject[] getPrimitiveObjectArray(final IExpressionIndex indexList , final int start , final int length ); @Override void setPrimitiveObjectArray(final IExpressionIndex indexList , final int start , final int length , final IMemoryAllocator allocator ); @Override String toString(); }	@Test public void T_getColumnType() { ArrayColumn target = new ArrayColumn("column_name"); assertEquals(target.getColumnType(), ColumnType.ARRAY); }
BackwardMatchStringFilter implements IStringFilter { @Override public String getSearchString(){ return str; } BackwardMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getSearchString() { BackwardMatchStringFilter target1 = new BackwardMatchStringFilter("string"); BackwardMatchStringFilter target2 = new BackwardMatchStringFilter(""); BackwardMatchStringFilter target3 = new BackwardMatchStringFilter(null); assertEquals(target1.getSearchString(), "string"); assertEquals(target2.getSearchString(), ""); assertEquals(target3.getSearchString(), null); }
BackwardMatchStringFilter implements IStringFilter { @Override public StringFilterType getStringFilterType(){ return StringFilterType.BACKWARD; } BackwardMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getStringFilterType() { BackwardMatchStringFilter target = new BackwardMatchStringFilter("string"); assertEquals(target.getStringFilterType(), StringFilterType.BACKWARD); }
BackwardMatchStringFilter implements IStringFilter { @Override public FilterType getFilterType(){ return FilterType.STRING; } BackwardMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getFilterType() { BackwardMatchStringFilter target = new BackwardMatchStringFilter("string"); assertEquals(target.getFilterType(), FilterType.STRING); }
RegexpMatchStringFilter implements IStringFilter { @Override public String getSearchString(){ return str; } RegexpMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getSearchString() { RegexpMatchStringFilter target1 = new RegexpMatchStringFilter("string"); RegexpMatchStringFilter target2 = new RegexpMatchStringFilter(""); RegexpMatchStringFilter target3 = new RegexpMatchStringFilter(null); assertEquals(target1.getSearchString(), "string"); assertEquals(target2.getSearchString(), ""); assertEquals(target3.getSearchString(), null); }
RegexpMatchStringFilter implements IStringFilter { @Override public StringFilterType getStringFilterType(){ return StringFilterType.REGEXP; } RegexpMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getStringFilterType() { RegexpMatchStringFilter target = new RegexpMatchStringFilter("string"); assertEquals(target.getStringFilterType(), StringFilterType.REGEXP); }
RegexpMatchStringFilter implements IStringFilter { @Override public FilterType getFilterType(){ return FilterType.STRING; } RegexpMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getFilterType() { RegexpMatchStringFilter target = new RegexpMatchStringFilter("string"); assertEquals(target.getFilterType(), FilterType.STRING); }
NumberFilter implements IFilter { public PrimitiveObject getNumberObject(){ return numberObj; } NumberFilter( final NumberFilterType numberFilterType , final PrimitiveObject numberObj ); PrimitiveObject getNumberObject(); NumberFilterType getNumberFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getNumberObject() throws IOException { NumberFilter target = new NumberFilter(NumberFilterType.EQUAL, new IntegerObj(123)); assertEquals(target.getNumberObject().getInt(), 123); }
NumberFilter implements IFilter { public NumberFilterType getNumberFilterType(){ return numberFilterType; } NumberFilter( final NumberFilterType numberFilterType , final PrimitiveObject numberObj ); PrimitiveObject getNumberObject(); NumberFilterType getNumberFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getNumberFilterType() { NumberFilter target = new NumberFilter(NumberFilterType.EQUAL, new IntegerObj(123)); assertEquals(target.getNumberFilterType(), NumberFilterType.EQUAL); }
NumberFilter implements IFilter { @Override public FilterType getFilterType(){ return FilterType.NUMBER; } NumberFilter( final NumberFilterType numberFilterType , final PrimitiveObject numberObj ); PrimitiveObject getNumberObject(); NumberFilterType getNumberFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getFilterType() { NumberFilter target = new NumberFilter(NumberFilterType.EQUAL, new IntegerObj(123)); assertEquals(target.getFilterType(), FilterType.NUMBER); }
ForwardMatchStringFilter implements IStringFilter { @Override public String getSearchString(){ return str; } ForwardMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getSearchString() { ForwardMatchStringFilter target1 = new ForwardMatchStringFilter("string"); ForwardMatchStringFilter target2 = new ForwardMatchStringFilter(""); ForwardMatchStringFilter target3 = new ForwardMatchStringFilter(null); assertEquals(target1.getSearchString(), "string"); assertEquals(target2.getSearchString(), ""); assertEquals(target3.getSearchString(), null); }
ForwardMatchStringFilter implements IStringFilter { @Override public StringFilterType getStringFilterType(){ return StringFilterType.FORWARD; } ForwardMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getStringFilterType() { ForwardMatchStringFilter target = new ForwardMatchStringFilter("string"); assertEquals(target.getStringFilterType(), StringFilterType.FORWARD); }
ForwardMatchStringFilter implements IStringFilter { @Override public FilterType getFilterType(){ return FilterType.STRING; } ForwardMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getFilterType() { ForwardMatchStringFilter target = new ForwardMatchStringFilter("string"); assertEquals(target.getFilterType(), FilterType.STRING); }
NotNullFilter implements INullFilter { @Override public FilterType getFilterType(){ return FilterType.NOT_NULL; } NotNullFilter( final ColumnType type ); @Override ColumnType getTargetColumnType(); @Override FilterType getFilterType(); }	@Test public void getFilterType() { NotNullFilter target = new NotNullFilter( ColumnType.NULL ); assertEquals(target.getFilterType(), FilterType.NOT_NULL); }
NullFilter implements INullFilter { @Override public FilterType getFilterType(){ return FilterType.NULL; } NullFilter( final ColumnType type ); @Override ColumnType getTargetColumnType(); @Override FilterType getFilterType(); }	@Test public void getFilterType() { NullFilter target = new NullFilter( ColumnType.NULL ); assertEquals(target.getFilterType(), FilterType.NULL); }
RangeStringCompareFilter implements IStringCompareFilter { @Override public IStringComparator getStringComparator(){ return new RangeStringComparator( minFilter.getStringComparator() , maxFilter.getStringComparator() , invert ); } RangeStringCompareFilter( final String min , final boolean minHasEqual , final String max , final boolean maxHasEqual ); RangeStringCompareFilter( final String min , final boolean minHasEqual , final String max , final boolean maxHasEqual , final boolean invert ); @Override IStringComparator getStringComparator(); @Override StringCompareFilterType getStringCompareFilterType(); @Override FilterType getFilterType(); }	@Test public void T_1(){ RangeStringCompareFilter filter = new RangeStringCompareFilter( "a" , true , "b" , true , false ); IStringComparator comp = filter.getStringComparator(); assertEquals( comp.isFilterString( "a1" ) , false ); assertEquals( comp.isFilterString( "b" ) , false ); assertEquals( comp.isFilterString( "a" ) , false ); assertEquals( comp.isFilterString( "aa" ) , false ); assertEquals( comp.isFilterString( "a " ) , false ); assertEquals( comp.isFilterString( "9" ) , true ); assertEquals( comp.isFilterString( "b0" ) , true ); } @Test public void T_2(){ RangeStringCompareFilter filter = new RangeStringCompareFilter( "2001-01-12" , true , "2001-02-11" , true , false ); IStringComparator comp = filter.getStringComparator(); assertEquals( comp.isFilterString( "2001-01-11" ) , true ); assertEquals( comp.isFilterString( "2001-01-12" ) , false ); assertEquals( comp.isFilterString( "2001-02-01" ) , false ); assertEquals( comp.isFilterString( "2001-02-11" ) , false ); assertEquals( comp.isFilterString( "2001-02-12" ) , true ); }
BooleanFilter implements IFilter { public boolean getFlag(){ return flag; } BooleanFilter( final boolean flag ); boolean getFlag(); @Override FilterType getFilterType(); }	@Test public void T_getFlag() { BooleanFilter target1 = new BooleanFilter(true); BooleanFilter target2 = new BooleanFilter(false); assertEquals(target1.getFlag(), true); assertEquals(target2.getFlag(), false); }
BooleanFilter implements IFilter { @Override public FilterType getFilterType(){ return FilterType.BOOLEAN; } BooleanFilter( final boolean flag ); boolean getFlag(); @Override FilterType getFilterType(); }	@Test public void T_getFilterType() { BooleanFilter target = new BooleanFilter(true); assertEquals(target.getFilterType(), FilterType.BOOLEAN); }
PartialMatchStringFilter implements IStringFilter { @Override public String getSearchString(){ return str; } PartialMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getSearchString() { PartialMatchStringFilter target1 = new PartialMatchStringFilter("string"); PartialMatchStringFilter target2 = new PartialMatchStringFilter(""); PartialMatchStringFilter target3 = new PartialMatchStringFilter(null); assertEquals(target1.getSearchString(), "string"); assertEquals(target2.getSearchString(), ""); assertEquals(target3.getSearchString(), null); }
PartialMatchStringFilter implements IStringFilter { @Override public StringFilterType getStringFilterType(){ return StringFilterType.PARTIAL; } PartialMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getStringFilterType() { PartialMatchStringFilter target = new PartialMatchStringFilter("string"); assertEquals(target.getStringFilterType(), StringFilterType.PARTIAL); }
HiveReaderSetting implements IReaderSetting { public IExpressionNode createExpressionNode( final List<ExprNodeGenericFuncDesc> filterExprs ){ HiveExprOrNode hiveOrNode = new HiveExprOrNode(); for( ExprNodeGenericFuncDesc filterExpr : filterExprs ){ if( filterExpr != null ){ hiveOrNode.addChildNode( filterExpr ); } } return hiveOrNode.getPushDownFilterNode(); } HiveReaderSetting( final Configuration config , final IExpressionNode node , final boolean isVectorModeFlag , final boolean disableSkipBlock , final boolean disableFilterPushdown ); HiveReaderSetting( final FileSplit split, final JobConf job ); String createReadColumnNames( final String readColumnNames ); IExpressionNode createExpressionNode( final List<ExprNodeGenericFuncDesc> filterExprs ); Set<String> createPathSet( final Path target ); @Override boolean isVectorMode(); @Override boolean isDisableSkipBlock(); @Override boolean isDisableFilterPushdown(); @Override Configuration getReaderConfig(); @Override IExpressionNode getExpressionNode(); }	@Test public void T_createExpressionNode_1(){ List<ExprNodeGenericFuncDesc> list = new ArrayList<ExprNodeGenericFuncDesc>(); list.add( null ); GenericUDF udf = new GenericUDFOPAnd(); list.add( new ExprNodeGenericFuncDesc( PrimitiveObjectInspectorFactory.writableStringObjectInspector , udf , new ArrayList<ExprNodeDesc>() ) ); HiveReaderSetting setting = new HiveReaderSetting( null , null , false , false , false ); IExpressionNode node = setting.createExpressionNode( list ); assertEquals( node.getClass().getName() , OrExpressionNode.class.getName() ); }
PartialMatchStringFilter implements IStringFilter { @Override public FilterType getFilterType(){ return FilterType.STRING; } PartialMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getFilterType() { PartialMatchStringFilter target = new PartialMatchStringFilter("string"); assertEquals(target.getFilterType(), FilterType.STRING); }
PerfectMatchStringFilter implements IStringFilter { @Override public String getSearchString(){ return str; } PerfectMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getSearchString() { PerfectMatchStringFilter target1 = new PerfectMatchStringFilter("string"); PerfectMatchStringFilter target2 = new PerfectMatchStringFilter(""); PerfectMatchStringFilter target3 = new PerfectMatchStringFilter(null); assertEquals(target1.getSearchString(), "string"); assertEquals(target2.getSearchString(), ""); assertEquals(target3.getSearchString(), null); }
PerfectMatchStringFilter implements IStringFilter { @Override public StringFilterType getStringFilterType(){ return StringFilterType.PERFECT; } PerfectMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getStringFilterType() { PerfectMatchStringFilter target = new PerfectMatchStringFilter("string"); assertEquals(target.getStringFilterType(), StringFilterType.PERFECT); }
PerfectMatchStringFilter implements IStringFilter { @Override public FilterType getFilterType(){ return FilterType.STRING; } PerfectMatchStringFilter( final String str ); @Override String getSearchString(); @Override StringFilterType getStringFilterType(); @Override FilterType getFilterType(); }	@Test public void T_getFilterType() { PerfectMatchStringFilter target = new PerfectMatchStringFilter("string"); assertEquals(target.getFilterType(), FilterType.STRING); }
ExpandFunction implements IExpandFunction { @Override public List<String[]> getExpandColumnName(){ List<String[]> needColumnNameList = new ArrayList<String[]>(); needColumnNameList.addAll( expandColumnLink.getNeedColumnNameList() ); needColumnNameList.addAll( columnNameArrayList ); return needColumnNameList; } ExpandFunction( final ExpandNode expandNode , final ExpandColumnLink expandColumnLink , final List<String> columnNameList , final List<String> linkColumnNameList ); @Override Spread expand( final Spread spread ); @Override void expandIndexNode( final BlockIndexNode rootNode ); @Override String[] getExpandLinkColumnName( final String linkName ); @Override List<String[]> getExpandColumnName(); }	@Test public void T_getExpandColumnName() throws IOException { Configuration conf = new Configuration(); conf.set( "spread.reader.expand.column" , "{ \"base\" : { \"node\" : \"val_node\" , \"link_name\" : \"val_link_name\" , \"child_node\" : { \"node\" : \"val_child_node\" , \"link_name\" : \"val_chilc_linkname\" } } }" ); assertEquals(ExpandFunctionFactory.get(conf).getExpandColumnName().get(0)[0], "val_node"); }
NotExpandFunction implements IExpandFunction { @Override public Spread expand( final Spread spread ) throws IOException{ return spread; } @Override Spread expand( final Spread spread ); @Override void expandIndexNode( final BlockIndexNode rootNode ); @Override String[] getExpandLinkColumnName( final String linkName ); @Override List<String[]> getExpandColumnName(); }	@Test public void T_expand() throws IOException { assertEquals(target.expand(spread).getColumnSize(), 2); assertEquals(target.expand(spread).getColumn("stringKey").get(0).toString(), "(STRING)val0"); assertEquals(target.expand(spread).getColumn(1).get(0).toString(), "(INTEGER)5"); }
NotExpandFunction implements IExpandFunction { @Override public List<String[]> getExpandColumnName(){ return new ArrayList<String[]>(); } @Override Spread expand( final Spread spread ); @Override void expandIndexNode( final BlockIndexNode rootNode ); @Override String[] getExpandLinkColumnName( final String linkName ); @Override List<String[]> getExpandColumnName(); }	@Test public void T_getExpandColumnName() { assertEquals( target.getExpandColumnName().size() , 0 ); }
ExpandFunctionFactory { public static IExpandFunction get( final Configuration config ) throws IOException{ String expandJson = config.get( "spread.reader.expand.column" , null ); if( expandJson == null \|\| expandJson.isEmpty() ){ return new NotExpandFunction(); } JacksonMessageReader jsonReader = new JacksonMessageReader(); IParser jsonParser = jsonReader.create( expandJson ); if( ! jsonParser.containsKey( "base" ) ){ throw new IOException( "Invalid expand setting. \"base\" setting is not found." ); } return parseBaseJson( jsonParser ); } private ExpandFunctionFactory(); static IExpandFunction get( final Configuration config ); }	@Test public void T_get_null() throws IOException { Configuration conf = new Configuration(); assertEquals( ExpandFunctionFactory.get(conf).getExpandColumnName().size(), 0 ); } @Test public void T_get_notNull() throws IOException { Configuration conf = new Configuration(); conf.set( "spread.reader.expand.column" , "{ \"base\" : { \"node\" : \"val_node\" , \"link_name\" : \"val_link_name\" , \"child_node\" : { \"node\" : \"val_child_node\" , \"link_name\" : \"val_chilc_linkname\" } } }" ); List<String[]> columnNames = ExpandFunctionFactory.get(conf).getExpandColumnName(); assertEquals(columnNames.get(0)[0], "val_node"); }
Analyzer { public static List<IColumnAnalizer> getAnalizer( final Spread spread ) throws IOException{ List<IColumnAnalizer> result = new ArrayList<IColumnAnalizer>(); for( int i = 0 ; i < spread.getColumnSize() ; i++ ){ IColumn column = spread.getColumn( i ); result.add( ColumnAnalizerFactory.get( column ) ); } return result; } private Analyzer(); static List<IColumnAnalizer> getAnalizer( final Spread spread ); static List<IColumnAnalizeResult> analize( final Spread spread ); }	@Test public void T_getAnalizer_1() throws IOException{ Spread spread = new Spread(); Map<String,Object> data = new HashMap<String,Object>(); data.put( "a" , new LongObj( (long)100 ) ); spread.addRow( data ); spread.addRow( data ); spread.addRow( data ); spread.addRow( data ); List<IColumnAnalizer> result = Analyzer.getAnalizer( spread ); assertEquals( result.size() , 1 ); }
Analyzer { public static List<IColumnAnalizeResult> analize( final Spread spread ) throws IOException{ List<IColumnAnalizeResult> result = new ArrayList<IColumnAnalizeResult>(); for( IColumnAnalizer analizer : getAnalizer( spread ) ){ if( analizer != null ){ result.add( analizer.analize() ); } } return result; } private Analyzer(); static List<IColumnAnalizer> getAnalizer( final Spread spread ); static List<IColumnAnalizeResult> analize( final Spread spread ); }	@Test public void T_analize_1() throws IOException{ Spread spread = new Spread(); Map<String,Object> data = new HashMap<String,Object>(); data.put( "a" , new LongObj( (long)100 ) ); spread.addRow( data ); spread.addRow( data ); spread.addRow( data ); spread.addRow( data ); List<IColumnAnalizeResult> result = Analyzer.analize( spread ); assertEquals( result.size() , 1 ); }
SpreadColumnAnalizer implements IColumnAnalizer { public IColumnAnalizeResult analize() throws IOException{ List<IColumnAnalizeResult> resultList = new ArrayList<IColumnAnalizeResult>(); for( IColumn childColumn : column.getListColumn() ){ IColumnAnalizer analizer = ColumnAnalizerFactory.get( childColumn ); resultList.add( analizer.analize() ); } return new SpreadColumnAnalizeResult( column.getColumnName() , column.getColumnSize() , 0 , resultList ); } SpreadColumnAnalizer( final IColumn column ); IColumnAnalizeResult analize(); }	@Test public void T_getAnalizer_1() throws IOException{ SpreadColumn column = new SpreadColumn( "spread" ); Map<Object,Object> data = new HashMap<Object,Object>(); data.put( "s1" , new StringObj( "abc" ) ); data.put( "i1" , new IntegerObj( 100 ) ); column.add( ColumnType.SPREAD , data , 0 ); data.clear(); data.put( "s1" , new StringObj( "abc" ) ); data.put( "i2" , new IntegerObj( 100 ) ); column.add( ColumnType.SPREAD , data , 1 ); SpreadColumnAnalizer a = new SpreadColumnAnalizer( column ); IColumnAnalizeResult result = a.analize(); List<IColumnAnalizeResult> childResult = result.getChild(); assertEquals( 3 , childResult.size() ); }
MDSSchemaStreamWriter implements IStreamWriter { @Override public void write( final PrimitiveObject obj ) throws IOException{ throw new UnsupportedOperationException( "Unsupported write( final PrimitiveObject obj )" ); } MDSSchemaStreamWriter( final OutputStream out , final Configuration config ); @Override void write( final PrimitiveObject obj ); @Override void write( final List<Object> array ); @Override void write( final Map<Object,Object> map ); @Override void write( final IParser parser ); @Override void close(); }	@Test public void T_write_1() throws IOException{ MDSSchemaStreamWriter writer = new MDSSchemaStreamWriter( new ByteArrayOutputStream() , new Configuration() ); assertThrows( UnsupportedOperationException.class , () -> { writer.write( new StringObj( "hoge" ) ); } ); } @Test public void T_write_2() throws IOException{ MDSSchemaStreamWriter writer = new MDSSchemaStreamWriter( new ByteArrayOutputStream() , new Configuration() ); assertThrows( UnsupportedOperationException.class , () -> { writer.write( new ArrayList<Object>() ); } ); }
MDSListObjectInspector implements SettableListObjectInspector { @Override public ObjectInspector getListElementObjectInspector(){ return valueObjectInspector; } MDSListObjectInspector( final ListTypeInfo typeInfo ); @Override ObjectInspector getListElementObjectInspector(); @Override Object getListElement( final Object object, final int index ); @Override int getListLength( final Object object ); @Override List<?> getList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create( final int size ); @Override Object resize( final Object object , final int newSize ); @Override Object set( final Object object, final int index, final Object element ); }	@Test public void T_getListElementObjectInspector_1(){ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); assertTrue( inspector.getListElementObjectInspector() instanceof StringObjectInspector ); }
MDSListObjectInspector implements SettableListObjectInspector { @Override public Object getListElement( final Object object, final int index ){ if( object instanceof ColumnAndIndex ){ ColumnAndIndex columnAndIndex = (ColumnAndIndex) object; ICell cell = columnAndIndex.column.get( columnAndIndex.index ); if( cell.getType() == ColumnType.ARRAY ){ return getField.get( columnAndIndex , (ArrayCell)cell , index ); } else{ return null; } } else{ return ( (List)object ).get( index ); } } MDSListObjectInspector( final ListTypeInfo typeInfo ); @Override ObjectInspector getListElementObjectInspector(); @Override Object getListElement( final Object object, final int index ); @Override int getListLength( final Object object ); @Override List<?> getList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create( final int size ); @Override Object resize( final Object object , final int newSize ); @Override Object set( final Object object, final int index, final Object element ); }	@Test public void T_getListElement_1() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); Map<String,Object> dataContainer = new HashMap<String,Object>(); List<Object> array = new ArrayList<Object>(); array.add( new StringObj( "a" ) ); array.add( new StringObj( "b" ) ); array.add( new StringObj( "c" ) ); dataContainer.put( "array" , array ); Spread spread = new Spread(); spread.addRow( dataContainer ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( spread.getColumn( "array" ) , 0 , 0 ); assertEquals( new Text( "a" ) , (Text)( inspector.getListElement( columnAndIndex , 0 ) ) ); assertEquals( new Text( "b" ) , (Text)( inspector.getListElement( columnAndIndex , 1 ) ) ); assertEquals( new Text( "c" ) , (Text)( inspector.getListElement( columnAndIndex , 2 ) ) ); }
MDSListObjectInspector implements SettableListObjectInspector { @Override public int getListLength( final Object object ){ if( object == null ){ return 0; } if( object instanceof ColumnAndIndex ){ ColumnAndIndex columnAndIndex = (ColumnAndIndex) object; ICell cell = columnAndIndex.column.get( columnAndIndex.index ); if( cell.getType() == ColumnType.ARRAY ){ ArrayCell arrayCell = (ArrayCell)cell; return arrayCell.getEnd() - arrayCell.getStart(); } return 0; } else{ return ( (List)object ).size(); } } MDSListObjectInspector( final ListTypeInfo typeInfo ); @Override ObjectInspector getListElementObjectInspector(); @Override Object getListElement( final Object object, final int index ); @Override int getListLength( final Object object ); @Override List<?> getList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create( final int size ); @Override Object resize( final Object object , final int newSize ); @Override Object set( final Object object, final int index, final Object element ); }	@Test public void T_getListLength_1() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); Map<String,Object> dataContainer = new HashMap<String,Object>(); List<Object> array = new ArrayList<Object>(); array.add( new StringObj( "a" ) ); array.add( new StringObj( "b" ) ); array.add( new StringObj( "c" ) ); dataContainer.put( "array" , array ); Spread spread = new Spread(); spread.addRow( dataContainer ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( spread.getColumn( "array" ) , 0 , 0 ); assertEquals( 3 , inspector.getListLength( columnAndIndex ) ); } @Test public void T_getListLength_2() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); assertEquals( 0 , inspector.getListLength( null ) ); } @Test public void T_getListLength_3() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); List<Object> target = new ArrayList<Object>(); target.add(1); assertEquals( 1 , inspector.getListLength( target ) ); }
HiveReaderSetting implements IReaderSetting { public String createReadColumnNames( final String readColumnNames ){ if( readColumnNames == null \|\| readColumnNames.isEmpty() ){ return null; } StringBuilder jsonStringBuilder = new StringBuilder(); jsonStringBuilder.append( "[" ); int addCount = 0; for( String readColumnName : readColumnNames.split( "," ) ){ if( readColumnName.isEmpty() ){ continue; } if( addCount != 0 ){ jsonStringBuilder.append( "," ); } jsonStringBuilder.append( "[\"" ); jsonStringBuilder.append( readColumnName ); jsonStringBuilder.append( "\"]" ); addCount++; } jsonStringBuilder.append( "]" ); return jsonStringBuilder.toString(); } HiveReaderSetting( final Configuration config , final IExpressionNode node , final boolean isVectorModeFlag , final boolean disableSkipBlock , final boolean disableFilterPushdown ); HiveReaderSetting( final FileSplit split, final JobConf job ); String createReadColumnNames( final String readColumnNames ); IExpressionNode createExpressionNode( final List<ExprNodeGenericFuncDesc> filterExprs ); Set<String> createPathSet( final Path target ); @Override boolean isVectorMode(); @Override boolean isDisableSkipBlock(); @Override boolean isDisableFilterPushdown(); @Override Configuration getReaderConfig(); @Override IExpressionNode getExpressionNode(); }	@Test public void T_createReadColumnNames_1(){ HiveReaderSetting setting = new HiveReaderSetting( null , null , false , false , false ); String readColumnJson = setting.createReadColumnNames( "a,b,,c" ); assertEquals( readColumnJson , "[[\"a\"],[\"b\"],[\"c\"]]" ); } @Test public void T_createReadColumnNames_2(){ HiveReaderSetting setting = new HiveReaderSetting( null , null , false , false , false ); String readColumnJson = setting.createReadColumnNames( "" ); assertEquals( readColumnJson , null ); } @Test public void T_createReadColumnNames_3(){ HiveReaderSetting setting = new HiveReaderSetting( null , null , false , false , false ); String readColumnJson = setting.createReadColumnNames( null ); assertEquals( readColumnJson , null ); }
MDSListObjectInspector implements SettableListObjectInspector { @Override public List<?> getList( final Object object ){ if( object instanceof ColumnAndIndex ){ ColumnAndIndex columnAndIndex = (ColumnAndIndex) object; ICell cell = columnAndIndex.column.get( columnAndIndex.index ); if( cell.getType() == ColumnType.ARRAY ){ ArrayCell arrayCell = (ArrayCell)cell; List<Object> result = new ArrayList<Object>(); int length = arrayCell.getEnd() - arrayCell.getStart(); for( int i = 0 ; i < length ; i++ ){ result.add( getField.get( columnAndIndex , arrayCell , i ) ); } return result; } return null; } else{ return (List)object; } } MDSListObjectInspector( final ListTypeInfo typeInfo ); @Override ObjectInspector getListElementObjectInspector(); @Override Object getListElement( final Object object, final int index ); @Override int getListLength( final Object object ); @Override List<?> getList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create( final int size ); @Override Object resize( final Object object , final int newSize ); @Override Object set( final Object object, final int index, final Object element ); }	@Test public void T_getList_1() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); Map<String,Object> dataContainer = new HashMap<String,Object>(); List<Object> array = new ArrayList<Object>(); array.add( new StringObj( "a" ) ); array.add( new StringObj( "b" ) ); array.add( new StringObj( "c" ) ); dataContainer.put( "array" , array ); Spread spread = new Spread(); spread.addRow( dataContainer ); ColumnAndIndex columnAndIndex = new ColumnAndIndex( spread.getColumn( "array" ) , 0 , 0 ); List list = inspector.getList( columnAndIndex ); assertEquals( 3 , list.size() ); assertEquals( new Text( "a" ) , (Text)( list.get(0) ) ); assertEquals( new Text( "b" ) , (Text)( list.get(1) ) ); assertEquals( new Text( "c" ) , (Text)( list.get(2) ) ); } @Test public void T_getList_2() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); List<Object> target = new ArrayList<Object>(); target.add(1); List list = inspector.getList( target ); assertEquals( 1 , list.get(0) ); }
MDSListObjectInspector implements SettableListObjectInspector { @Override public String getTypeName() { StringBuilder buffer = new StringBuilder(); buffer.append("array<"); buffer.append( valueObjectInspector.getTypeName() ); buffer.append(">"); return buffer.toString(); } MDSListObjectInspector( final ListTypeInfo typeInfo ); @Override ObjectInspector getListElementObjectInspector(); @Override Object getListElement( final Object object, final int index ); @Override int getListLength( final Object object ); @Override List<?> getList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create( final int size ); @Override Object resize( final Object object , final int newSize ); @Override Object set( final Object object, final int index, final Object element ); }	@Test public void T_getTypeName_1() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); assertEquals( "array<string>" , inspector.getTypeName() ); }
MDSListObjectInspector implements SettableListObjectInspector { @Override public Category getCategory(){ return Category.LIST; } MDSListObjectInspector( final ListTypeInfo typeInfo ); @Override ObjectInspector getListElementObjectInspector(); @Override Object getListElement( final Object object, final int index ); @Override int getListLength( final Object object ); @Override List<?> getList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create( final int size ); @Override Object resize( final Object object , final int newSize ); @Override Object set( final Object object, final int index, final Object element ); }	@Test public void T_getCategory_1() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); assertEquals( Category.LIST , inspector.getCategory() ); }
MDSListObjectInspector implements SettableListObjectInspector { @Override public Object create( final int size ){ List<Object> list = new ArrayList<Object>( size ); for (int i = 0; i < size; i++) { list.add( null ); } return list; } MDSListObjectInspector( final ListTypeInfo typeInfo ); @Override ObjectInspector getListElementObjectInspector(); @Override Object getListElement( final Object object, final int index ); @Override int getListLength( final Object object ); @Override List<?> getList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create( final int size ); @Override Object resize( final Object object , final int newSize ); @Override Object set( final Object object, final int index, final Object element ); }	@Test public void T_create_1() throws IOException{ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); MDSListObjectInspector inspector = new MDSListObjectInspector( info ); List result = (List)( inspector.create( 5 ) ); assertEquals( 5 , result.size() ); assertEquals( null , result.get(0) ); assertEquals( null , result.get(1) ); assertEquals( null , result.get(2) ); assertEquals( null , result.get(3) ); assertEquals( null , result.get(4) ); }
MDSObjectInspectorFactory { public static ObjectInspector craeteObjectInspectorFromTypeInfo( final TypeInfo typeInfo ){ switch ( typeInfo.getCategory() ){ case STRUCT: return new MDSStructObjectInspector( (StructTypeInfo)typeInfo ); case MAP: return new MDSMapObjectInspector( (MapTypeInfo)typeInfo ); case LIST: return new MDSListObjectInspector( (ListTypeInfo)typeInfo ); case UNION: UnionTypeInfo unionTypeInfo = (UnionTypeInfo)typeInfo; List<ObjectInspector> unionList = new ArrayList<ObjectInspector>(); for( TypeInfo childTypeInfo : unionTypeInfo.getAllUnionObjectTypeInfos() ){ unionList.add( craeteObjectInspectorFromTypeInfo( childTypeInfo ) ); } return ObjectInspectorFactory.getStandardUnionObjectInspector( unionList ); case PRIMITIVE: PrimitiveTypeInfo primitiveTypeInfo = (PrimitiveTypeInfo)typeInfo; switch( primitiveTypeInfo.getPrimitiveCategory() ){ case STRING: return PrimitiveObjectInspectorFactory.writableStringObjectInspector; case BINARY: return PrimitiveObjectInspectorFactory.writableBinaryObjectInspector; case BOOLEAN: return PrimitiveObjectInspectorFactory.writableBooleanObjectInspector; case BYTE: return PrimitiveObjectInspectorFactory.writableByteObjectInspector; case DOUBLE: return PrimitiveObjectInspectorFactory.writableDoubleObjectInspector; case FLOAT: return PrimitiveObjectInspectorFactory.writableFloatObjectInspector; case INT: return PrimitiveObjectInspectorFactory.writableIntObjectInspector; case LONG: return PrimitiveObjectInspectorFactory.writableLongObjectInspector; case SHORT: return PrimitiveObjectInspectorFactory.writableShortObjectInspector; case DATE: case DECIMAL: case TIMESTAMP: case VOID: default: throw new UnsupportedOperationException( "Unknown primitive category " + primitiveTypeInfo.getPrimitiveCategory() ); } default: throw new UnsupportedOperationException( "Unknown category " + typeInfo.getCategory() ); } } private MDSObjectInspectorFactory(); static ObjectInspector craeteObjectInspectorFromTypeInfo( final TypeInfo typeInfo ); }	@Test public void T_craeteObjectInspectorFromTypeInfo_1(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.binaryTypeInfo ); assertTrue( oi instanceof BinaryObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_2(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.booleanTypeInfo ); assertTrue( oi instanceof BooleanObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_3(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.byteTypeInfo ); assertTrue( oi instanceof ByteObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_4(){ assertThrows( UnsupportedOperationException.class , () -> { ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.dateTypeInfo ); } ); } @Test public void T_craeteObjectInspectorFromTypeInfo_5(){ assertThrows( UnsupportedOperationException.class , () -> { ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.decimalTypeInfo ); } ); } @Test public void T_craeteObjectInspectorFromTypeInfo_6(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.doubleTypeInfo ); assertTrue( oi instanceof DoubleObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_7(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.floatTypeInfo ); assertTrue( oi instanceof FloatObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_8(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.intTypeInfo ); assertTrue( oi instanceof IntObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_9(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.longTypeInfo ); assertTrue( oi instanceof LongObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_10(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.shortTypeInfo ); assertTrue( oi instanceof ShortObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_11(){ ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.stringTypeInfo ); assertTrue( oi instanceof StringObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_12(){ assertThrows( UnsupportedOperationException.class , () -> { ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.timestampTypeInfo ); } ); } @Test public void T_craeteObjectInspectorFromTypeInfo_13(){ assertThrows( UnsupportedOperationException.class , () -> { ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.unknownTypeInfo ); } ); } @Test public void T_craeteObjectInspectorFromTypeInfo_14(){ assertThrows( UnsupportedOperationException.class , () -> { ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( TypeInfoFactory.voidTypeInfo ); } ); } @Test public void T_craeteObjectInspectorFromTypeInfo_15(){ ListTypeInfo info = new ListTypeInfo(); info.setListElementTypeInfo( TypeInfoFactory.stringTypeInfo ); ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( info ); assertTrue( oi instanceof ListObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_16(){ MapTypeInfo info = new MapTypeInfo(); info.setMapKeyTypeInfo( TypeInfoFactory.stringTypeInfo ); info.setMapValueTypeInfo( TypeInfoFactory.stringTypeInfo ); ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( info ); assertTrue( oi instanceof MapObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_17(){ StructTypeInfo info = new StructTypeInfo(); ArrayList<String> fieldNameList = new ArrayList<String>(); fieldNameList.add( "a" ); fieldNameList.add( "b" ); ArrayList<TypeInfo> typeInfoList = new ArrayList<TypeInfo>(); typeInfoList.add( TypeInfoFactory.stringTypeInfo ); typeInfoList.add( TypeInfoFactory.stringTypeInfo ); info.setAllStructFieldNames( fieldNameList ); info.setAllStructFieldTypeInfos( typeInfoList ); ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( info ); assertTrue( oi instanceof StructObjectInspector ); } @Test public void T_craeteObjectInspectorFromTypeInfo_18(){ UnionTypeInfo unionTypeInfo = new UnionTypeInfo(); List<TypeInfo> c = new ArrayList<TypeInfo>(); c.add( TypeInfoFactory.stringTypeInfo ); unionTypeInfo.setAllUnionObjectTypeInfos( c ); ObjectInspector oi = MDSObjectInspectorFactory.craeteObjectInspectorFromTypeInfo( unionTypeInfo ); assertTrue( oi instanceof UnionObjectInspector ); }
MDSSerde extends AbstractSerDe { @Override public void initialize( final Configuration conf, final Properties table ) throws SerDeException{ initialize( conf , table , table ); } @Override void initialize( final Configuration conf, final Properties table ); @Override void initialize( final Configuration conf, final Properties table , final Properties part ); @Override Object deserialize( final Writable writable ); @Override ObjectInspector getObjectInspector(); @Override Class<? extends Writable> getSerializedClass(); @Override Writable serialize( final Object obj, final ObjectInspector objInspector ); @Override SerDeStats getSerDeStats(); }	@Test public void T_initialize_1() throws SerDeException{ MDSSerde serde = new MDSSerde(); Configuration conf = new Configuration(); conf.set( ColumnProjectionUtils.READ_COLUMN_NAMES_CONF_STR , "" ); Properties table = new Properties(); table.setProperty( serdeConstants.LIST_COLUMNS , "str,num,arry,nest" ); table.setProperty( serdeConstants.LIST_COLUMN_TYPES , "string,int,array<string>,struct<a:string,b:int>" ); serde.initialize( conf , table ); }
MDSSerde extends AbstractSerDe { @Override public Object deserialize( final Writable writable ) throws SerDeException { return writable; } @Override void initialize( final Configuration conf, final Properties table ); @Override void initialize( final Configuration conf, final Properties table , final Properties part ); @Override Object deserialize( final Writable writable ); @Override ObjectInspector getObjectInspector(); @Override Class<? extends Writable> getSerializedClass(); @Override Writable serialize( final Object obj, final ObjectInspector objInspector ); @Override SerDeStats getSerDeStats(); }	@Test public void T_deserialize_1() throws SerDeException{ MDSSerde serde = new MDSSerde(); Writable a = new Text( "a" ); Writable b = (Writable)( serde.deserialize( a ) ); assertEquals( a , b ); }
MDSSerde extends AbstractSerDe { @Override public Class<? extends Writable> getSerializedClass(){ return ParserWritable.class; } @Override void initialize( final Configuration conf, final Properties table ); @Override void initialize( final Configuration conf, final Properties table , final Properties part ); @Override Object deserialize( final Writable writable ); @Override ObjectInspector getObjectInspector(); @Override Class<? extends Writable> getSerializedClass(); @Override Writable serialize( final Object obj, final ObjectInspector objInspector ); @Override SerDeStats getSerDeStats(); }	@Test public void T_getSerializedClass_1() throws SerDeException{ MDSSerde serde = new MDSSerde(); assertEquals( ParserWritable.class , serde.getSerializedClass() ); }
CreateExtractNodeUtil { public static IExtractNode getExtractNode(final ExprNodeDesc target ){ if( target instanceof ExprNodeGenericFuncDesc ){ return getExtractNodeFromGenericFunc( (ExprNodeGenericFuncDesc)target ); } else if( target instanceof ExprNodeFieldDesc ){ return getExtractNodeFromField( (ExprNodeFieldDesc)target ); } else if( target instanceof ExprNodeColumnDesc ){ if( ( (ExprNodeColumnDesc)target ).getIsPartitionColOrVirtualCol() ){ return null; } return getExtractNodeFromColumn( (ExprNodeColumnDesc)target ); } return null; } private CreateExtractNodeUtil(); static IExtractNode getExtractNode(final ExprNodeDesc target ); static IExtractNode getExtractNodeFromGenericFunc( final ExprNodeGenericFuncDesc target ); static IExtractNode getExtractNodeFromGenericIndex( final ExprNodeGenericFuncDesc exprNodeDesc , final GenericUDF udf ); static IExtractNode getExtractNodeFromField( final ExprNodeFieldDesc target ); static IExtractNode getExtractNodeFromColumn( final ExprNodeColumnDesc target ); }	@Test public void T_getExtractNode_2(){ ExprNodeConstantDesc nodeDesc = new ExprNodeConstantDesc(); assertEquals( CreateExtractNodeUtil.getExtractNode( nodeDesc ) , null ); }
CreateExtractNodeUtil { public static IExtractNode getExtractNodeFromGenericIndex( final ExprNodeGenericFuncDesc exprNodeDesc , final GenericUDF udf ){ if( ! ( udf instanceof GenericUDFIndex ) ){ return null; } List<ExprNodeDesc> nodeDescList = exprNodeDesc.getChildren(); if( nodeDescList.size() != 2 ){ return null; } ExprNodeDesc exprNode1 = nodeDescList.get( 0 ); ExprNodeDesc exprNode2 = nodeDescList.get( 1 ); ExprNodeDesc columnDesc; ExprNodeConstantDesc constantDesc; if( exprNode1 instanceof ExprNodeConstantDesc ){ columnDesc = exprNode2; constantDesc = (ExprNodeConstantDesc)exprNode1; } else if( exprNode2 instanceof ExprNodeConstantDesc ){ columnDesc = exprNode1; constantDesc = (ExprNodeConstantDesc)exprNode2; } else{ return null; } ObjectInspector objectInspector = constantDesc.getWritableObjectInspector(); if( objectInspector.getCategory() != ObjectInspector.Category.PRIMITIVE ){ return null; } PrimitiveObjectInspector primitiveObjectInspector = (PrimitiveObjectInspector)objectInspector; if( primitiveObjectInspector.getPrimitiveCategory() != PrimitiveObjectInspector.PrimitiveCategory.STRING ){ return null; } IExtractNode childExtraNode = new StringExtractNode( ( (WritableConstantStringObjectInspector)primitiveObjectInspector ).getWritableConstantValue().toString() ); IExtractNode parentExtraNode = getExtractNode( columnDesc ); parentExtraNode.pushChild( childExtraNode ); return parentExtraNode; } private CreateExtractNodeUtil(); static IExtractNode getExtractNode(final ExprNodeDesc target ); static IExtractNode getExtractNodeFromGenericFunc( final ExprNodeGenericFuncDesc target ); static IExtractNode getExtractNodeFromGenericIndex( final ExprNodeGenericFuncDesc exprNodeDesc , final GenericUDF udf ); static IExtractNode getExtractNodeFromField( final ExprNodeFieldDesc target ); static IExtractNode getExtractNodeFromColumn( final ExprNodeColumnDesc target ); }	@Test public void T_getExtractNodeFromGenericIndex_1(){ GenericUDF udf = new GenericUDFTimestamp(); List<ExprNodeDesc> childList = new ArrayList<ExprNodeDesc>(); childList.add( new ExprNodeColumnDesc( TypeInfoFactory.booleanTypeInfo , "col1" , "col1" , false ) ); childList.add( new ExprNodeConstantDesc( TypeInfoFactory.stringTypeInfo , "child_name" ) ); ExprNodeGenericFuncDesc funcDesc = new ExprNodeGenericFuncDesc( TypeInfoFactory.booleanTypeInfo , udf , childList ); assertEquals( CreateExtractNodeUtil.getExtractNodeFromGenericIndex( funcDesc , udf ) , null ); } @Test public void T_getExtractNodeFromGenericIndex_2(){ GenericUDF udf = new GenericUDFTimestamp(); List<ExprNodeDesc> childList = new ArrayList<ExprNodeDesc>(); childList.add( new ExprNodeColumnDesc( TypeInfoFactory.booleanTypeInfo , "col1" , "col1" , false ) ); childList.add( new ExprNodeConstantDesc( TypeInfoFactory.stringTypeInfo , "child_name" ) ); childList.add( new ExprNodeConstantDesc( TypeInfoFactory.stringTypeInfo , "child_name" ) ); ExprNodeGenericFuncDesc funcDesc = new ExprNodeGenericFuncDesc( TypeInfoFactory.booleanTypeInfo , udf , childList ); assertEquals( CreateExtractNodeUtil.getExtractNodeFromGenericIndex( funcDesc , udf ) , null ); } @Test public void T_getExtractNodeFromGenericIndex_3(){ GenericUDF udf = new GenericUDFTimestamp(); List<ExprNodeDesc> childList = new ArrayList<ExprNodeDesc>(); childList.add( new ExprNodeColumnDesc( TypeInfoFactory.booleanTypeInfo , "col1" , "col1" , false ) ); childList.add( new ExprNodeColumnDesc( TypeInfoFactory.booleanTypeInfo , "col1" , "col1" , false ) ); ExprNodeGenericFuncDesc funcDesc = new ExprNodeGenericFuncDesc( TypeInfoFactory.booleanTypeInfo , udf , childList ); assertEquals( CreateExtractNodeUtil.getExtractNodeFromGenericIndex( funcDesc , udf ) , null ); } @Test public void T_getExtractNodeFromGenericIndex_4(){ MapTypeInfo info = new MapTypeInfo(); info.setMapKeyTypeInfo( TypeInfoFactory.stringTypeInfo ); info.setMapValueTypeInfo( TypeInfoFactory.stringTypeInfo ); GenericUDF udf = new GenericUDFTimestamp(); List<ExprNodeDesc> childList = new ArrayList<ExprNodeDesc>(); childList.add( new ExprNodeColumnDesc( TypeInfoFactory.booleanTypeInfo , "col1" , "col1" , false ) ); childList.add( new ExprNodeConstantDesc( info , "child_name" ) ); ExprNodeGenericFuncDesc funcDesc = new ExprNodeGenericFuncDesc( TypeInfoFactory.booleanTypeInfo , udf , childList ); assertEquals( CreateExtractNodeUtil.getExtractNodeFromGenericIndex( funcDesc , udf ) , null ); } @Test public void T_getExtractNodeFromGenericIndex_5(){ GenericUDF udf = new GenericUDFTimestamp(); List<ExprNodeDesc> childList = new ArrayList<ExprNodeDesc>(); childList.add( new ExprNodeColumnDesc( TypeInfoFactory.booleanTypeInfo , "col1" , "col1" , false ) ); childList.add( new ExprNodeConstantDesc( TypeInfoFactory.booleanTypeInfo , "child_name" ) ); ExprNodeGenericFuncDesc funcDesc = new ExprNodeGenericFuncDesc( TypeInfoFactory.booleanTypeInfo , udf , childList ); assertEquals( CreateExtractNodeUtil.getExtractNodeFromGenericIndex( funcDesc , udf ) , null ); }
HiveReaderSetting implements IReaderSetting { public Set<String> createPathSet( final Path target ){ Set<String> result = new HashSet<String>(); result.add( target.toString() ); result.add( target.toUri().toString() ); result.add( target.getParent().toUri().toString() ); return result; } HiveReaderSetting( final Configuration config , final IExpressionNode node , final boolean isVectorModeFlag , final boolean disableSkipBlock , final boolean disableFilterPushdown ); HiveReaderSetting( final FileSplit split, final JobConf job ); String createReadColumnNames( final String readColumnNames ); IExpressionNode createExpressionNode( final List<ExprNodeGenericFuncDesc> filterExprs ); Set<String> createPathSet( final Path target ); @Override boolean isVectorMode(); @Override boolean isDisableSkipBlock(); @Override boolean isDisableFilterPushdown(); @Override Configuration getReaderConfig(); @Override IExpressionNode getExpressionNode(); }	@Test public void T_createPathSet_1(){ Path test = new Path( "file: HiveReaderSetting setting = new HiveReaderSetting( null , null , false , false , false ); Set<String> set = setting.createPathSet( test ); System.out.println( set.toString() ); assertTrue( set.contains( "file:/a/b" ) ); assertTrue( set.contains( "file: assertTrue( set.contains( "file:/a/b/c" ) ); }
BooleanHiveExpr implements IHiveExprNode { @Override public IExpressionNode getPushDownFilterNode(){ if( extractNode == null ){ return null; } return new ExecuterNode( extractNode , new BooleanFilter( true ) ); } BooleanHiveExpr( final ExprNodeDesc nodeDesc ); BooleanHiveExpr( final ExprNodeGenericFuncDesc exprNodeDesc , final GenericUDFIndex udf ); @Override void addChildNode( final ExprNodeGenericFuncDesc exprNodeDesc ); @Override IExpressionNode getPushDownFilterNode(); }	@Test public void T_newInstance_2(){ GenericUDFIndex udfIndex = new GenericUDFIndex(); List<ExprNodeDesc> childList = new ArrayList<ExprNodeDesc>(); childList.add( new ExprNodeColumnDesc( TypeInfoFactory.booleanTypeInfo , "col1" , "col1" , false ) ); childList.add( new ExprNodeConstantDesc( TypeInfoFactory.stringTypeInfo , "child_name" ) ); ExprNodeGenericFuncDesc funcDesc = new ExprNodeGenericFuncDesc( TypeInfoFactory.booleanTypeInfo , udfIndex , childList ); System.out.println( funcDesc.toString() ); BooleanHiveExpr expr = new BooleanHiveExpr( funcDesc ); assertTrue( expr.getPushDownFilterNode() instanceof ExecuterNode); }
BooleanHiveExpr implements IHiveExprNode { @Override public void addChildNode( final ExprNodeGenericFuncDesc exprNodeDesc ){ throw new UnsupportedOperationException( "IHiveExprNode node can not have child node." ); } BooleanHiveExpr( final ExprNodeDesc nodeDesc ); BooleanHiveExpr( final ExprNodeGenericFuncDesc exprNodeDesc , final GenericUDFIndex udf ); @Override void addChildNode( final ExprNodeGenericFuncDesc exprNodeDesc ); @Override IExpressionNode getPushDownFilterNode(); }	@Test public void T_addChild_1(){ ExprNodeColumnDesc nodeColumnDesc = new ExprNodeColumnDesc( TypeInfoFactory.booleanTypeInfo , "col1" , "col1" , false ); System.out.println( nodeColumnDesc.toString() ); BooleanHiveExpr expr = new BooleanHiveExpr( nodeColumnDesc ); assertThrows( UnsupportedOperationException.class , () -> { expr.addChildNode( null ); } ); }
MDSStructObjectInspector extends SettableStructObjectInspector { @Override public List<StructField> getAllStructFieldRefs() { return fields; } MDSStructObjectInspector( final StructTypeInfo typeInfo ); @Override List<StructField> getAllStructFieldRefs(); @Override StructField getStructFieldRef( final String s ); @Override Object getStructFieldData( final Object object, final StructField field ); @Override List<Object> getStructFieldsDataAsList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create(); @Override Object setStructFieldData( final Object object, final StructField field , final Object fieldValue ); @Override boolean equals( final Object o ); }	@Test public void T_getAllStructFieldRefs_1(){ MDSStructObjectInspector inspector = new MDSStructObjectInspector( getTypeInfo() ); List<StructField> fieldList = inspector.getAllStructFieldRefs(); assertEquals( fieldList.get( 0 ).getFieldName() , "str" ); assertEquals( fieldList.get( 1 ).getFieldName() , "num" ); assertEquals( fieldList.get( 2 ).getFieldName() , "arr" ); assertEquals( fieldList.get( 3 ).getFieldName() , "uni" ); assertEquals( fieldList.get( 0 ).getFieldID() , 0 ); assertEquals( fieldList.get( 1 ).getFieldID() , 1 ); assertEquals( fieldList.get( 2 ).getFieldID() , 2 ); assertEquals( fieldList.get( 3 ).getFieldID() , 3 ); assertEquals( fieldList.get( 0 ).getFieldComment() , null ); assertEquals( fieldList.get( 1 ).getFieldComment() , null ); assertEquals( fieldList.get( 2 ).getFieldComment() , null ); assertEquals( fieldList.get( 3 ).getFieldComment() , null ); assertTrue( fieldList.get( 0 ).getFieldObjectInspector() instanceof StringObjectInspector ); assertTrue( fieldList.get( 1 ).getFieldObjectInspector() instanceof IntObjectInspector ); assertTrue( fieldList.get( 2 ).getFieldObjectInspector() instanceof ListObjectInspector ); assertTrue( fieldList.get( 3 ).getFieldObjectInspector() instanceof UnionObjectInspector ); }
MDSStructObjectInspector extends SettableStructObjectInspector { @Override public StructField getStructFieldRef( final String s ) { return fieldsMap.get( s ); } MDSStructObjectInspector( final StructTypeInfo typeInfo ); @Override List<StructField> getAllStructFieldRefs(); @Override StructField getStructFieldRef( final String s ); @Override Object getStructFieldData( final Object object, final StructField field ); @Override List<Object> getStructFieldsDataAsList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create(); @Override Object setStructFieldData( final Object object, final StructField field , final Object fieldValue ); @Override boolean equals( final Object o ); }	@Test public void T_getStructFieldRef_1(){ MDSStructObjectInspector inspector = new MDSStructObjectInspector( getTypeInfo() ); assertEquals( inspector.getStructFieldRef( "uni" ).getFieldName() , "uni" ); assertEquals( inspector.getStructFieldRef( "uni" ).getFieldID() , 3 ); assertEquals( inspector.getStructFieldRef( "uni" ).getFieldComment() , null ); assertTrue( inspector.getStructFieldRef( "uni" ).getFieldObjectInspector() instanceof UnionObjectInspector ); }
MDSStructObjectInspector extends SettableStructObjectInspector { @Override public String getTypeName() { StringBuilder buffer = new StringBuilder(); buffer.append("struct<"); for( int i = 0 ; i < fields.size() ; ++i ){ StructField field = fields.get(i); if (i != 0) { buffer.append(","); } buffer.append( field.getFieldName() ); buffer.append(":"); buffer.append(field.getFieldObjectInspector().getTypeName()); } buffer.append(">"); return buffer.toString(); } MDSStructObjectInspector( final StructTypeInfo typeInfo ); @Override List<StructField> getAllStructFieldRefs(); @Override StructField getStructFieldRef( final String s ); @Override Object getStructFieldData( final Object object, final StructField field ); @Override List<Object> getStructFieldsDataAsList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create(); @Override Object setStructFieldData( final Object object, final StructField field , final Object fieldValue ); @Override boolean equals( final Object o ); }	@Test public void T_getTypeName_1(){ MDSStructObjectInspector inspector = new MDSStructObjectInspector( getTypeInfo() ); assertEquals( inspector.getTypeName() , "struct<str:string,num:int,arr:array<string>,uni:uniontype<string,int>>" ); }
MDSStructObjectInspector extends SettableStructObjectInspector { @Override public Category getCategory() { return Category.STRUCT; } MDSStructObjectInspector( final StructTypeInfo typeInfo ); @Override List<StructField> getAllStructFieldRefs(); @Override StructField getStructFieldRef( final String s ); @Override Object getStructFieldData( final Object object, final StructField field ); @Override List<Object> getStructFieldsDataAsList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create(); @Override Object setStructFieldData( final Object object, final StructField field , final Object fieldValue ); @Override boolean equals( final Object o ); }	@Test public void T_getCategory_1(){ MDSStructObjectInspector inspector = new MDSStructObjectInspector( getTypeInfo() ); assertEquals( inspector.getCategory() , Category.STRUCT ); }
MDSStructObjectInspector extends SettableStructObjectInspector { @Override public Object create() { List<Object> result = new ArrayList<Object>( fields.size() ); for( int i = 0 ; i < fields.size() ; i++ ){ result.add( null ); } return result; } MDSStructObjectInspector( final StructTypeInfo typeInfo ); @Override List<StructField> getAllStructFieldRefs(); @Override StructField getStructFieldRef( final String s ); @Override Object getStructFieldData( final Object object, final StructField field ); @Override List<Object> getStructFieldsDataAsList( final Object object ); @Override String getTypeName(); @Override Category getCategory(); @Override Object create(); @Override Object setStructFieldData( final Object object, final StructField field , final Object fieldValue ); @Override boolean equals( final Object o ); }	@Test public void T_create_1(){ MDSStructObjectInspector inspector = new MDSStructObjectInspector( getTypeInfo() ); assertEquals( ( (List<Object>)( inspector.create() ) ).size() , 4 ); }

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