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@Test(expected = IllegalArgumentException.class) public void testIndexForbiddenDuringExecute() { tested = new DeleteCanvasControlPointCommand(edge, 3); tested.execute(canvasHandler); }
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@Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, candidate, view -> { this.deletedControlPoint = view.getManageableControlPoints()[index]; view.deleteControlPoint(index); }); return buildResult(); }
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DeleteCanvasControlPointCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, candidate, view -> { this.deletedControlPoint = view.getManageableControlPoints()[index]; view.deleteControlPoint(index); }); return buildResult(); } }
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DeleteCanvasControlPointCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, candidate, view -> { this.deletedControlPoint = view.getManageableControlPoints()[index]; view.deleteControlPoint(index); }); return buildResult(); } DeleteCanvasControlPointCommand(final Edge candidate,
final int index); }
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DeleteCanvasControlPointCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, candidate, view -> { this.deletedControlPoint = view.getManageableControlPoints()[index]; view.deleteControlPoint(index); }); return buildResult(); } DeleteCanvasControlPointCommand(final Edge candidate,
final int index); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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DeleteCanvasControlPointCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, candidate, view -> { this.deletedControlPoint = view.getManageableControlPoints()[index]; view.deleteControlPoint(index); }); return buildResult(); } DeleteCanvasControlPointCommand(final Edge candidate,
final int index); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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@Test public void testCheck() { tested = new UpdateCanvasControlPointPositionCommand(edge, newControlPoints); CommandResult<CanvasViolation> result = tested.allow(canvasHandler); assertFalse(CommandUtils.isError(result)); }
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@Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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@Test(expected = IllegalArgumentException.class) public void testCannotUpdateCPs() { newControlPoints = new ControlPoint[]{newControlPoint1, newControlPoint2}; tested = new UpdateCanvasControlPointPositionCommand(edge, newControlPoints); tested.allow(canvasHandler); }
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@Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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@Test(expected = IllegalArgumentException.class) public void testCannotUpdateCPsDuringExecute() { newControlPoints = new ControlPoint[]{newControlPoint1, newControlPoint2}; tested = new UpdateCanvasControlPointPositionCommand(edge, newControlPoints); tested.execute(canvasHandler); }
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@Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); } }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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@Test(expected = IllegalArgumentException.class) public void testCannotUpdateCPs2() { viewConnector.setControlPoints(new ControlPoint[]{controlPoint1, controlPoint2}); tested = new UpdateCanvasControlPointPositionCommand(edge, newControlPoints); tested.allow(canvasHandler); }
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@Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context) { ControlPointValidations.checkUpdateControlPoint(getControlPoints(edge), controlPoints); return CanvasCommandResultBuilder.SUCCESS; } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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@Test public void execute() { checkExecution(true); }
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@Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); } }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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UpdateCanvasControlPointPositionCommand extends AbstractCanvasCommand { @Override public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { allow(context); consumeControlPoints(context, edge, view -> view.updateControlPoints(controlPoints)); return buildResult(); } UpdateCanvasControlPointPositionCommand(final Edge edge,
final ControlPoint[] controlPoints); @Override CommandResult<CanvasViolation> allow(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); @Override String toString(); }
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@Test @SuppressWarnings("unchecked") public void testExecute() { final CommandResult<CanvasViolation> result = tested.execute(canvasHandler); assertNotEquals(CommandResult.Type.ERROR, result.getType()); verify(canvasHandler, times(1)).removeChild(eq(graph1Instance.startNode), eq(graph1Instance.intermNode)); verify(canvasHandler, never()).applyElementMutation(eq(graph1Instance.startNode), any(MutationContext.class)); verify(canvasHandler, never()).applyElementMutation(eq(graph1Instance.intermNode), any(MutationContext.class)); verify(connectorShapeView1, times(1)).moveToTop(); verify(connectorShapeView1, never()).moveToBottom(); verify(connectorShapeView1, never()).moveUp(); verify(connectorShapeView1, never()).moveDown(); verify(connectorShapeView2, times(1)).moveToTop(); verify(connectorShapeView2, never()).moveToBottom(); verify(connectorShapeView2, never()).moveUp(); verify(connectorShapeView2, never()).moveDown(); }
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@Override @SuppressWarnings("unchecked") public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { children.forEach(child -> { context.removeChild(parent, child); moveViewConnectorsToTop(context, child); }); return buildResult(); }
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RemoveCanvasChildrenCommand extends AbstractCanvasCommand { @Override @SuppressWarnings("unchecked") public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { children.forEach(child -> { context.removeChild(parent, child); moveViewConnectorsToTop(context, child); }); return buildResult(); } }
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RemoveCanvasChildrenCommand extends AbstractCanvasCommand { @Override @SuppressWarnings("unchecked") public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { children.forEach(child -> { context.removeChild(parent, child); moveViewConnectorsToTop(context, child); }); return buildResult(); } RemoveCanvasChildrenCommand(final Node parent,
final Collection<Node<?, Edge>> children); RemoveCanvasChildrenCommand(final Node parent,
final Node<?, Edge> child); }
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RemoveCanvasChildrenCommand extends AbstractCanvasCommand { @Override @SuppressWarnings("unchecked") public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { children.forEach(child -> { context.removeChild(parent, child); moveViewConnectorsToTop(context, child); }); return buildResult(); } RemoveCanvasChildrenCommand(final Node parent,
final Collection<Node<?, Edge>> children); RemoveCanvasChildrenCommand(final Node parent,
final Node<?, Edge> child); @Override @SuppressWarnings("unchecked") CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); Node getParent(); Collection<Node<?, Edge>> getChildren(); @Override String toString(); }
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RemoveCanvasChildrenCommand extends AbstractCanvasCommand { @Override @SuppressWarnings("unchecked") public CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context) { children.forEach(child -> { context.removeChild(parent, child); moveViewConnectorsToTop(context, child); }); return buildResult(); } RemoveCanvasChildrenCommand(final Node parent,
final Collection<Node<?, Edge>> children); RemoveCanvasChildrenCommand(final Node parent,
final Node<?, Edge> child); @Override @SuppressWarnings("unchecked") CommandResult<CanvasViolation> execute(final AbstractCanvasHandler context); @Override CommandResult<CanvasViolation> undo(final AbstractCanvasHandler context); Node getParent(); Collection<Node<?, Edge>> getChildren(); @Override String toString(); }
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@Test public void checkApplyElementMutationOnPosition() { final ElementShape shape = mock(ElementShape.class); final Element candidate = mock(Element.class); final boolean applyPosition = true; final boolean applyProperties = false; final MutationContext mutationContext = mock(MutationContext.class); canvasHandler.applyElementMutation(shape, candidate, applyPosition, applyProperties, mutationContext); verify(shape, atLeastOnce()).applyPosition(any(), any()); verify(canvasElementUpdatedEvent, atLeastOnce()).fire(any()); }
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@Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); abstract void draw(ParameterizedCommand<CommandResult> loadCallback); @Override CanvasHandler<D, C> handle(final C canvas); @Override @SuppressWarnings("unchecked") void draw(final D diagram,
final ParameterizedCommand<CommandResult> loadCallback); @Override RuleSet getRuleSet(); @Override C getCanvas(); @Override D getDiagram(); @Override @SuppressWarnings("unchecked") ShapeFactory<Object, Shape> getShapeFactory(final String shapeSetId); @Override void register(final Shape shape,
final Element<View<?>> candidate,
final boolean fireEvents); @Override void deregister(final Shape shape,
final Element element,
final boolean fireEvents); void addShape(final Shape shape); void removeShape(final Shape shape); @Override @SuppressWarnings("unchecked") void applyElementMutation(final Shape shape,
final Element candidate,
final boolean applyPosition,
final boolean applyProperties,
final MutationContext mutationContext); @Override @SuppressWarnings("unchecked") void addChild(final Element parent,
final Element child); @Override void addChild(final Element parent,
final Element child,
final int index); @Override @SuppressWarnings("unchecked") void removeChild(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") Optional<Element> getElementAt(final double x,
final double y); @Override boolean dock(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") void undock(final Element target,
final Element child); @Override CanvasHandler<D, C> doClear(); @Override void doDestroy(); @Override DefinitionManager getDefinitionManager(); @Override TextPropertyProviderFactory getTextPropertyProviderFactory(); GraphUtils getGraphUtils(); ShapeManager getShapeManager(); }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); abstract void draw(ParameterizedCommand<CommandResult> loadCallback); @Override CanvasHandler<D, C> handle(final C canvas); @Override @SuppressWarnings("unchecked") void draw(final D diagram,
final ParameterizedCommand<CommandResult> loadCallback); @Override RuleSet getRuleSet(); @Override C getCanvas(); @Override D getDiagram(); @Override @SuppressWarnings("unchecked") ShapeFactory<Object, Shape> getShapeFactory(final String shapeSetId); @Override void register(final Shape shape,
final Element<View<?>> candidate,
final boolean fireEvents); @Override void deregister(final Shape shape,
final Element element,
final boolean fireEvents); void addShape(final Shape shape); void removeShape(final Shape shape); @Override @SuppressWarnings("unchecked") void applyElementMutation(final Shape shape,
final Element candidate,
final boolean applyPosition,
final boolean applyProperties,
final MutationContext mutationContext); @Override @SuppressWarnings("unchecked") void addChild(final Element parent,
final Element child); @Override void addChild(final Element parent,
final Element child,
final int index); @Override @SuppressWarnings("unchecked") void removeChild(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") Optional<Element> getElementAt(final double x,
final double y); @Override boolean dock(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") void undock(final Element target,
final Element child); @Override CanvasHandler<D, C> doClear(); @Override void doDestroy(); @Override DefinitionManager getDefinitionManager(); @Override TextPropertyProviderFactory getTextPropertyProviderFactory(); GraphUtils getGraphUtils(); ShapeManager getShapeManager(); }
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@Test public void checkApplyElementMutationNotifyQueued() { canvasHandler.setStaticContext(queueGraphExecutionContext); final ElementShape shape = mock(ElementShape.class); final Element candidate = mock(Element.class); final boolean applyPosition = true; final boolean applyProperties = false; final MutationContext mutationContext = mock(MutationContext.class); canvasHandler.applyElementMutation(shape, candidate, applyPosition, applyProperties, mutationContext); verify(shape, atLeastOnce()).applyPosition(any(), any()); verify(canvasElementUpdatedEvent, atLeastOnce()).fire(any()); verify(queueGraphExecutionContext, times(1)).addElement(candidate); }
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@Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); abstract void draw(ParameterizedCommand<CommandResult> loadCallback); @Override CanvasHandler<D, C> handle(final C canvas); @Override @SuppressWarnings("unchecked") void draw(final D diagram,
final ParameterizedCommand<CommandResult> loadCallback); @Override RuleSet getRuleSet(); @Override C getCanvas(); @Override D getDiagram(); @Override @SuppressWarnings("unchecked") ShapeFactory<Object, Shape> getShapeFactory(final String shapeSetId); @Override void register(final Shape shape,
final Element<View<?>> candidate,
final boolean fireEvents); @Override void deregister(final Shape shape,
final Element element,
final boolean fireEvents); void addShape(final Shape shape); void removeShape(final Shape shape); @Override @SuppressWarnings("unchecked") void applyElementMutation(final Shape shape,
final Element candidate,
final boolean applyPosition,
final boolean applyProperties,
final MutationContext mutationContext); @Override @SuppressWarnings("unchecked") void addChild(final Element parent,
final Element child); @Override void addChild(final Element parent,
final Element child,
final int index); @Override @SuppressWarnings("unchecked") void removeChild(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") Optional<Element> getElementAt(final double x,
final double y); @Override boolean dock(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") void undock(final Element target,
final Element child); @Override CanvasHandler<D, C> doClear(); @Override void doDestroy(); @Override DefinitionManager getDefinitionManager(); @Override TextPropertyProviderFactory getTextPropertyProviderFactory(); GraphUtils getGraphUtils(); ShapeManager getShapeManager(); }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); abstract void draw(ParameterizedCommand<CommandResult> loadCallback); @Override CanvasHandler<D, C> handle(final C canvas); @Override @SuppressWarnings("unchecked") void draw(final D diagram,
final ParameterizedCommand<CommandResult> loadCallback); @Override RuleSet getRuleSet(); @Override C getCanvas(); @Override D getDiagram(); @Override @SuppressWarnings("unchecked") ShapeFactory<Object, Shape> getShapeFactory(final String shapeSetId); @Override void register(final Shape shape,
final Element<View<?>> candidate,
final boolean fireEvents); @Override void deregister(final Shape shape,
final Element element,
final boolean fireEvents); void addShape(final Shape shape); void removeShape(final Shape shape); @Override @SuppressWarnings("unchecked") void applyElementMutation(final Shape shape,
final Element candidate,
final boolean applyPosition,
final boolean applyProperties,
final MutationContext mutationContext); @Override @SuppressWarnings("unchecked") void addChild(final Element parent,
final Element child); @Override void addChild(final Element parent,
final Element child,
final int index); @Override @SuppressWarnings("unchecked") void removeChild(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") Optional<Element> getElementAt(final double x,
final double y); @Override boolean dock(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") void undock(final Element target,
final Element child); @Override CanvasHandler<D, C> doClear(); @Override void doDestroy(); @Override DefinitionManager getDefinitionManager(); @Override TextPropertyProviderFactory getTextPropertyProviderFactory(); GraphUtils getGraphUtils(); ShapeManager getShapeManager(); }
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@Test public void checkApplyElementMutationNullQueue() { canvasHandler.setStaticContext(null); final ElementShape shape = mock(ElementShape.class); final Element candidate = mock(Element.class); final boolean applyPosition = true; final boolean applyProperties = false; final MutationContext mutationContext = mock(MutationContext.class); canvasHandler.applyElementMutation(shape, candidate, applyPosition, applyProperties, mutationContext); verify(shape, atLeastOnce()).applyPosition(any(), any()); verify(canvasElementUpdatedEvent, atLeastOnce()).fire(any()); verify(queueGraphExecutionContext, never()).addElement(candidate); }
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@Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); abstract void draw(ParameterizedCommand<CommandResult> loadCallback); @Override CanvasHandler<D, C> handle(final C canvas); @Override @SuppressWarnings("unchecked") void draw(final D diagram,
final ParameterizedCommand<CommandResult> loadCallback); @Override RuleSet getRuleSet(); @Override C getCanvas(); @Override D getDiagram(); @Override @SuppressWarnings("unchecked") ShapeFactory<Object, Shape> getShapeFactory(final String shapeSetId); @Override void register(final Shape shape,
final Element<View<?>> candidate,
final boolean fireEvents); @Override void deregister(final Shape shape,
final Element element,
final boolean fireEvents); void addShape(final Shape shape); void removeShape(final Shape shape); @Override @SuppressWarnings("unchecked") void applyElementMutation(final Shape shape,
final Element candidate,
final boolean applyPosition,
final boolean applyProperties,
final MutationContext mutationContext); @Override @SuppressWarnings("unchecked") void addChild(final Element parent,
final Element child); @Override void addChild(final Element parent,
final Element child,
final int index); @Override @SuppressWarnings("unchecked") void removeChild(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") Optional<Element> getElementAt(final double x,
final double y); @Override boolean dock(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") void undock(final Element target,
final Element child); @Override CanvasHandler<D, C> doClear(); @Override void doDestroy(); @Override DefinitionManager getDefinitionManager(); @Override TextPropertyProviderFactory getTextPropertyProviderFactory(); GraphUtils getGraphUtils(); ShapeManager getShapeManager(); }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); abstract void draw(ParameterizedCommand<CommandResult> loadCallback); @Override CanvasHandler<D, C> handle(final C canvas); @Override @SuppressWarnings("unchecked") void draw(final D diagram,
final ParameterizedCommand<CommandResult> loadCallback); @Override RuleSet getRuleSet(); @Override C getCanvas(); @Override D getDiagram(); @Override @SuppressWarnings("unchecked") ShapeFactory<Object, Shape> getShapeFactory(final String shapeSetId); @Override void register(final Shape shape,
final Element<View<?>> candidate,
final boolean fireEvents); @Override void deregister(final Shape shape,
final Element element,
final boolean fireEvents); void addShape(final Shape shape); void removeShape(final Shape shape); @Override @SuppressWarnings("unchecked") void applyElementMutation(final Shape shape,
final Element candidate,
final boolean applyPosition,
final boolean applyProperties,
final MutationContext mutationContext); @Override @SuppressWarnings("unchecked") void addChild(final Element parent,
final Element child); @Override void addChild(final Element parent,
final Element child,
final int index); @Override @SuppressWarnings("unchecked") void removeChild(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") Optional<Element> getElementAt(final double x,
final double y); @Override boolean dock(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") void undock(final Element target,
final Element child); @Override CanvasHandler<D, C> doClear(); @Override void doDestroy(); @Override DefinitionManager getDefinitionManager(); @Override TextPropertyProviderFactory getTextPropertyProviderFactory(); GraphUtils getGraphUtils(); ShapeManager getShapeManager(); }
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@Test public void testFocusOnDMNContainer() { final elemental2.dom.Element dmnContainerElement = mock(elemental2.dom.Element.class); doReturn(dmnContainerElement).when(view).getDMNContainer(); view.focusOnDMNContainer(null); verify(dmnContainerElement).focus(); }
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void focusOnDMNContainer(final Object o) { final Element element = getDMNContainer(); if (!Objects.isNull(element)) { element.focus(); } }
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CellEditorControlsViewImpl implements CellEditorControlsView { void focusOnDMNContainer(final Object o) { final Element element = getDMNContainer(); if (!Objects.isNull(element)) { element.focus(); } } }
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CellEditorControlsViewImpl implements CellEditorControlsView { void focusOnDMNContainer(final Object o) { final Element element = getDMNContainer(); if (!Objects.isNull(element)) { element.focus(); } } CellEditorControlsViewImpl(); @Inject CellEditorControlsViewImpl(final Document document,
final Div cellEditorControls,
final Div cellEditorControlsContainer); }
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CellEditorControlsViewImpl implements CellEditorControlsView { void focusOnDMNContainer(final Object o) { final Element element = getDMNContainer(); if (!Objects.isNull(element)) { element.focus(); } } CellEditorControlsViewImpl(); @Inject CellEditorControlsViewImpl(final Document document,
final Div cellEditorControls,
final Div cellEditorControlsContainer); Optional<PopupEditorControls> getActiveEditor(); void setActiveEditor(final Optional<PopupEditorControls> activeEditor); @PostConstruct void setup(); @PreDestroy void destroy(); @Override void show(final PopupEditorControls editor,
final int x,
final int y); @Override void hide(); }
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CellEditorControlsViewImpl implements CellEditorControlsView { void focusOnDMNContainer(final Object o) { final Element element = getDMNContainer(); if (!Objects.isNull(element)) { element.focus(); } } CellEditorControlsViewImpl(); @Inject CellEditorControlsViewImpl(final Document document,
final Div cellEditorControls,
final Div cellEditorControlsContainer); Optional<PopupEditorControls> getActiveEditor(); void setActiveEditor(final Optional<PopupEditorControls> activeEditor); @PostConstruct void setup(); @PreDestroy void destroy(); @Override void show(final PopupEditorControls editor,
final int x,
final int y); @Override void hide(); static final String LEFT; static final String TOP; }
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@Test public void checkNotifyElementUpdatedOnNonQueuedContext() { canvasHandler.addRegistrationListener(updateListener); canvasHandler.setStaticContext(contextualGraphExecutionContext); final ElementShape shape = mock(ElementShape.class); final Element candidate = mock(Element.class); final boolean applyPosition = true; final boolean applyProperties = false; final MutationContext mutationContext = mock(MutationContext.class); canvasHandler.applyElementMutation(shape, candidate, applyPosition, applyProperties, mutationContext); verify(shape, atLeastOnce()).applyPosition(any(), any()); verify(canvasElementUpdatedEvent, atLeastOnce()).fire(any()); verify(queueGraphExecutionContext, never()).addElement(candidate); }
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@Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); abstract void draw(ParameterizedCommand<CommandResult> loadCallback); @Override CanvasHandler<D, C> handle(final C canvas); @Override @SuppressWarnings("unchecked") void draw(final D diagram,
final ParameterizedCommand<CommandResult> loadCallback); @Override RuleSet getRuleSet(); @Override C getCanvas(); @Override D getDiagram(); @Override @SuppressWarnings("unchecked") ShapeFactory<Object, Shape> getShapeFactory(final String shapeSetId); @Override void register(final Shape shape,
final Element<View<?>> candidate,
final boolean fireEvents); @Override void deregister(final Shape shape,
final Element element,
final boolean fireEvents); void addShape(final Shape shape); void removeShape(final Shape shape); @Override @SuppressWarnings("unchecked") void applyElementMutation(final Shape shape,
final Element candidate,
final boolean applyPosition,
final boolean applyProperties,
final MutationContext mutationContext); @Override @SuppressWarnings("unchecked") void addChild(final Element parent,
final Element child); @Override void addChild(final Element parent,
final Element child,
final int index); @Override @SuppressWarnings("unchecked") void removeChild(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") Optional<Element> getElementAt(final double x,
final double y); @Override boolean dock(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") void undock(final Element target,
final Element child); @Override CanvasHandler<D, C> doClear(); @Override void doDestroy(); @Override DefinitionManager getDefinitionManager(); @Override TextPropertyProviderFactory getTextPropertyProviderFactory(); GraphUtils getGraphUtils(); ShapeManager getShapeManager(); }
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BaseCanvasHandler extends AbstractCanvasHandler<D, C> { @Override @SuppressWarnings("unchecked") public void applyElementMutation(final Shape shape, final Element candidate, final boolean applyPosition, final boolean applyProperties, final MutationContext mutationContext) { if (shape instanceof ElementShape) { final ElementShape graphShape = (ElementShape) shape; this.applyElementMutation(graphShape, candidate, applyPosition, applyProperties, mutationContext); } else { LOGGER.log(Level.WARNING, "The shape to handle must be type of [" + ElementShape.class.getName() + "]"); } } BaseCanvasHandler(final DefinitionManager definitionManager,
final GraphUtils graphUtils,
final ShapeManager shapeManager,
final TextPropertyProviderFactory textPropertyProviderFactory); abstract void draw(ParameterizedCommand<CommandResult> loadCallback); @Override CanvasHandler<D, C> handle(final C canvas); @Override @SuppressWarnings("unchecked") void draw(final D diagram,
final ParameterizedCommand<CommandResult> loadCallback); @Override RuleSet getRuleSet(); @Override C getCanvas(); @Override D getDiagram(); @Override @SuppressWarnings("unchecked") ShapeFactory<Object, Shape> getShapeFactory(final String shapeSetId); @Override void register(final Shape shape,
final Element<View<?>> candidate,
final boolean fireEvents); @Override void deregister(final Shape shape,
final Element element,
final boolean fireEvents); void addShape(final Shape shape); void removeShape(final Shape shape); @Override @SuppressWarnings("unchecked") void applyElementMutation(final Shape shape,
final Element candidate,
final boolean applyPosition,
final boolean applyProperties,
final MutationContext mutationContext); @Override @SuppressWarnings("unchecked") void addChild(final Element parent,
final Element child); @Override void addChild(final Element parent,
final Element child,
final int index); @Override @SuppressWarnings("unchecked") void removeChild(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") Optional<Element> getElementAt(final double x,
final double y); @Override boolean dock(final Element parent,
final Element child); @Override @SuppressWarnings("unchecked") void undock(final Element target,
final Element child); @Override CanvasHandler<D, C> doClear(); @Override void doDestroy(); @Override DefinitionManager getDefinitionManager(); @Override TextPropertyProviderFactory getTextPropertyProviderFactory(); GraphUtils getGraphUtils(); ShapeManager getShapeManager(); }
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@Test public void testGetTranslate() { final Point2D t = tested.getTranslate(); assertEquals(translate, t); }
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@Override public Point2D getTranslate() { return translate; }
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TransformImpl implements Transform { @Override public Point2D getTranslate() { return translate; } }
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TransformImpl implements Transform { @Override public Point2D getTranslate() { return translate; } TransformImpl(final Point2D translate, final Point2D scale); }
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TransformImpl implements Transform { @Override public Point2D getTranslate() { return translate; } TransformImpl(final Point2D translate, final Point2D scale); @Override Point2D getTranslate(); @Override Point2D getScale(); @Override Point2D transform(final double x, final double y); @Override Point2D inverse(final double x, final double y); }
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TransformImpl implements Transform { @Override public Point2D getTranslate() { return translate; } TransformImpl(final Point2D translate, final Point2D scale); @Override Point2D getTranslate(); @Override Point2D getScale(); @Override Point2D transform(final double x, final double y); @Override Point2D inverse(final double x, final double y); static final TransformImpl NO_TRANSFORM; }
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@Test public void testGetScale() { final Point2D s = tested.getScale(); assertEquals(scale, s); }
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@Override public Point2D getScale() { return scale; }
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TransformImpl implements Transform { @Override public Point2D getScale() { return scale; } }
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TransformImpl implements Transform { @Override public Point2D getScale() { return scale; } TransformImpl(final Point2D translate, final Point2D scale); }
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TransformImpl implements Transform { @Override public Point2D getScale() { return scale; } TransformImpl(final Point2D translate, final Point2D scale); @Override Point2D getTranslate(); @Override Point2D getScale(); @Override Point2D transform(final double x, final double y); @Override Point2D inverse(final double x, final double y); }
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TransformImpl implements Transform { @Override public Point2D getScale() { return scale; } TransformImpl(final Point2D translate, final Point2D scale); @Override Point2D getTranslate(); @Override Point2D getScale(); @Override Point2D transform(final double x, final double y); @Override Point2D inverse(final double x, final double y); static final TransformImpl NO_TRANSFORM; }
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@Test public void testTransform() { final Point2D t = tested.transform(1, 1); assertEquals(12, t.getX(), 0); assertEquals(25, t.getY(), 0); final Point2D t1 = tested.transform(2, 2); assertEquals(14, t1.getX(), 0); assertEquals(30, t1.getY(), 0); }
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@Override public Point2D transform(final double x, final double y) { return new Point2D((x * scale.getX()) + translate.getX(), (y * scale.getY()) + translate.getY()); }
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TransformImpl implements Transform { @Override public Point2D transform(final double x, final double y) { return new Point2D((x * scale.getX()) + translate.getX(), (y * scale.getY()) + translate.getY()); } }
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TransformImpl implements Transform { @Override public Point2D transform(final double x, final double y) { return new Point2D((x * scale.getX()) + translate.getX(), (y * scale.getY()) + translate.getY()); } TransformImpl(final Point2D translate, final Point2D scale); }
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TransformImpl implements Transform { @Override public Point2D transform(final double x, final double y) { return new Point2D((x * scale.getX()) + translate.getX(), (y * scale.getY()) + translate.getY()); } TransformImpl(final Point2D translate, final Point2D scale); @Override Point2D getTranslate(); @Override Point2D getScale(); @Override Point2D transform(final double x, final double y); @Override Point2D inverse(final double x, final double y); }
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TransformImpl implements Transform { @Override public Point2D transform(final double x, final double y) { return new Point2D((x * scale.getX()) + translate.getX(), (y * scale.getY()) + translate.getY()); } TransformImpl(final Point2D translate, final Point2D scale); @Override Point2D getTranslate(); @Override Point2D getScale(); @Override Point2D transform(final double x, final double y); @Override Point2D inverse(final double x, final double y); static final TransformImpl NO_TRANSFORM; }
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@Test public void onPlaceMaximizedEventTest() { screenEventPublisher.onPlaceMaximizedEvent(placeMaximizedEvent); verify(diagramEditorMaximizedEventEvent, Mockito.times(1)).fire(new ScreenMaximizedEvent(true)); reset(syncBeanDef); screenEventPublisher.onPlaceMaximizedEvent(placeMaximizedEvent); verify(diagramEditorMaximizedEventEvent, Mockito.times(1)).fire(new ScreenMaximizedEvent(false)); }
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protected void onPlaceMaximizedEvent(@Observes PlaceMaximizedEvent event) { diagramEditorMaximizedEventEvent.fire(new ScreenMaximizedEvent(verifyEventIdentifier(event))); }
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ScreenEventPublisher { protected void onPlaceMaximizedEvent(@Observes PlaceMaximizedEvent event) { diagramEditorMaximizedEventEvent.fire(new ScreenMaximizedEvent(verifyEventIdentifier(event))); } }
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ScreenEventPublisher { protected void onPlaceMaximizedEvent(@Observes PlaceMaximizedEvent event) { diagramEditorMaximizedEventEvent.fire(new ScreenMaximizedEvent(verifyEventIdentifier(event))); } @Inject ScreenEventPublisher(Event<ScreenMaximizedEvent> diagramEditorMaximizedEventEvent,
Event<ScreenMinimizedEvent> diagramEditorMinimizedEventEvent,
ActivityBeansCache activityBeansCache); }
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ScreenEventPublisher { protected void onPlaceMaximizedEvent(@Observes PlaceMaximizedEvent event) { diagramEditorMaximizedEventEvent.fire(new ScreenMaximizedEvent(verifyEventIdentifier(event))); } @Inject ScreenEventPublisher(Event<ScreenMaximizedEvent> diagramEditorMaximizedEventEvent,
Event<ScreenMinimizedEvent> diagramEditorMinimizedEventEvent,
ActivityBeansCache activityBeansCache); }
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ScreenEventPublisher { protected void onPlaceMaximizedEvent(@Observes PlaceMaximizedEvent event) { diagramEditorMaximizedEventEvent.fire(new ScreenMaximizedEvent(verifyEventIdentifier(event))); } @Inject ScreenEventPublisher(Event<ScreenMaximizedEvent> diagramEditorMaximizedEventEvent,
Event<ScreenMinimizedEvent> diagramEditorMinimizedEventEvent,
ActivityBeansCache activityBeansCache); }
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@Test public void onPlaceMinimizedEventTest() { screenEventPublisher.onPlaceMinimizedEvent(placeMinimizedEvent); verify(diagramEditorMinimizedEventEvent, Mockito.times(1)).fire(new ScreenMinimizedEvent(true)); reset(syncBeanDef); screenEventPublisher.onPlaceMinimizedEvent(placeMinimizedEvent); verify(diagramEditorMinimizedEventEvent, Mockito.times(1)).fire(new ScreenMinimizedEvent(false)); }
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protected void onPlaceMinimizedEvent(@Observes PlaceMinimizedEvent event) { diagramEditorMinimizedEventEvent.fire(new ScreenMinimizedEvent(verifyEventIdentifier(event))); }
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ScreenEventPublisher { protected void onPlaceMinimizedEvent(@Observes PlaceMinimizedEvent event) { diagramEditorMinimizedEventEvent.fire(new ScreenMinimizedEvent(verifyEventIdentifier(event))); } }
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ScreenEventPublisher { protected void onPlaceMinimizedEvent(@Observes PlaceMinimizedEvent event) { diagramEditorMinimizedEventEvent.fire(new ScreenMinimizedEvent(verifyEventIdentifier(event))); } @Inject ScreenEventPublisher(Event<ScreenMaximizedEvent> diagramEditorMaximizedEventEvent,
Event<ScreenMinimizedEvent> diagramEditorMinimizedEventEvent,
ActivityBeansCache activityBeansCache); }
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ScreenEventPublisher { protected void onPlaceMinimizedEvent(@Observes PlaceMinimizedEvent event) { diagramEditorMinimizedEventEvent.fire(new ScreenMinimizedEvent(verifyEventIdentifier(event))); } @Inject ScreenEventPublisher(Event<ScreenMaximizedEvent> diagramEditorMaximizedEventEvent,
Event<ScreenMinimizedEvent> diagramEditorMinimizedEventEvent,
ActivityBeansCache activityBeansCache); }
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ScreenEventPublisher { protected void onPlaceMinimizedEvent(@Observes PlaceMinimizedEvent event) { diagramEditorMinimizedEventEvent.fire(new ScreenMinimizedEvent(verifyEventIdentifier(event))); } @Inject ScreenEventPublisher(Event<ScreenMaximizedEvent> diagramEditorMaximizedEventEvent,
Event<ScreenMinimizedEvent> diagramEditorMinimizedEventEvent,
ActivityBeansCache activityBeansCache); }
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@Test public void testIsSameClass() { BindableShapeSetThumbProvider provider = new StubProvider(definitionManager); BindableShapeSetThumbProvider sameProvider = new StubProvider(definitionManager2); assertTrue(provider.isSameClass(provider.getClass(), provider.getClass())); assertTrue(provider.isSameClass(provider.getClass(), sameProvider.getClass())); assertTrue(provider.isSameClass(sameProvider.getClass(), provider.getClass())); assertFalse(provider.isSameClass(null, provider.getClass())); assertFalse(provider.isSameClass(provider.getClass(), null)); assertFalse(provider.isSameClass(provider.getClass(), Object.class)); assertFalse(provider.isSameClass(Object.class, provider.getClass())); }
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protected boolean isSameClass(final Class<?> c1, final Class<?> c2) { return Objects.equals(c1, c2); }
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BindableShapeSetThumbProvider implements ShapeSetThumbProvider { protected boolean isSameClass(final Class<?> c1, final Class<?> c2) { return Objects.equals(c1, c2); } }
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BindableShapeSetThumbProvider implements ShapeSetThumbProvider { protected boolean isSameClass(final Class<?> c1, final Class<?> c2) { return Objects.equals(c1, c2); } BindableShapeSetThumbProvider(final DefinitionManager definitionManager); }
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BindableShapeSetThumbProvider implements ShapeSetThumbProvider { protected boolean isSameClass(final Class<?> c1, final Class<?> c2) { return Objects.equals(c1, c2); } BindableShapeSetThumbProvider(final DefinitionManager definitionManager); @Override Class<String> getSourceType(); @Override boolean thumbFor(final String definitionSetId); }
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BindableShapeSetThumbProvider implements ShapeSetThumbProvider { protected boolean isSameClass(final Class<?> c1, final Class<?> c2) { return Objects.equals(c1, c2); } BindableShapeSetThumbProvider(final DefinitionManager definitionManager); @Override Class<String> getSourceType(); @Override boolean thumbFor(final String definitionSetId); }
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@Test public void testGetValue() { assertEquals("key1", tested.getValue("key1")); }
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@Override public String getValue(String key) { return key; }
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BackendTranslationService extends AbstractTranslationService { @Override public String getValue(String key) { return key; } }
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BackendTranslationService extends AbstractTranslationService { @Override public String getValue(String key) { return key; } }
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BackendTranslationService extends AbstractTranslationService { @Override public String getValue(String key) { return key; } @Override String getValue(String key); @Override String getValue(String key, Object... args); @Override Optional<String> getElementName(String uuid); }
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BackendTranslationService extends AbstractTranslationService { @Override public String getValue(String key) { return key; } @Override String getValue(String key); @Override String getValue(String key, Object... args); @Override Optional<String> getElementName(String uuid); }
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@Test public void testGetValueWithArgs() { assertEquals("key1[arg1, arg2]", tested.getValue("key1", "arg1", "arg2")); }
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@Override public String getValue(String key) { return key; }
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BackendTranslationService extends AbstractTranslationService { @Override public String getValue(String key) { return key; } }
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BackendTranslationService extends AbstractTranslationService { @Override public String getValue(String key) { return key; } }
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BackendTranslationService extends AbstractTranslationService { @Override public String getValue(String key) { return key; } @Override String getValue(String key); @Override String getValue(String key, Object... args); @Override Optional<String> getElementName(String uuid); }
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BackendTranslationService extends AbstractTranslationService { @Override public String getValue(String key) { return key; } @Override String getValue(String key); @Override String getValue(String key, Object... args); @Override Optional<String> getElementName(String uuid); }
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@Test public void testGetElementName() { assertTrue(tested.getElementName("element1").isPresent()); assertEquals("element1", tested.getElementName("element1").get()); }
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@Override public Optional<String> getElementName(String uuid) { return Optional.of(uuid); }
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BackendTranslationService extends AbstractTranslationService { @Override public Optional<String> getElementName(String uuid) { return Optional.of(uuid); } }
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BackendTranslationService extends AbstractTranslationService { @Override public Optional<String> getElementName(String uuid) { return Optional.of(uuid); } }
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BackendTranslationService extends AbstractTranslationService { @Override public Optional<String> getElementName(String uuid) { return Optional.of(uuid); } @Override String getValue(String key); @Override String getValue(String key, Object... args); @Override Optional<String> getElementName(String uuid); }
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BackendTranslationService extends AbstractTranslationService { @Override public Optional<String> getElementName(String uuid) { return Optional.of(uuid); } @Override String getValue(String key); @Override String getValue(String key, Object... args); @Override Optional<String> getElementName(String uuid); }
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@Test public void testHide() { final PopupEditorControls editor = mock(PopupEditorControls.class); final Optional<PopupEditorControls> activeEditor = Optional.of(editor); doReturn(activeEditor).when(view).getActiveEditor(); view.hide(); verify(editor).hide(); verify(view).removeOnClosedByKeyboardCallback(editor); verify(view).setActiveEditor(Optional.empty()); }
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@Override public void hide() { getActiveEditor().ifPresent(PopupEditorControls::hide); getActiveEditor().ifPresent(e -> removeOnClosedByKeyboardCallback(e)); setActiveEditor(Optional.empty()); }
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CellEditorControlsViewImpl implements CellEditorControlsView { @Override public void hide() { getActiveEditor().ifPresent(PopupEditorControls::hide); getActiveEditor().ifPresent(e -> removeOnClosedByKeyboardCallback(e)); setActiveEditor(Optional.empty()); } }
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CellEditorControlsViewImpl implements CellEditorControlsView { @Override public void hide() { getActiveEditor().ifPresent(PopupEditorControls::hide); getActiveEditor().ifPresent(e -> removeOnClosedByKeyboardCallback(e)); setActiveEditor(Optional.empty()); } CellEditorControlsViewImpl(); @Inject CellEditorControlsViewImpl(final Document document,
final Div cellEditorControls,
final Div cellEditorControlsContainer); }
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CellEditorControlsViewImpl implements CellEditorControlsView { @Override public void hide() { getActiveEditor().ifPresent(PopupEditorControls::hide); getActiveEditor().ifPresent(e -> removeOnClosedByKeyboardCallback(e)); setActiveEditor(Optional.empty()); } CellEditorControlsViewImpl(); @Inject CellEditorControlsViewImpl(final Document document,
final Div cellEditorControls,
final Div cellEditorControlsContainer); Optional<PopupEditorControls> getActiveEditor(); void setActiveEditor(final Optional<PopupEditorControls> activeEditor); @PostConstruct void setup(); @PreDestroy void destroy(); @Override void show(final PopupEditorControls editor,
final int x,
final int y); @Override void hide(); }
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CellEditorControlsViewImpl implements CellEditorControlsView { @Override public void hide() { getActiveEditor().ifPresent(PopupEditorControls::hide); getActiveEditor().ifPresent(e -> removeOnClosedByKeyboardCallback(e)); setActiveEditor(Optional.empty()); } CellEditorControlsViewImpl(); @Inject CellEditorControlsViewImpl(final Document document,
final Div cellEditorControls,
final Div cellEditorControlsContainer); Optional<PopupEditorControls> getActiveEditor(); void setActiveEditor(final Optional<PopupEditorControls> activeEditor); @PostConstruct void setup(); @PreDestroy void destroy(); @Override void show(final PopupEditorControls editor,
final int x,
final int y); @Override void hide(); static final String LEFT; static final String TOP; }
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@Test public void buildImageDataUriTest() throws Exception { String dataUri = URLUtils.buildDataURIFromStream("email.gif", loadStream(IMAGE_PATH)); assertEquals(IMAGE_DATA_URI, dataUri); }
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public static String buildDataURIFromStream(final String fileName, final InputStream inputStream) throws Exception { final ByteArrayOutputStream os = new ByteArrayOutputStream(); final String contentType = guessContentType(fileName, inputStream); if (null != contentType) { final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = inputStream.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); inputStream.close(); return "data:" + contentType + ";base64," + Base64.getEncoder().encodeToString(os.toByteArray()); } else { throw new UnsupportedOperationException("Content type is undefined."); } }
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URLUtils { public static String buildDataURIFromStream(final String fileName, final InputStream inputStream) throws Exception { final ByteArrayOutputStream os = new ByteArrayOutputStream(); final String contentType = guessContentType(fileName, inputStream); if (null != contentType) { final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = inputStream.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); inputStream.close(); return "data:" + contentType + ";base64," + Base64.getEncoder().encodeToString(os.toByteArray()); } else { throw new UnsupportedOperationException("Content type is undefined."); } } }
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URLUtils { public static String buildDataURIFromStream(final String fileName, final InputStream inputStream) throws Exception { final ByteArrayOutputStream os = new ByteArrayOutputStream(); final String contentType = guessContentType(fileName, inputStream); if (null != contentType) { final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = inputStream.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); inputStream.close(); return "data:" + contentType + ";base64," + Base64.getEncoder().encodeToString(os.toByteArray()); } else { throw new UnsupportedOperationException("Content type is undefined."); } } }
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URLUtils { public static String buildDataURIFromStream(final String fileName, final InputStream inputStream) throws Exception { final ByteArrayOutputStream os = new ByteArrayOutputStream(); final String contentType = guessContentType(fileName, inputStream); if (null != contentType) { final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = inputStream.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); inputStream.close(); return "data:" + contentType + ";base64," + Base64.getEncoder().encodeToString(os.toByteArray()); } else { throw new UnsupportedOperationException("Content type is undefined."); } } static byte[] readBytesFromURL(final String uri); static byte[] readBytes(final InputStream is); static String readFromURL(final String uri); static String readFromURL(final URL url); static String buildDataURIFromURL(final String url); static String buildDataURIFromURL(final URL url); static String buildDataURIFromStream(final String fileName,
final InputStream inputStream); static String guessContentType(final String fileName,
final InputStream stream); }
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URLUtils { public static String buildDataURIFromStream(final String fileName, final InputStream inputStream) throws Exception { final ByteArrayOutputStream os = new ByteArrayOutputStream(); final String contentType = guessContentType(fileName, inputStream); if (null != contentType) { final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = inputStream.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); inputStream.close(); return "data:" + contentType + ";base64," + Base64.getEncoder().encodeToString(os.toByteArray()); } else { throw new UnsupportedOperationException("Content type is undefined."); } } static byte[] readBytesFromURL(final String uri); static byte[] readBytes(final InputStream is); static String readFromURL(final String uri); static String readFromURL(final URL url); static String buildDataURIFromURL(final String url); static String buildDataURIFromURL(final URL url); static String buildDataURIFromStream(final String fileName,
final InputStream inputStream); static String guessContentType(final String fileName,
final InputStream stream); }
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@Test public void testCreate() throws IOException { Path path = mock(Path.class); when(path.toURI()).thenReturn(DIR_URI); final org.uberfire.java.nio.file.Path expectedNioPath = Paths.convert(path).resolve(FILE_NAME_IN_RESOURCE_FORMAT); when(factoryManager.newDiagram(FILE_NAME, DEFINITION_SET_ID, metadata)).thenReturn(diagram); diagramService.create(path, FILE_NAME, DEFINITION_SET_ID, metadata); verify(ioService, times(1)).write(eq(expectedNioPath), eq(DIAGRAM_MARSHALLED), any(CommentedOption.class)); }
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public Path create(final Path path, final String name, final String defSetId, final Metadata metadata) { final DefinitionSetService services = getServiceById(defSetId); if (null == services) { throw new IllegalStateException("No backend Definition Set services for [" + defSetId + "]"); } final String fName = buildFileName(name, services.getResourceType()); final org.uberfire.java.nio.file.Path kiePath = Paths.convert(path).resolve(fName); if (getIoService().exists(kiePath)) { throw new FileAlreadyExistsException(kiePath.toString()); } try { final D diagram = factoryManager.newDiagram(name, defSetId, metadata); final String[] raw = serialize(diagram); getIoService().write(kiePath, raw[0], new CommentedOption(identity.getIdentifier())); return Paths.convert(kiePath); } catch (final Exception e) { LOG.error("Cannot create diagram in path [" + kiePath + "]", e); } return null; }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { public Path create(final Path path, final String name, final String defSetId, final Metadata metadata) { final DefinitionSetService services = getServiceById(defSetId); if (null == services) { throw new IllegalStateException("No backend Definition Set services for [" + defSetId + "]"); } final String fName = buildFileName(name, services.getResourceType()); final org.uberfire.java.nio.file.Path kiePath = Paths.convert(path).resolve(fName); if (getIoService().exists(kiePath)) { throw new FileAlreadyExistsException(kiePath.toString()); } try { final D diagram = factoryManager.newDiagram(name, defSetId, metadata); final String[] raw = serialize(diagram); getIoService().write(kiePath, raw[0], new CommentedOption(identity.getIdentifier())); return Paths.convert(kiePath); } catch (final Exception e) { LOG.error("Cannot create diagram in path [" + kiePath + "]", e); } return null; } }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { public Path create(final Path path, final String name, final String defSetId, final Metadata metadata) { final DefinitionSetService services = getServiceById(defSetId); if (null == services) { throw new IllegalStateException("No backend Definition Set services for [" + defSetId + "]"); } final String fName = buildFileName(name, services.getResourceType()); final org.uberfire.java.nio.file.Path kiePath = Paths.convert(path).resolve(fName); if (getIoService().exists(kiePath)) { throw new FileAlreadyExistsException(kiePath.toString()); } try { final D diagram = factoryManager.newDiagram(name, defSetId, metadata); final String[] raw = serialize(diagram); getIoService().write(kiePath, raw[0], new CommentedOption(identity.getIdentifier())); return Paths.convert(kiePath); } catch (final Exception e) { LOG.error("Cannot create diagram in path [" + kiePath + "]", e); } return null; } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { public Path create(final Path path, final String name, final String defSetId, final Metadata metadata) { final DefinitionSetService services = getServiceById(defSetId); if (null == services) { throw new IllegalStateException("No backend Definition Set services for [" + defSetId + "]"); } final String fName = buildFileName(name, services.getResourceType()); final org.uberfire.java.nio.file.Path kiePath = Paths.convert(path).resolve(fName); if (getIoService().exists(kiePath)) { throw new FileAlreadyExistsException(kiePath.toString()); } try { final D diagram = factoryManager.newDiagram(name, defSetId, metadata); final String[] raw = serialize(diagram); getIoService().write(kiePath, raw[0], new CommentedOption(identity.getIdentifier())); return Paths.convert(kiePath); } catch (final Exception e) { LOG.error("Cannot create diagram in path [" + kiePath + "]", e); } return null; } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { public Path create(final Path path, final String name, final String defSetId, final Metadata metadata) { final DefinitionSetService services = getServiceById(defSetId); if (null == services) { throw new IllegalStateException("No backend Definition Set services for [" + defSetId + "]"); } final String fName = buildFileName(name, services.getResourceType()); final org.uberfire.java.nio.file.Path kiePath = Paths.convert(path).resolve(fName); if (getIoService().exists(kiePath)) { throw new FileAlreadyExistsException(kiePath.toString()); } try { final D diagram = factoryManager.newDiagram(name, defSetId, metadata); final String[] raw = serialize(diagram); getIoService().write(kiePath, raw[0], new CommentedOption(identity.getIdentifier())); return Paths.convert(kiePath); } catch (final Exception e) { LOG.error("Cannot create diagram in path [" + kiePath + "]", e); } return null; } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); static final String SVG_SUFFIX; }
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@Test public void testGetRawContent() throws IOException { String result = diagramService.getRawContent(diagram); assertEquals(DIAGRAM_MARSHALLED, result); }
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@Override public String getRawContent(D diagram) { try { return serialize(diagram)[0]; } catch (java.io.IOException e) { LOG.error("Error while getting raw content for diagram with UUID [" + diagram.getName() + "].", e); throw new RuntimeException(e); } }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @Override public String getRawContent(D diagram) { try { return serialize(diagram)[0]; } catch (java.io.IOException e) { LOG.error("Error while getting raw content for diagram with UUID [" + diagram.getName() + "].", e); throw new RuntimeException(e); } } }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @Override public String getRawContent(D diagram) { try { return serialize(diagram)[0]; } catch (java.io.IOException e) { LOG.error("Error while getting raw content for diagram with UUID [" + diagram.getName() + "].", e); throw new RuntimeException(e); } } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @Override public String getRawContent(D diagram) { try { return serialize(diagram)[0]; } catch (java.io.IOException e) { LOG.error("Error while getting raw content for diagram with UUID [" + diagram.getName() + "].", e); throw new RuntimeException(e); } } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @Override public String getRawContent(D diagram) { try { return serialize(diagram)[0]; } catch (java.io.IOException e) { LOG.error("Error while getting raw content for diagram with UUID [" + diagram.getName() + "].", e); throw new RuntimeException(e); } } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); static final String SVG_SUFFIX; }
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@Test public void testGetDiagramByPath() throws IOException { final Path path = mockGetDiagramByPathObjects(); Diagram result = diagramService.getDiagramByPath(path); assertEquals(diagram, result); }
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@SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); } }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); static final String SVG_SUFFIX; }
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@Test @SuppressWarnings("unchecked") public void testGetDiagramByPathParseException() throws IOException { final String processDefinition = "broken DEFINITION"; final Path path = mockGetDiagramByPathObjects(); when(ioService.readAllString(Paths.convert(path))).thenReturn(processDefinition); try { Mockito.when(diagramMarshaller.unmarshallWithValidation(anyObject())) .thenReturn(MarshallingResponse.builder() .state(MarshallingResponse.State.ERROR) .addMessage(MarshallingMessage.builder().message("error").build()) .build()); diagramService.getDiagramByPath(path); } catch (DiagramParsingException dpe) { assertEquals(processDefinition, dpe.getXml()); assertNotNull(dpe.getMetadata()); } catch (Exception e) { fail("Exception should have been caught and wrapped as DiagramParsingException"); } }
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@SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); } }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { @SuppressWarnings("unchecked") public D getDiagramByPath(final org.uberfire.backend.vfs.Path file) { if (accepts(file)) { DefinitionSetService services = getServiceByPath(file); if (null != services) { final String defSetId = getDefinitionSetId(services); final String name = parseFileName(file, services); final M metadata = (M) buildMetadataInstance(file, defSetId, name); metadata.setPath(file); final InputStream is = loadPath(file); try { final MarshallingResponse<Graph<DefinitionSet, ?>> marshallingResponse = services.getDiagramMarshaller().unmarshallWithValidation(MarshallingRequest.builder() .metadata(metadata) .input(is) .mode(MarshallingRequest.Mode.AUTO) .build()); final Graph<DefinitionSet, ?> graph = Optional.ofNullable(marshallingResponse.getResult()) .orElseThrow(() -> new RuntimeException(marshallingResponse.getMessages().toString())); final DiagramFactory<M, ?> factory = factoryManager.registry().getDiagramFactory(graph.getContent().getDefinition(), getMetadataType()); return (D) factory.build(name, metadata, graph); } catch (Exception e) { LOG.error("Cannot unmarshall diagram for diagram's path [" + file + "]", e); final String xml = getIoService().readAllString(Paths.convert(file)); throw new DiagramParsingException(metadata, xml); } } } throw new UnsupportedOperationException("Diagram format not supported [" + file + "]"); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); static final String SVG_SUFFIX; }
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@Test public void testContains() { Path path = mock(Path.class); when(metadata.getPath()).thenReturn(path); doReturn(diagram).when(diagramService).getDiagramByPath(path); assertTrue(diagramService.contains(diagram)); verify(diagramService, times(1)).getDiagramByPath(path); }
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public boolean contains(final D item) { return null != getDiagramByPath(item.getMetadata().getPath()); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { public boolean contains(final D item) { return null != getDiagramByPath(item.getMetadata().getPath()); } }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { public boolean contains(final D item) { return null != getDiagramByPath(item.getMetadata().getPath()); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { public boolean contains(final D item) { return null != getDiagramByPath(item.getMetadata().getPath()); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); }
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AbstractVFSDiagramService implements BaseDiagramService<M, D> { public boolean contains(final D item) { return null != getDiagramByPath(item.getMetadata().getPath()); } AbstractVFSDiagramService(final DefinitionManager definitionManager,
final FactoryManager factoryManager,
final Instance<DefinitionSetService> definitionSetServiceInstances,
final BackendRegistryFactory registryFactory,
final User identity); Path create(final Path path,
final String name,
final String defSetId,
final Metadata metadata); @Override String getRawContent(D diagram); @SuppressWarnings("unchecked") D getDiagramByPath(final org.uberfire.backend.vfs.Path file); M saveOrUpdate(final D diagram); @Override Path saveOrUpdateSvg(Path diagramPath, String rawDiagramSvg); boolean delete(final D diagram); boolean contains(final D item); Collection<D> getDiagramsByPath(final org.uberfire.java.nio.file.Path root); boolean accepts(final org.uberfire.backend.vfs.Path path); static final String SVG_SUFFIX; }
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@Test public void testDeployAssets() throws Exception { final org.uberfire.java.nio.file.Path asset1Path = mock(org.uberfire.java.nio.file.Path.class); final org.uberfire.java.nio.file.Path asset2Path = mock(org.uberfire.java.nio.file.Path.class); when(path.resolve(eq(ASSET1_NAME))).thenReturn(asset1Path); when(path.resolve(eq(ASSET2_NAME))).thenReturn(asset2Path); when(ioService.exists(eq(path))).thenReturn(false); final String message = "deploy-message"; final ArgumentCaptor<byte[]> bytesCaptor1 = ArgumentCaptor.forClass(byte[].class); final ArgumentCaptor<byte[]> bytesCaptor2 = ArgumentCaptor.forClass(byte[].class); tested.deploy(path, new BackendFileSystemManager.Assets(Arrays.asList(asset1, asset2)), message); verify(ioService, times(1)).createDirectories(eq(path)); verify(ioService, times(1)).startBatch(eq(fileSystem)); verify(ioService, times(1)).write(eq(asset1Path), bytesCaptor1.capture(), any(CommentedOption.class)); verify(ioService, times(1)).write(eq(asset2Path), bytesCaptor2.capture(), any(CommentedOption.class)); verify(optionFactory, times(2)).makeCommentedOption(eq(message)); verify(ioService, times(1)).endBatch(); final byte[] bytes1 = bytesCaptor1.getValue(); final String expectedContent1 = new String(bytes1, BackendFileSystemManager.UT8); Assert.assertEquals(ASSET1_CONTENT, expectedContent1); final byte[] bytes2 = bytesCaptor2.getValue(); final String expectedContent2 = new String(bytes2, BackendFileSystemManager.UT8); Assert.assertEquals(ASSET2_CONTENT, expectedContent2); }
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public void deploy(final org.uberfire.java.nio.file.Path global, final Assets assets, final String message) { if (!ioService.exists(global)) { ioService.createDirectories(global); } try { ioService.startBatch(global.getFileSystem()); for (final Asset asset : assets.assets) { final org.uberfire.java.nio.file.Path assetPath = global.resolve(asset.fileName); final InputStream resource = asset.stream; final ByteArrayOutputStream os = new ByteArrayOutputStream(); final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = resource.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); resource.close(); ioService.write(assetPath, os.toByteArray(), optionFactory.makeCommentedOption(message)); } } catch (final Exception e) { LOG.error("Error while deploying assets.", e); } finally { ioService.endBatch(); } }
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BackendFileSystemManager { public void deploy(final org.uberfire.java.nio.file.Path global, final Assets assets, final String message) { if (!ioService.exists(global)) { ioService.createDirectories(global); } try { ioService.startBatch(global.getFileSystem()); for (final Asset asset : assets.assets) { final org.uberfire.java.nio.file.Path assetPath = global.resolve(asset.fileName); final InputStream resource = asset.stream; final ByteArrayOutputStream os = new ByteArrayOutputStream(); final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = resource.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); resource.close(); ioService.write(assetPath, os.toByteArray(), optionFactory.makeCommentedOption(message)); } } catch (final Exception e) { LOG.error("Error while deploying assets.", e); } finally { ioService.endBatch(); } } }
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BackendFileSystemManager { public void deploy(final org.uberfire.java.nio.file.Path global, final Assets assets, final String message) { if (!ioService.exists(global)) { ioService.createDirectories(global); } try { ioService.startBatch(global.getFileSystem()); for (final Asset asset : assets.assets) { final org.uberfire.java.nio.file.Path assetPath = global.resolve(asset.fileName); final InputStream resource = asset.stream; final ByteArrayOutputStream os = new ByteArrayOutputStream(); final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = resource.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); resource.close(); ioService.write(assetPath, os.toByteArray(), optionFactory.makeCommentedOption(message)); } } catch (final Exception e) { LOG.error("Error while deploying assets.", e); } finally { ioService.endBatch(); } } protected BackendFileSystemManager(); @Inject BackendFileSystemManager(final @Named("ioStrategy") IOService ioService,
final CommentedOptionFactory optionFactory); }
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BackendFileSystemManager { public void deploy(final org.uberfire.java.nio.file.Path global, final Assets assets, final String message) { if (!ioService.exists(global)) { ioService.createDirectories(global); } try { ioService.startBatch(global.getFileSystem()); for (final Asset asset : assets.assets) { final org.uberfire.java.nio.file.Path assetPath = global.resolve(asset.fileName); final InputStream resource = asset.stream; final ByteArrayOutputStream os = new ByteArrayOutputStream(); final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = resource.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); resource.close(); ioService.write(assetPath, os.toByteArray(), optionFactory.makeCommentedOption(message)); } } catch (final Exception e) { LOG.error("Error while deploying assets.", e); } finally { ioService.endBatch(); } } protected BackendFileSystemManager(); @Inject BackendFileSystemManager(final @Named("ioStrategy") IOService ioService,
final CommentedOptionFactory optionFactory); void deploy(final org.uberfire.java.nio.file.Path global,
final Assets assets,
final String message); String getPathRelativeToApp(final String path); void findAndDeployFiles(final File directory,
final org.uberfire.java.nio.file.Path targetPath); void findAndDeployFiles(final File directory,
final FilenameFilter filter,
final org.uberfire.java.nio.file.Path targetPath); IOService getIoService(); }
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BackendFileSystemManager { public void deploy(final org.uberfire.java.nio.file.Path global, final Assets assets, final String message) { if (!ioService.exists(global)) { ioService.createDirectories(global); } try { ioService.startBatch(global.getFileSystem()); for (final Asset asset : assets.assets) { final org.uberfire.java.nio.file.Path assetPath = global.resolve(asset.fileName); final InputStream resource = asset.stream; final ByteArrayOutputStream os = new ByteArrayOutputStream(); final byte[] chunk = new byte[4096]; int bytesRead; while ((bytesRead = resource.read(chunk)) > 0) { os.write(chunk, 0, bytesRead); } os.flush(); resource.close(); ioService.write(assetPath, os.toByteArray(), optionFactory.makeCommentedOption(message)); } } catch (final Exception e) { LOG.error("Error while deploying assets.", e); } finally { ioService.endBatch(); } } protected BackendFileSystemManager(); @Inject BackendFileSystemManager(final @Named("ioStrategy") IOService ioService,
final CommentedOptionFactory optionFactory); void deploy(final org.uberfire.java.nio.file.Path global,
final Assets assets,
final String message); String getPathRelativeToApp(final String path); void findAndDeployFiles(final File directory,
final org.uberfire.java.nio.file.Path targetPath); void findAndDeployFiles(final File directory,
final FilenameFilter filter,
final org.uberfire.java.nio.file.Path targetPath); IOService getIoService(); static final Charset UT8; static final String UT8_ENC; }
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@Test public void testEncode() throws Exception { MetadataImpl metadata = new MetadataImpl.MetadataImplBuilder("defSet1").build(); metadata.setTitle("title1"); metadata.setCanvasRootUUID("root1"); metadata.setShapeSetId("ss1"); metadata.setThumbData("thumbData1"); metadata.setTitle("title1"); String result = tested.marshall(metadata); assertNotNull(result); assertFalse(result.isEmpty()); assertTrue(result.contains("<java")); assertTrue(result.contains("</java>")); }
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@Override public String marshall(final Metadata metadata) throws IOException { ByteArrayOutputStream os = new ByteArrayOutputStream(); XMLEncoder encoder = new XMLEncoder(os); encoder.writeObject(metadata); encoder.close(); String raw = os.toString(CHARSET); return raw; }
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XMLEncoderDiagramMetadataMarshaller implements DiagramMetadataMarshaller<Metadata> { @Override public String marshall(final Metadata metadata) throws IOException { ByteArrayOutputStream os = new ByteArrayOutputStream(); XMLEncoder encoder = new XMLEncoder(os); encoder.writeObject(metadata); encoder.close(); String raw = os.toString(CHARSET); return raw; } }
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XMLEncoderDiagramMetadataMarshaller implements DiagramMetadataMarshaller<Metadata> { @Override public String marshall(final Metadata metadata) throws IOException { ByteArrayOutputStream os = new ByteArrayOutputStream(); XMLEncoder encoder = new XMLEncoder(os); encoder.writeObject(metadata); encoder.close(); String raw = os.toString(CHARSET); return raw; } }
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XMLEncoderDiagramMetadataMarshaller implements DiagramMetadataMarshaller<Metadata> { @Override public String marshall(final Metadata metadata) throws IOException { ByteArrayOutputStream os = new ByteArrayOutputStream(); XMLEncoder encoder = new XMLEncoder(os); encoder.writeObject(metadata); encoder.close(); String raw = os.toString(CHARSET); return raw; } @Override Metadata unmarshall(final InputStream input); @Override String marshall(final Metadata metadata); }
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XMLEncoderDiagramMetadataMarshaller implements DiagramMetadataMarshaller<Metadata> { @Override public String marshall(final Metadata metadata) throws IOException { ByteArrayOutputStream os = new ByteArrayOutputStream(); XMLEncoder encoder = new XMLEncoder(os); encoder.writeObject(metadata); encoder.close(); String raw = os.toString(CHARSET); return raw; } @Override Metadata unmarshall(final InputStream input); @Override String marshall(final Metadata metadata); }
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@Test public void testDecodeTest1() throws Exception { InputStream is = loadStream(TEST1); Metadata metadata = tested.unmarshall(is); assertNotNull(metadata); assertEquals("defSet1", metadata.getDefinitionSetId()); assertEquals("ss1", metadata.getShapeSetId()); assertEquals("thumbData1", metadata.getThumbData()); assertEquals("title1", metadata.getTitle()); assertEquals("root1", metadata.getCanvasRootUUID()); }
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@Override public Metadata unmarshall(final InputStream input) throws IOException { try (final XMLDecoder decoder = new XMLDecoder(input)) { return (Metadata) decoder.readObject(); } }
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XMLEncoderDiagramMetadataMarshaller implements DiagramMetadataMarshaller<Metadata> { @Override public Metadata unmarshall(final InputStream input) throws IOException { try (final XMLDecoder decoder = new XMLDecoder(input)) { return (Metadata) decoder.readObject(); } } }
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XMLEncoderDiagramMetadataMarshaller implements DiagramMetadataMarshaller<Metadata> { @Override public Metadata unmarshall(final InputStream input) throws IOException { try (final XMLDecoder decoder = new XMLDecoder(input)) { return (Metadata) decoder.readObject(); } } }
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XMLEncoderDiagramMetadataMarshaller implements DiagramMetadataMarshaller<Metadata> { @Override public Metadata unmarshall(final InputStream input) throws IOException { try (final XMLDecoder decoder = new XMLDecoder(input)) { return (Metadata) decoder.readObject(); } } @Override Metadata unmarshall(final InputStream input); @Override String marshall(final Metadata metadata); }
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XMLEncoderDiagramMetadataMarshaller implements DiagramMetadataMarshaller<Metadata> { @Override public Metadata unmarshall(final InputStream input) throws IOException { try (final XMLDecoder decoder = new XMLDecoder(input)) { return (Metadata) decoder.readObject(); } } @Override Metadata unmarshall(final InputStream input); @Override String marshall(final Metadata metadata); }
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@Test public void testGetRegistry() { assertEquals(registry, tested.registry()); }
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@Override public RuleHandlerRegistry registry() { return ruleManager.registry(); }
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BackendRuleManager implements RuleManager { @Override public RuleHandlerRegistry registry() { return ruleManager.registry(); } }
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BackendRuleManager implements RuleManager { @Override public RuleHandlerRegistry registry() { return ruleManager.registry(); } protected BackendRuleManager(); @Inject BackendRuleManager(final CachedRuleManager ruleManager,
final @Any Instance<RuleEvaluationHandler<? extends Rule, ?>> ruleEvaluationHandlerInstances); }
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BackendRuleManager implements RuleManager { @Override public RuleHandlerRegistry registry() { return ruleManager.registry(); } protected BackendRuleManager(); @Inject BackendRuleManager(final CachedRuleManager ruleManager,
final @Any Instance<RuleEvaluationHandler<? extends Rule, ?>> ruleEvaluationHandlerInstances); @PostConstruct void init(); @Override RuleHandlerRegistry registry(); @Override RuleViolations evaluate(final RuleSet ruleSet,
final RuleEvaluationContext context); }
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BackendRuleManager implements RuleManager { @Override public RuleHandlerRegistry registry() { return ruleManager.registry(); } protected BackendRuleManager(); @Inject BackendRuleManager(final CachedRuleManager ruleManager,
final @Any Instance<RuleEvaluationHandler<? extends Rule, ?>> ruleEvaluationHandlerInstances); @PostConstruct void init(); @Override RuleHandlerRegistry registry(); @Override RuleViolations evaluate(final RuleSet ruleSet,
final RuleEvaluationContext context); }
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@Test public void testBind() { control.bind(session); verify(editorControls).setGridPanelSupplier(gridPanelSupplierArgumentCaptor.capture()); final Optional<Supplier<DMNGridPanel>> gridPanelSupplier = gridPanelSupplierArgumentCaptor.getValue(); assertTrue(gridPanelSupplier.isPresent()); assertEquals(gridPanel, gridPanelSupplier.get().get()); }
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@Override public void bind(final DMNSession session) { this.editorControls.setGridPanelSupplier(Optional.of(session::getGridPanel)); }
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CellEditorControlImpl extends AbstractCanvasControl<AbstractCanvas> implements CellEditorControl { @Override public void bind(final DMNSession session) { this.editorControls.setGridPanelSupplier(Optional.of(session::getGridPanel)); } }
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CellEditorControlImpl extends AbstractCanvasControl<AbstractCanvas> implements CellEditorControl { @Override public void bind(final DMNSession session) { this.editorControls.setGridPanelSupplier(Optional.of(session::getGridPanel)); } CellEditorControlImpl(); @Inject CellEditorControlImpl(final CellEditorControls editorControls); }
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CellEditorControlImpl extends AbstractCanvasControl<AbstractCanvas> implements CellEditorControl { @Override public void bind(final DMNSession session) { this.editorControls.setGridPanelSupplier(Optional.of(session::getGridPanel)); } CellEditorControlImpl(); @Inject CellEditorControlImpl(final CellEditorControls editorControls); @Override void bind(final DMNSession session); @Override CellEditorControls getCellEditorControls(); }
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CellEditorControlImpl extends AbstractCanvasControl<AbstractCanvas> implements CellEditorControl { @Override public void bind(final DMNSession session) { this.editorControls.setGridPanelSupplier(Optional.of(session::getGridPanel)); } CellEditorControlImpl(); @Inject CellEditorControlImpl(final CellEditorControls editorControls); @Override void bind(final DMNSession session); @Override CellEditorControls getCellEditorControls(); }
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@Test public void testEvaluate() { RuleSet ruleSet = mock(RuleSet.class); RuleEvaluationContext context = mock(RuleEvaluationContext.class); tested.evaluate(ruleSet, context); verify(ruleManager, times(1)).evaluate(eq(ruleSet), eq(context)); }
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@Override public RuleViolations evaluate(final RuleSet ruleSet, final RuleEvaluationContext context) { return ruleManager.evaluate(ruleSet, context); }
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BackendRuleManager implements RuleManager { @Override public RuleViolations evaluate(final RuleSet ruleSet, final RuleEvaluationContext context) { return ruleManager.evaluate(ruleSet, context); } }
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BackendRuleManager implements RuleManager { @Override public RuleViolations evaluate(final RuleSet ruleSet, final RuleEvaluationContext context) { return ruleManager.evaluate(ruleSet, context); } protected BackendRuleManager(); @Inject BackendRuleManager(final CachedRuleManager ruleManager,
final @Any Instance<RuleEvaluationHandler<? extends Rule, ?>> ruleEvaluationHandlerInstances); }
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BackendRuleManager implements RuleManager { @Override public RuleViolations evaluate(final RuleSet ruleSet, final RuleEvaluationContext context) { return ruleManager.evaluate(ruleSet, context); } protected BackendRuleManager(); @Inject BackendRuleManager(final CachedRuleManager ruleManager,
final @Any Instance<RuleEvaluationHandler<? extends Rule, ?>> ruleEvaluationHandlerInstances); @PostConstruct void init(); @Override RuleHandlerRegistry registry(); @Override RuleViolations evaluate(final RuleSet ruleSet,
final RuleEvaluationContext context); }
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BackendRuleManager implements RuleManager { @Override public RuleViolations evaluate(final RuleSet ruleSet, final RuleEvaluationContext context) { return ruleManager.evaluate(ruleSet, context); } protected BackendRuleManager(); @Inject BackendRuleManager(final CachedRuleManager ruleManager,
final @Any Instance<RuleEvaluationHandler<? extends Rule, ?>> ruleEvaluationHandlerInstances); @PostConstruct void init(); @Override RuleHandlerRegistry registry(); @Override RuleViolations evaluate(final RuleSet ruleSet,
final RuleEvaluationContext context); }
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@Test public void testDestroy() { tested.destroy(); verify(profileInstances, times(1)).destroy(eq(profile1)); verify(profileInstances, times(1)).destroy(eq(profile2)); }
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@PreDestroy public void destroy() { profileInstances.forEach(profileInstances::destroy); }
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BackendProfileManager extends AbstractProfileManager { @PreDestroy public void destroy() { profileInstances.forEach(profileInstances::destroy); } }
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BackendProfileManager extends AbstractProfileManager { @PreDestroy public void destroy() { profileInstances.forEach(profileInstances::destroy); } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); }
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BackendProfileManager extends AbstractProfileManager { @PreDestroy public void destroy() { profileInstances.forEach(profileInstances::destroy); } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); @PreDestroy void destroy(); }
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BackendProfileManager extends AbstractProfileManager { @PreDestroy public void destroy() { profileInstances.forEach(profileInstances::destroy); } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); @PreDestroy void destroy(); }
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@Test public void testGetQualifier() { tested.getQualifier().apply("q1"); verify(definitionUtils, times(1)).getQualifier(eq("q1")); tested.getQualifier().apply("q2"); verify(definitionUtils, times(1)).getQualifier(eq("q2")); }
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@Override protected Function<String, Annotation> getQualifier() { return definitionUtils::getQualifier; }
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BackendProfileManager extends AbstractProfileManager { @Override protected Function<String, Annotation> getQualifier() { return definitionUtils::getQualifier; } }
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BackendProfileManager extends AbstractProfileManager { @Override protected Function<String, Annotation> getQualifier() { return definitionUtils::getQualifier; } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); }
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BackendProfileManager extends AbstractProfileManager { @Override protected Function<String, Annotation> getQualifier() { return definitionUtils::getQualifier; } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); @PreDestroy void destroy(); }
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BackendProfileManager extends AbstractProfileManager { @Override protected Function<String, Annotation> getQualifier() { return definitionUtils::getQualifier; } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); @PreDestroy void destroy(); }
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@Test public void testGetAllProfileInstances() { Iterable<Profile> profiles = tested.getAllProfileInstances(); Iterator<Profile> iterator = profiles.iterator(); assertEquals(profile1, iterator.next()); assertEquals(profile2, iterator.next()); assertFalse(iterator.hasNext()); }
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@Override protected Iterable<Profile> getAllProfileInstances() { return profileInstances; }
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BackendProfileManager extends AbstractProfileManager { @Override protected Iterable<Profile> getAllProfileInstances() { return profileInstances; } }
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BackendProfileManager extends AbstractProfileManager { @Override protected Iterable<Profile> getAllProfileInstances() { return profileInstances; } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); }
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BackendProfileManager extends AbstractProfileManager { @Override protected Iterable<Profile> getAllProfileInstances() { return profileInstances; } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); @PreDestroy void destroy(); }
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BackendProfileManager extends AbstractProfileManager { @Override protected Iterable<Profile> getAllProfileInstances() { return profileInstances; } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); @PreDestroy void destroy(); }
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@Test public void testSelectProfileInstances() { Annotation qualifier = mock(Annotation.class); tested.selectProfileInstances(qualifier); verify(profileInstances, times(1)).select(eq(qualifier)); }
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@Override protected Iterable<Profile> selectProfileInstances(final Annotation... qualifiers) { return profileInstances.select(qualifiers); }
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BackendProfileManager extends AbstractProfileManager { @Override protected Iterable<Profile> selectProfileInstances(final Annotation... qualifiers) { return profileInstances.select(qualifiers); } }
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BackendProfileManager extends AbstractProfileManager { @Override protected Iterable<Profile> selectProfileInstances(final Annotation... qualifiers) { return profileInstances.select(qualifiers); } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); }
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BackendProfileManager extends AbstractProfileManager { @Override protected Iterable<Profile> selectProfileInstances(final Annotation... qualifiers) { return profileInstances.select(qualifiers); } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); @PreDestroy void destroy(); }
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BackendProfileManager extends AbstractProfileManager { @Override protected Iterable<Profile> selectProfileInstances(final Annotation... qualifiers) { return profileInstances.select(qualifiers); } @Inject BackendProfileManager(final DefinitionUtils definitionUtils,
final @Any Instance<Profile> profileInstances); @PreDestroy void destroy(); }
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@Test public void testGetId() { final String id = tested.getId(instance); assertEquals(FooProperty1TestBean.class.getName(), id); }
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@Override public String getId(final T property) { return BindableAdapterUtils.getPropertyId(property.getClass()); }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public String getId(final T property) { return BindableAdapterUtils.getPropertyId(property.getClass()); } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public String getId(final T property) { return BindableAdapterUtils.getPropertyId(property.getClass()); } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public String getId(final T property) { return BindableAdapterUtils.getPropertyId(property.getClass()); } @Override String getId(final T property); @Override String getCaption(final T property); @Override Object getValue(final T property); @Override void setValue(final T property,
final Object value); @Override boolean accepts(final Class<?> pojo); }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public String getId(final T property) { return BindableAdapterUtils.getPropertyId(property.getClass()); } @Override String getId(final T property); @Override String getCaption(final T property); @Override Object getValue(final T property); @Override void setValue(final T property,
final Object value); @Override boolean accepts(final Class<?> pojo); }
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@Test public void testGetCaption() { final String title = tested.getCaption(instance); assertEquals(FooProperty1TestBean.CAPTION, title); }
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@Override public String getCaption(final T property) { try { return getAnnotatedFieldValue(property, Caption.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Property with id " + getId(property)); } return null; }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public String getCaption(final T property) { try { return getAnnotatedFieldValue(property, Caption.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Property with id " + getId(property)); } return null; } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public String getCaption(final T property) { try { return getAnnotatedFieldValue(property, Caption.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Property with id " + getId(property)); } return null; } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public String getCaption(final T property) { try { return getAnnotatedFieldValue(property, Caption.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Property with id " + getId(property)); } return null; } @Override String getId(final T property); @Override String getCaption(final T property); @Override Object getValue(final T property); @Override void setValue(final T property,
final Object value); @Override boolean accepts(final Class<?> pojo); }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public String getCaption(final T property) { try { return getAnnotatedFieldValue(property, Caption.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Property with id " + getId(property)); } return null; } @Override String getId(final T property); @Override String getCaption(final T property); @Override Object getValue(final T property); @Override void setValue(final T property,
final Object value); @Override boolean accepts(final Class<?> pojo); }
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@Test public void testGetValue() { final Object value = tested.getValue(instance); assertEquals(FOO1_VALUE, value); }
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@Override public Object getValue(final T property) { if (null != property) { Class<?> c = property.getClass(); while (!(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { return _getValue(field, annotation, property); } catch (Exception e) { LOG.error("Error obtaining annotated value for Property with id " + getId(property), e); } } } c = c.getSuperclass(); } } return null; }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public Object getValue(final T property) { if (null != property) { Class<?> c = property.getClass(); while (!(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { return _getValue(field, annotation, property); } catch (Exception e) { LOG.error("Error obtaining annotated value for Property with id " + getId(property), e); } } } c = c.getSuperclass(); } } return null; } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public Object getValue(final T property) { if (null != property) { Class<?> c = property.getClass(); while (!(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { return _getValue(field, annotation, property); } catch (Exception e) { LOG.error("Error obtaining annotated value for Property with id " + getId(property), e); } } } c = c.getSuperclass(); } } return null; } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public Object getValue(final T property) { if (null != property) { Class<?> c = property.getClass(); while (!(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { return _getValue(field, annotation, property); } catch (Exception e) { LOG.error("Error obtaining annotated value for Property with id " + getId(property), e); } } } c = c.getSuperclass(); } } return null; } @Override String getId(final T property); @Override String getCaption(final T property); @Override Object getValue(final T property); @Override void setValue(final T property,
final Object value); @Override boolean accepts(final Class<?> pojo); }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public Object getValue(final T property) { if (null != property) { Class<?> c = property.getClass(); while (!(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { return _getValue(field, annotation, property); } catch (Exception e) { LOG.error("Error obtaining annotated value for Property with id " + getId(property), e); } } } c = c.getSuperclass(); } } return null; } @Override String getId(final T property); @Override String getCaption(final T property); @Override Object getValue(final T property); @Override void setValue(final T property,
final Object value); @Override boolean accepts(final Class<?> pojo); }
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@Test public void testSetValue() { tested.setValue(instance, "someNewValue"); final Object value = tested.getValue(instance); assertEquals("someNewValue", value); }
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@Override public void setValue(final T property, final Object value) { if (null != property) { Class<?> c = property.getClass(); boolean done = false; while (!done && !(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { field.setAccessible(true); field.set(property, value); done = true; break; } catch (Exception e) { LOG.error("Error setting value for Property with id [" + getId(property) + "] " + "and value [" + (value != null ? value.toString() : "null") + "]"); } } } c = c.getSuperclass(); } } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public void setValue(final T property, final Object value) { if (null != property) { Class<?> c = property.getClass(); boolean done = false; while (!done && !(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { field.setAccessible(true); field.set(property, value); done = true; break; } catch (Exception e) { LOG.error("Error setting value for Property with id [" + getId(property) + "] " + "and value [" + (value != null ? value.toString() : "null") + "]"); } } } c = c.getSuperclass(); } } } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public void setValue(final T property, final Object value) { if (null != property) { Class<?> c = property.getClass(); boolean done = false; while (!done && !(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { field.setAccessible(true); field.set(property, value); done = true; break; } catch (Exception e) { LOG.error("Error setting value for Property with id [" + getId(property) + "] " + "and value [" + (value != null ? value.toString() : "null") + "]"); } } } c = c.getSuperclass(); } } } }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public void setValue(final T property, final Object value) { if (null != property) { Class<?> c = property.getClass(); boolean done = false; while (!done && !(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { field.setAccessible(true); field.set(property, value); done = true; break; } catch (Exception e) { LOG.error("Error setting value for Property with id [" + getId(property) + "] " + "and value [" + (value != null ? value.toString() : "null") + "]"); } } } c = c.getSuperclass(); } } } @Override String getId(final T property); @Override String getCaption(final T property); @Override Object getValue(final T property); @Override void setValue(final T property,
final Object value); @Override boolean accepts(final Class<?> pojo); }
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BackendPropertyAdapter extends AbstractReflectAdapter<T> implements PropertyAdapter<T, Object> { @Override public void setValue(final T property, final Object value) { if (null != property) { Class<?> c = property.getClass(); boolean done = false; while (!done && !(c.isAssignableFrom(Object.class))) { Field[] fields = c.getDeclaredFields(); for (Field field : fields) { Value annotation = field.getAnnotation(Value.class); if (null != annotation) { try { field.setAccessible(true); field.set(property, value); done = true; break; } catch (Exception e) { LOG.error("Error setting value for Property with id [" + getId(property) + "] " + "and value [" + (value != null ? value.toString() : "null") + "]"); } } } c = c.getSuperclass(); } } } @Override String getId(final T property); @Override String getCaption(final T property); @Override Object getValue(final T property); @Override void setValue(final T property,
final Object value); @Override boolean accepts(final Class<?> pojo); }
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@Test public void testGetDescription() { final String description = tested.getDescription(instance); assertEquals(FooTestSet.DESC, description); }
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@Override public String getDescription(final T definitionSet) { try { return getAnnotatedFieldValue(definitionSet, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for DefinitionSet with id " + getId(definitionSet)); } return BindableAdapterUtils.toSimpleName(definitionSet); }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public String getDescription(final T definitionSet) { try { return getAnnotatedFieldValue(definitionSet, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for DefinitionSet with id " + getId(definitionSet)); } return BindableAdapterUtils.toSimpleName(definitionSet); } }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public String getDescription(final T definitionSet) { try { return getAnnotatedFieldValue(definitionSet, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for DefinitionSet with id " + getId(definitionSet)); } return BindableAdapterUtils.toSimpleName(definitionSet); } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public String getDescription(final T definitionSet) { try { return getAnnotatedFieldValue(definitionSet, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for DefinitionSet with id " + getId(definitionSet)); } return BindableAdapterUtils.toSimpleName(definitionSet); } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); @Override boolean accepts(final Class<?> pojo); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet); @Override Annotation getQualifier(final T definitionSet); @Override String getDescription(final T definitionSet); @Override Set<String> getDefinitions(final T definitionSet); }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public String getDescription(final T definitionSet) { try { return getAnnotatedFieldValue(definitionSet, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for DefinitionSet with id " + getId(definitionSet)); } return BindableAdapterUtils.toSimpleName(definitionSet); } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); @Override boolean accepts(final Class<?> pojo); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet); @Override Annotation getQualifier(final T definitionSet); @Override String getDescription(final T definitionSet); @Override Set<String> getDefinitions(final T definitionSet); }
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@Test public void testDoDestroy() { control.bind(session); reset(editorControls); control.doDestroy(); verify(editorControls).setGridPanelSupplier(gridPanelSupplierArgumentCaptor.capture()); final Optional<Supplier<DMNGridPanel>> gridPanelSupplier = gridPanelSupplierArgumentCaptor.getValue(); assertFalse(gridPanelSupplier.isPresent()); }
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@Override protected void doDestroy() { this.editorControls.setGridPanelSupplier(Optional.empty()); }
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CellEditorControlImpl extends AbstractCanvasControl<AbstractCanvas> implements CellEditorControl { @Override protected void doDestroy() { this.editorControls.setGridPanelSupplier(Optional.empty()); } }
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CellEditorControlImpl extends AbstractCanvasControl<AbstractCanvas> implements CellEditorControl { @Override protected void doDestroy() { this.editorControls.setGridPanelSupplier(Optional.empty()); } CellEditorControlImpl(); @Inject CellEditorControlImpl(final CellEditorControls editorControls); }
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CellEditorControlImpl extends AbstractCanvasControl<AbstractCanvas> implements CellEditorControl { @Override protected void doDestroy() { this.editorControls.setGridPanelSupplier(Optional.empty()); } CellEditorControlImpl(); @Inject CellEditorControlImpl(final CellEditorControls editorControls); @Override void bind(final DMNSession session); @Override CellEditorControls getCellEditorControls(); }
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CellEditorControlImpl extends AbstractCanvasControl<AbstractCanvas> implements CellEditorControl { @Override protected void doDestroy() { this.editorControls.setGridPanelSupplier(Optional.empty()); } CellEditorControlImpl(); @Inject CellEditorControlImpl(final CellEditorControls editorControls); @Override void bind(final DMNSession session); @Override CellEditorControls getCellEditorControls(); }
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@Test public void testGraphFactory() { final Class<? extends ElementFactory> graphFactoryType = tested.getGraphFactoryType(instance); assertEquals(GraphFactory.class, graphFactoryType); }
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@Override public Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet) { Class<? extends ElementFactory> result = null; if (null != definitionSet) { DefinitionSet annotation = definitionSet.getClass().getAnnotation(DefinitionSet.class); if (null != annotation) { result = annotation.graphFactory(); } } return result; }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet) { Class<? extends ElementFactory> result = null; if (null != definitionSet) { DefinitionSet annotation = definitionSet.getClass().getAnnotation(DefinitionSet.class); if (null != annotation) { result = annotation.graphFactory(); } } return result; } }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet) { Class<? extends ElementFactory> result = null; if (null != definitionSet) { DefinitionSet annotation = definitionSet.getClass().getAnnotation(DefinitionSet.class); if (null != annotation) { result = annotation.graphFactory(); } } return result; } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet) { Class<? extends ElementFactory> result = null; if (null != definitionSet) { DefinitionSet annotation = definitionSet.getClass().getAnnotation(DefinitionSet.class); if (null != annotation) { result = annotation.graphFactory(); } } return result; } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); @Override boolean accepts(final Class<?> pojo); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet); @Override Annotation getQualifier(final T definitionSet); @Override String getDescription(final T definitionSet); @Override Set<String> getDefinitions(final T definitionSet); }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet) { Class<? extends ElementFactory> result = null; if (null != definitionSet) { DefinitionSet annotation = definitionSet.getClass().getAnnotation(DefinitionSet.class); if (null != annotation) { result = annotation.graphFactory(); } } return result; } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); @Override boolean accepts(final Class<?> pojo); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet); @Override Annotation getQualifier(final T definitionSet); @Override String getDescription(final T definitionSet); @Override Set<String> getDefinitions(final T definitionSet); }
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@Test public void testGetDefinitions() { final Set<String> definitions = tested.getDefinitions(instance); assertEquals(1, definitions.size()); assertEquals(FooTestBean.class.getName(), definitions.iterator().next()); }
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@Override public Set<String> getDefinitions(final T definitionSet) { return getAnnotatedDefinitions(definitionSet); }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public Set<String> getDefinitions(final T definitionSet) { return getAnnotatedDefinitions(definitionSet); } }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public Set<String> getDefinitions(final T definitionSet) { return getAnnotatedDefinitions(definitionSet); } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public Set<String> getDefinitions(final T definitionSet) { return getAnnotatedDefinitions(definitionSet); } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); @Override boolean accepts(final Class<?> pojo); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet); @Override Annotation getQualifier(final T definitionSet); @Override String getDescription(final T definitionSet); @Override Set<String> getDefinitions(final T definitionSet); }
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BackendDefinitionSetAdapter extends AbstractReflectDefinitionSetAdapter<T> implements DefinitionSetAdapter<T> { @Override public Set<String> getDefinitions(final T definitionSet) { return getAnnotatedDefinitions(definitionSet); } @Inject BackendDefinitionSetAdapter(final BackendDefinitionAdapter annotatedDefinitionAdapter); @Override boolean accepts(final Class<?> pojo); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definitionSet); @Override Annotation getQualifier(final T definitionSet); @Override String getDescription(final T definitionSet); @Override Set<String> getDefinitions(final T definitionSet); }
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@Test public void testGetId() { final String id = tested.getId(instance).value(); assertEquals(FooTestBean.class.getName(), id); }
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@Override public DefinitionId getId(final T definition) { final String definitionId = getDefinitionId(definition.getClass()); final Id idAnn = getClassAnnotation(definition.getClass(), Id.class); if (null != idAnn) { try { final String value = BindableAdapterUtils.getDynamicDefinitionId(definitionId, getAnnotatedFieldValue(definition, Id.class)); return DefinitionId.build(value, definitionId.length()); } catch (Exception e) { LOG.error("Error obtaining annotated id for Definition " + definition.getClass().getName()); } } return DefinitionId.build(definitionId); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public DefinitionId getId(final T definition) { final String definitionId = getDefinitionId(definition.getClass()); final Id idAnn = getClassAnnotation(definition.getClass(), Id.class); if (null != idAnn) { try { final String value = BindableAdapterUtils.getDynamicDefinitionId(definitionId, getAnnotatedFieldValue(definition, Id.class)); return DefinitionId.build(value, definitionId.length()); } catch (Exception e) { LOG.error("Error obtaining annotated id for Definition " + definition.getClass().getName()); } } return DefinitionId.build(definitionId); } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public DefinitionId getId(final T definition) { final String definitionId = getDefinitionId(definition.getClass()); final Id idAnn = getClassAnnotation(definition.getClass(), Id.class); if (null != idAnn) { try { final String value = BindableAdapterUtils.getDynamicDefinitionId(definitionId, getAnnotatedFieldValue(definition, Id.class)); return DefinitionId.build(value, definitionId.length()); } catch (Exception e) { LOG.error("Error obtaining annotated id for Definition " + definition.getClass().getName()); } } return DefinitionId.build(definitionId); } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public DefinitionId getId(final T definition) { final String definitionId = getDefinitionId(definition.getClass()); final Id idAnn = getClassAnnotation(definition.getClass(), Id.class); if (null != idAnn) { try { final String value = BindableAdapterUtils.getDynamicDefinitionId(definitionId, getAnnotatedFieldValue(definition, Id.class)); return DefinitionId.build(value, definitionId.length()); } catch (Exception e) { LOG.error("Error obtaining annotated id for Definition " + definition.getClass().getName()); } } return DefinitionId.build(definitionId); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public DefinitionId getId(final T definition) { final String definitionId = getDefinitionId(definition.getClass()); final Id idAnn = getClassAnnotation(definition.getClass(), Id.class); if (null != idAnn) { try { final String value = BindableAdapterUtils.getDynamicDefinitionId(definitionId, getAnnotatedFieldValue(definition, Id.class)); return DefinitionId.build(value, definitionId.length()); } catch (Exception e) { LOG.error("Error obtaining annotated id for Definition " + definition.getClass().getName()); } } return DefinitionId.build(definitionId); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void testGetCategory() { final String category = tested.getCategory(instance); assertEquals(FooTestBean.CATEGORY, category); }
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@Override public String getCategory(final T definition) { try { return getAnnotatedFieldValue(definition, Category.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Definition with id " + getId(definition)); } return null; }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getCategory(final T definition) { try { return getAnnotatedFieldValue(definition, Category.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Definition with id " + getId(definition)); } return null; } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getCategory(final T definition) { try { return getAnnotatedFieldValue(definition, Category.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Definition with id " + getId(definition)); } return null; } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getCategory(final T definition) { try { return getAnnotatedFieldValue(definition, Category.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Definition with id " + getId(definition)); } return null; } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getCategory(final T definition) { try { return getAnnotatedFieldValue(definition, Category.class); } catch (Exception e) { LOG.error("Error obtaining annotated category for Definition with id " + getId(definition)); } return null; } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void testGetTitle() { final String title = tested.getTitle(instance); assertEquals(FooTestBean.TITLE, title); }
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@Override public String getTitle(final T definition) { try { return getAnnotatedFieldValue(definition, Title.class); } catch (Exception e) { LOG.error("Error obtaining annotated title for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getTitle(final T definition) { try { return getAnnotatedFieldValue(definition, Title.class); } catch (Exception e) { LOG.error("Error obtaining annotated title for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getTitle(final T definition) { try { return getAnnotatedFieldValue(definition, Title.class); } catch (Exception e) { LOG.error("Error obtaining annotated title for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getTitle(final T definition) { try { return getAnnotatedFieldValue(definition, Title.class); } catch (Exception e) { LOG.error("Error obtaining annotated title for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getTitle(final T definition) { try { return getAnnotatedFieldValue(definition, Title.class); } catch (Exception e) { LOG.error("Error obtaining annotated title for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void testGetDescription() { final String description = tested.getDescription(instance); assertEquals(FooTestBean.DESCRIPTION, description); }
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@Override public String getDescription(final T definition) { try { return getAnnotatedFieldValue(definition, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated description for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getDescription(final T definition) { try { return getAnnotatedFieldValue(definition, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated description for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getDescription(final T definition) { try { return getAnnotatedFieldValue(definition, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated description for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getDescription(final T definition) { try { return getAnnotatedFieldValue(definition, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated description for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getDescription(final T definition) { try { return getAnnotatedFieldValue(definition, Description.class); } catch (Exception e) { LOG.error("Error obtaining annotated description for Definition with id " + getId(definition)); } return BindableAdapterUtils.toSimpleName(definition); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void testGetLabels() { final String[] labels = tested.getLabels(instance); assertArrayEquals(FooTestBean.LABELS.toArray(), labels); }
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@Override @SuppressWarnings("all") public String[] getLabels(final T definition) { try { Object value = getAnnotatedFieldValue(definition, Labels.class); if (value instanceof Collection) { return (String[]) ((Collection) value).toArray(new String[((Collection) value).size()]); } return null != value ? (String[]) value : new String[0]; } catch (Exception e) { LOG.error("Error obtaining annotated labels for Definition with id " + getId(definition)); } return new String[0]; }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override @SuppressWarnings("all") public String[] getLabels(final T definition) { try { Object value = getAnnotatedFieldValue(definition, Labels.class); if (value instanceof Collection) { return (String[]) ((Collection) value).toArray(new String[((Collection) value).size()]); } return null != value ? (String[]) value : new String[0]; } catch (Exception e) { LOG.error("Error obtaining annotated labels for Definition with id " + getId(definition)); } return new String[0]; } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override @SuppressWarnings("all") public String[] getLabels(final T definition) { try { Object value = getAnnotatedFieldValue(definition, Labels.class); if (value instanceof Collection) { return (String[]) ((Collection) value).toArray(new String[((Collection) value).size()]); } return null != value ? (String[]) value : new String[0]; } catch (Exception e) { LOG.error("Error obtaining annotated labels for Definition with id " + getId(definition)); } return new String[0]; } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override @SuppressWarnings("all") public String[] getLabels(final T definition) { try { Object value = getAnnotatedFieldValue(definition, Labels.class); if (value instanceof Collection) { return (String[]) ((Collection) value).toArray(new String[((Collection) value).size()]); } return null != value ? (String[]) value : new String[0]; } catch (Exception e) { LOG.error("Error obtaining annotated labels for Definition with id " + getId(definition)); } return new String[0]; } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override @SuppressWarnings("all") public String[] getLabels(final T definition) { try { Object value = getAnnotatedFieldValue(definition, Labels.class); if (value instanceof Collection) { return (String[]) ((Collection) value).toArray(new String[((Collection) value).size()]); } return null != value ? (String[]) value : new String[0]; } catch (Exception e) { LOG.error("Error obtaining annotated labels for Definition with id " + getId(definition)); } return new String[0]; } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void testGraphFactory() { final Class<? extends ElementFactory> graphFactoryType = tested.getGraphFactoryType(instance); assertEquals(NodeFactory.class, graphFactoryType); }
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@Override public Class<? extends ElementFactory> getGraphFactoryType(final T definition) { Definition annotation = getDefinitionAnnotation(definition.getClass()); return null != annotation ? annotation.graphFactory() : null; }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public Class<? extends ElementFactory> getGraphFactoryType(final T definition) { Definition annotation = getDefinitionAnnotation(definition.getClass()); return null != annotation ? annotation.graphFactory() : null; } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public Class<? extends ElementFactory> getGraphFactoryType(final T definition) { Definition annotation = getDefinitionAnnotation(definition.getClass()); return null != annotation ? annotation.graphFactory() : null; } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public Class<? extends ElementFactory> getGraphFactoryType(final T definition) { Definition annotation = getDefinitionAnnotation(definition.getClass()); return null != annotation ? annotation.graphFactory() : null; } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public Class<? extends ElementFactory> getGraphFactoryType(final T definition) { Definition annotation = getDefinitionAnnotation(definition.getClass()); return null != annotation ? annotation.graphFactory() : null; } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void baseTypeGrandParentTest() { String baseType = tested.getBaseType(FooTestBeanBaseGrandParent.class); assertEquals(baseType, BaseFooTestBean2.class.getName()); }
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@Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void baseTypeParentTest() { String baseType = tested.getBaseType(FooTestBeanBaseParent.class); assertEquals(baseType, BaseFooTestBean2.class.getName()); }
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@Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void testReactsOnKey() { assertThat(operation.getKeyCode()).isEqualTo(KeyCodes.KEY_ESCAPE); }
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@Override public int getKeyCode() { return KeyCodes.KEY_ESCAPE; }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public int getKeyCode() { return KeyCodes.KEY_ESCAPE; } }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public int getKeyCode() { return KeyCodes.KEY_ESCAPE; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public int getKeyCode() { return KeyCodes.KEY_ESCAPE; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public int getKeyCode() { return KeyCodes.KEY_ESCAPE; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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@Test public void baseTypeNoParentTest() { String baseType = tested.getBaseType(FooTestBeanNoParent.class); assertEquals(baseType, null); }
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@Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void baseTypePrimitiveTest() { String baseType = tested.getBaseType(int.class); assertNull(baseType); baseType = tested.getBaseType(double.class); assertNull(baseType); }
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@Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getBaseType(final Class<?> type) { return Optional.ofNullable(type) .filter(t -> !t.isPrimitive()) .filter(t -> Objects.nonNull(getClassAnnotation(t, Definition.class))) .map(this::findBaseParent) .map(BackendDefinitionAdapter::getDefinitionId) .orElse(null); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void testGetProperties() { String[] propertyFields = tested.getPropertyFields(instance); assertEquals(2, propertyFields.length); assertEquals("fooPropertySet.fooProperty", propertyFields[0]); assertEquals("fooProperty", propertyFields[1]); Optional<?> p0 = tested.getProperty(instance, "fooPropertySet.fooProperty"); assertTrue(p0.isPresent()); assertEquals(instance.fooPropertySet.fooProperty, p0.get()); Optional<?> p1 = tested.getProperty(instance, "fooProperty"); assertTrue(p1.isPresent()); assertEquals(instance.fooProperty, p1.get()); }
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@Override public String[] getPropertyFields(final T pojo) { final List<String> fields = visitFields(pojo.getClass(), field -> null != field.getAnnotation(Property.class)); return fields.toArray(new String[fields.size()]); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String[] getPropertyFields(final T pojo) { final List<String> fields = visitFields(pojo.getClass(), field -> null != field.getAnnotation(Property.class)); return fields.toArray(new String[fields.size()]); } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String[] getPropertyFields(final T pojo) { final List<String> fields = visitFields(pojo.getClass(), field -> null != field.getAnnotation(Property.class)); return fields.toArray(new String[fields.size()]); } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String[] getPropertyFields(final T pojo) { final List<String> fields = visitFields(pojo.getClass(), field -> null != field.getAnnotation(Property.class)); return fields.toArray(new String[fields.size()]); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String[] getPropertyFields(final T pojo) { final List<String> fields = visitFields(pojo.getClass(), field -> null != field.getAnnotation(Property.class)); return fields.toArray(new String[fields.size()]); } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void getNameField() { String nameField = tested.getMetaPropertyField(instance, PropertyMetaTypes.NAME); assertEquals("fooProperty", nameField); }
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@Override public String getMetaPropertyField(final T pojo, final PropertyMetaTypes metaType) { List<String> fields = visitFields(pojo.getClass(), field -> isPropertyOfMetaType(field, metaType)); return !fields.isEmpty() ? fields.get(0) : null; }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getMetaPropertyField(final T pojo, final PropertyMetaTypes metaType) { List<String> fields = visitFields(pojo.getClass(), field -> isPropertyOfMetaType(field, metaType)); return !fields.isEmpty() ? fields.get(0) : null; } }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getMetaPropertyField(final T pojo, final PropertyMetaTypes metaType) { List<String> fields = visitFields(pojo.getClass(), field -> isPropertyOfMetaType(field, metaType)); return !fields.isEmpty() ? fields.get(0) : null; } @Inject BackendDefinitionAdapter(); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getMetaPropertyField(final T pojo, final PropertyMetaTypes metaType) { List<String> fields = visitFields(pojo.getClass(), field -> isPropertyOfMetaType(field, metaType)); return !fields.isEmpty() ? fields.get(0) : null; } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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BackendDefinitionAdapter extends AbstractReflectAdapter<T> implements DefinitionAdapter<T>,
HasInheritance { @Override public String getMetaPropertyField(final T pojo, final PropertyMetaTypes metaType) { List<String> fields = visitFields(pojo.getClass(), field -> isPropertyOfMetaType(field, metaType)); return !fields.isEmpty() ? fields.get(0) : null; } @Inject BackendDefinitionAdapter(); @Override boolean accepts(Class<?> pojo); @Override DefinitionId getId(final T definition); @Override String[] getPropertyFields(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override String getCategory(final T definition); @Override String getTitle(final T definition); @Override String getDescription(final T definition); @Override @SuppressWarnings("all") String[] getLabels(final T definition); @Override Class<? extends ElementFactory> getGraphFactoryType(final T definition); static Class<? extends ElementFactory> getGraphFactory(final Class<?> type); @Override String getBaseType(final Class<?> type); @Override String[] getTypes(final String baseType); }
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@Test public void testGetValue() { SomeBean bean = new SomeBean("someString", 5); assertEquals("someString", tested.getValue(bean, "someStringField")); assertEquals(5, tested.getValue(bean, "someIntField")); }
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@Override public Object getValue(Object property, String fieldName) { return getFieldValue(property, fieldName); }
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BackendBindableAdapterFunctions implements BindableAdapterFunctions { @Override public Object getValue(Object property, String fieldName) { return getFieldValue(property, fieldName); } }
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BackendBindableAdapterFunctions implements BindableAdapterFunctions { @Override public Object getValue(Object property, String fieldName) { return getFieldValue(property, fieldName); } }
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BackendBindableAdapterFunctions implements BindableAdapterFunctions { @Override public Object getValue(Object property, String fieldName) { return getFieldValue(property, fieldName); } @Override Object getValue(Object property, String fieldName); static Object getFieldValue(Object property, String fieldName); @Override void setValue(Object property, String fieldName, Object value); static void setFieldValue(Object property, String fieldName, Object value); }
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BackendBindableAdapterFunctions implements BindableAdapterFunctions { @Override public Object getValue(Object property, String fieldName) { return getFieldValue(property, fieldName); } @Override Object getValue(Object property, String fieldName); static Object getFieldValue(Object property, String fieldName); @Override void setValue(Object property, String fieldName, Object value); static void setFieldValue(Object property, String fieldName, Object value); }
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@Test public void testSetValue() { SomeBean bean = new SomeBean("someString", 5); tested.setValue(bean, "someStringField", "anotherString"); tested.setValue(bean, "someIntField", 3); assertEquals("anotherString", bean.someStringField); assertEquals(3, bean.someIntField); }
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@Override public void setValue(Object property, String fieldName, Object value) { setFieldValue(property, fieldName, value); }
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BackendBindableAdapterFunctions implements BindableAdapterFunctions { @Override public void setValue(Object property, String fieldName, Object value) { setFieldValue(property, fieldName, value); } }
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BackendBindableAdapterFunctions implements BindableAdapterFunctions { @Override public void setValue(Object property, String fieldName, Object value) { setFieldValue(property, fieldName, value); } }
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BackendBindableAdapterFunctions implements BindableAdapterFunctions { @Override public void setValue(Object property, String fieldName, Object value) { setFieldValue(property, fieldName, value); } @Override Object getValue(Object property, String fieldName); static Object getFieldValue(Object property, String fieldName); @Override void setValue(Object property, String fieldName, Object value); static void setFieldValue(Object property, String fieldName, Object value); }
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BackendBindableAdapterFunctions implements BindableAdapterFunctions { @Override public void setValue(Object property, String fieldName, Object value) { setFieldValue(property, fieldName, value); } @Override Object getValue(Object property, String fieldName); static Object getFieldValue(Object property, String fieldName); @Override void setValue(Object property, String fieldName, Object value); static void setFieldValue(Object property, String fieldName, Object value); }
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@Test public void testHasNonEmpty() { assertFalse(StringUtils.hasNonEmpty((String[]) null)); assertFalse(StringUtils.hasNonEmpty((String) null)); assertFalse(StringUtils.hasNonEmpty(null, null, null)); assertFalse(StringUtils.hasNonEmpty(null, "", null)); assertTrue(StringUtils.hasNonEmpty(null, "", "someValue")); }
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public static boolean hasNonEmpty(final String... values) { return values != null && Arrays.stream(values).anyMatch(StringUtils::nonEmpty); }
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StringUtils { public static boolean hasNonEmpty(final String... values) { return values != null && Arrays.stream(values).anyMatch(StringUtils::nonEmpty); } }
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StringUtils { public static boolean hasNonEmpty(final String... values) { return values != null && Arrays.stream(values).anyMatch(StringUtils::nonEmpty); } private StringUtils(); }
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StringUtils { public static boolean hasNonEmpty(final String... values) { return values != null && Arrays.stream(values).anyMatch(StringUtils::nonEmpty); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static boolean hasNonEmpty(final String... values) { return values != null && Arrays.stream(values).anyMatch(StringUtils::nonEmpty); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateQuotedConstantNull() { assertNull(StringUtils.createQuotedString(null)); }
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public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateQuotedConstantEmpty() { assertEquals("", StringUtils.createQuotedString("")); }
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public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateQuotedConstantNumber() { assertEquals("\"-123\"", StringUtils.createQuotedString("-123")); }
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public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testNonBaseExpressionGrid() { assertThat(operation.isExecutable(mock(GridWidget.class))) .as("Widget have to be BaseExpressionWidget instance") .isFalse(); }
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@Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; } }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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@Test public void testCreateQuotedConstant() { assertEquals("\" abc \"", StringUtils.createQuotedString(" abc ")); }
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public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createQuotedString(final String str) { if (isEmpty(str)) { return str; } return "\"" + str + "\""; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateQuotedConstantOptionalNumericNull() { assertNull(StringUtils.createQuotedStringIfNotNumeric(null)); }
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public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateQuotedConstantOptionalNumericEmpty() { assertEquals("", StringUtils.createQuotedStringIfNotNumeric("")); }
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public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateQuotedConstantOptionalNumericNumber() { assertEquals("-123", StringUtils.createQuotedStringIfNotNumeric("-123")); }
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public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateQuotedConstantOptionalNumeric() { assertEquals("\" abc \"", StringUtils.createQuotedStringIfNotNumeric(" abc ")); }
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public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createQuotedStringIfNotNumeric(String str) { if (isEmpty(str)) { return str; } try { Double.parseDouble(str); } catch (NumberFormatException nfe) { return "\"" + str + "\""; } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testIsQuotedConstantNull() { assertFalse(StringUtils.isQuoted(null)); }
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public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testIsQuotedConstantEmpty() { assertFalse(StringUtils.isQuoted("")); }
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public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testIsQuotedConstantOpeningQuote() { assertFalse(StringUtils.isQuoted("\"a")); }
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public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testIsQuotedConstantClosingQuote() { assertFalse(StringUtils.isQuoted("a\"")); }
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public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testIsQuotedConstantOpeningAndClosingQuote() { assertTrue(StringUtils.isQuoted("\"a\"")); }
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public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static boolean isQuoted(String str) { if (str == null || str.isEmpty()) { return false; } return (str.startsWith("\"") && str.endsWith("\"")); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testBaseExpressionGrid() { assertThat(operation.isExecutable(mock(BaseExpressionGrid.class))) .as("Widget can be BaseExpressionWidget instance") .isTrue(); }
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@Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; } }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean isExecutable(final GridWidget gridWidget) { return gridWidget instanceof BaseExpressionGrid; } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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@Test public void testCreateUnquotedConstantNull() { assertNull(StringUtils.createUnquotedString(null)); }
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public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateUnquotedConstantEmpty() { assertEquals("", StringUtils.createUnquotedString("")); }
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public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateUnquotedConstantNoAction() { assertEquals("-123", StringUtils.createUnquotedString("-123")); }
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public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testCreateUnquotedConstant() { assertEquals(" abc ", StringUtils.createUnquotedString("\" abc \"")); }
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public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String createUnquotedString(String str) { if (isEmpty(str)) { return str; } if (str.startsWith("\"")) { str = str.substring(1); } if (str.endsWith("\"")) { str = str.substring(0, str.length() - 1); } return str; } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testReplaceIllegalCharsAttribute() { assertSame(EMPTY_STRING, replaceIllegalCharsAttribute(EMPTY_STRING)); assertEquals(null, replaceIllegalCharsAttribute(null)); assertEquals("< Valid "&" Symbols >", replaceIllegalCharsAttribute(DECODED_VALUE)); }
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public static String replaceIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '<': sb.append("<"); break; case '>': sb.append(">"); break; case '&': sb.append("&"); break; case '"': sb.append("""); break; default: sb.append(c); break; } } return sb.toString(); }
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StringUtils { public static String replaceIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '<': sb.append("<"); break; case '>': sb.append(">"); break; case '&': sb.append("&"); break; case '"': sb.append("""); break; default: sb.append(c); break; } } return sb.toString(); } }
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StringUtils { public static String replaceIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '<': sb.append("<"); break; case '>': sb.append(">"); break; case '&': sb.append("&"); break; case '"': sb.append("""); break; default: sb.append(c); break; } } return sb.toString(); } private StringUtils(); }
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StringUtils { public static String replaceIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '<': sb.append("<"); break; case '>': sb.append(">"); break; case '&': sb.append("&"); break; case '"': sb.append("""); break; default: sb.append(c); break; } } return sb.toString(); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String replaceIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '<': sb.append("<"); break; case '>': sb.append(">"); break; case '&': sb.append("&"); break; case '"': sb.append("""); break; default: sb.append(c); break; } } return sb.toString(); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testRevertIllegalCharsAttribute() { assertSame(EMPTY_STRING, revertIllegalCharsAttribute(EMPTY_STRING)); assertEquals(null, revertIllegalCharsAttribute(null)); assertEquals("< Valid \"&\" Symbols >", revertIllegalCharsAttribute(ENCODED_VALUE)); }
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public static String revertIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } return value.replace("<", "<") .replace(">", ">") .replace("&", "&") .replace(""", "\""); }
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StringUtils { public static String revertIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } return value.replace("<", "<") .replace(">", ">") .replace("&", "&") .replace(""", "\""); } }
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StringUtils { public static String revertIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } return value.replace("<", "<") .replace(">", ">") .replace("&", "&") .replace(""", "\""); } private StringUtils(); }
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StringUtils { public static String revertIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } return value.replace("<", "<") .replace(">", ">") .replace("&", "&") .replace(""", "\""); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String revertIllegalCharsAttribute(final String value) { if (isEmpty(value)) { return value; } return value.replace("<", "<") .replace(">", ">") .replace("&", "&") .replace(""", "\""); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void testReplaceIllegalCharsDataObject() { assertEquals("DATAOBJECT", replaceIllegalCharsForDataObjects(DECODED_VALUE_DATA_OBJECT_NEWLINE)); }
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public static String replaceIllegalCharsForDataObjects(final String value) { final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '#': case '"': case ':': case ' ': sb.append("-"); break; case '\n': break; default: sb.append(c); break; } } return sb.toString(); }
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StringUtils { public static String replaceIllegalCharsForDataObjects(final String value) { final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '#': case '"': case ':': case ' ': sb.append("-"); break; case '\n': break; default: sb.append(c); break; } } return sb.toString(); } }
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StringUtils { public static String replaceIllegalCharsForDataObjects(final String value) { final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '#': case '"': case ':': case ' ': sb.append("-"); break; case '\n': break; default: sb.append(c); break; } } return sb.toString(); } private StringUtils(); }
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StringUtils { public static String replaceIllegalCharsForDataObjects(final String value) { final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '#': case '"': case ':': case ' ': sb.append("-"); break; case '\n': break; default: sb.append(c); break; } } return sb.toString(); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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StringUtils { public static String replaceIllegalCharsForDataObjects(final String value) { final StringBuilder sb = new StringBuilder(); for (int i = 0; i < value.length(); i++) { final char c = value.charAt(i); switch (c) { case '#': case '"': case ':': case ' ': sb.append("-"); break; case '\n': break; default: sb.append(c); break; } } return sb.toString(); } private StringUtils(); static boolean isEmpty(final String s); static boolean nonEmpty(final String s); static boolean hasNonEmpty(final String... values); static boolean isQuoted(String str); static String createQuotedString(final String str); static String createQuotedStringIfNotNumeric(String str); static String replaceIllegalCharsAttribute(final String value); static String replaceIllegalCharsForDataObjects(final String value); static String revertIllegalCharsAttribute(final String value); static String createUnquotedString(String str); }
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@Test public void get() { assertEquals(counter.get(), INIT_VALUE); counter = new Counter(); assertEquals(counter.get(), 0); }
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public int get() { return counter; }
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Counter { public int get() { return counter; } }
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Counter { public int get() { return counter; } Counter(); Counter(int value); }
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Counter { public int get() { return counter; } Counter(); Counter(int value); int get(); int increment(); int decrement(); boolean equalsToValue(int value); String toString(); @Override boolean equals(Object o); @Override int hashCode(); }
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Counter { public int get() { return counter; } Counter(); Counter(int value); int get(); int increment(); int decrement(); boolean equalsToValue(int value); String toString(); @Override boolean equals(Object o); @Override int hashCode(); }
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@Test public void increment() { assertEquals(counter.increment(), INIT_VALUE + 1); assertEquals(counter.increment(), INIT_VALUE + 2); }
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public int increment() { return ++counter; }
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Counter { public int increment() { return ++counter; } }
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Counter { public int increment() { return ++counter; } Counter(); Counter(int value); }
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Counter { public int increment() { return ++counter; } Counter(); Counter(int value); int get(); int increment(); int decrement(); boolean equalsToValue(int value); String toString(); @Override boolean equals(Object o); @Override int hashCode(); }
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Counter { public int increment() { return ++counter; } Counter(); Counter(int value); int get(); int increment(); int decrement(); boolean equalsToValue(int value); String toString(); @Override boolean equals(Object o); @Override int hashCode(); }
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@Test public void decrement() { assertEquals(counter.decrement(), INIT_VALUE - 1); assertEquals(counter.decrement(), INIT_VALUE - 2); }
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public int decrement() { return --counter; }
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Counter { public int decrement() { return --counter; } }
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Counter { public int decrement() { return --counter; } Counter(); Counter(int value); }
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Counter { public int decrement() { return --counter; } Counter(); Counter(int value); int get(); int increment(); int decrement(); boolean equalsToValue(int value); String toString(); @Override boolean equals(Object o); @Override int hashCode(); }
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Counter { public int decrement() { return --counter; } Counter(); Counter(int value); int get(); int increment(); int decrement(); boolean equalsToValue(int value); String toString(); @Override boolean equals(Object o); @Override int hashCode(); }
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@Test public void testEscapeFromNotChildCell() { final Optional<BaseExpressionGrid> oParent = Optional.empty(); final BaseExpressionGrid gridWidget = mock(BaseExpressionGrid.class); when(gridWidget.findParentGrid()).thenReturn(oParent); assertThat(operation.perform(gridWidget, false, false)) .as("No need to redraw") .isFalse(); }
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@Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); } }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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@Test public void equalsToValue() { assertTrue(counter.equalsToValue(INIT_VALUE)); assertFalse(counter.equalsToValue(INIT_VALUE + 1)); }
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public boolean equalsToValue(int value) { return counter == value; }
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Counter { public boolean equalsToValue(int value) { return counter == value; } }
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Counter { public boolean equalsToValue(int value) { return counter == value; } Counter(); Counter(int value); }
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Counter { public boolean equalsToValue(int value) { return counter == value; } Counter(); Counter(int value); int get(); int increment(); int decrement(); boolean equalsToValue(int value); String toString(); @Override boolean equals(Object o); @Override int hashCode(); }
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Counter { public boolean equalsToValue(int value) { return counter == value; } Counter(); Counter(int value); int get(); int increment(); int decrement(); boolean equalsToValue(int value); String toString(); @Override boolean equals(Object o); @Override int hashCode(); }
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@Test public void testUUID() { for (int j = 0; j < TEST_COUNT; j++) { final String uuid = UUID.uuid(); for (int i = 0; i < uuid.length(); i++) { final char currentChar = uuid.charAt(i); boolean unexpected; if (i == 0) { unexpected = '_' != currentChar; } else if (i == 9 || i == 14 || i == 19 || i == 24) { unexpected = '-' != currentChar; } else { unexpected = EXPECTED_CHARS.indexOf(uuid.charAt(i)) < 0; } if (unexpected) { fail("Unexpected character: '" + currentChar + "' at position: " + i + " in UUID = " + uuid); } } } }
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public static String uuid(final int len) { return uuid(len, CHARS.length); }
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UUID { public static String uuid(final int len) { return uuid(len, CHARS.length); } }
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UUID { public static String uuid(final int len) { return uuid(len, CHARS.length); } }
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UUID { public static String uuid(final int len) { return uuid(len, CHARS.length); } static String uuid(final int len); static String uuid(final int len,
final int radix); static String uuid(); }
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UUID { public static String uuid(final int len) { return uuid(len, CHARS.length); } static String uuid(final int len); static String uuid(final int len,
final int radix); static String uuid(); }
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@Test public void testWhenFirstParamIsNull() { assertEquals(-1, safeComparator.compare(null, param2)); verify(comparator, never()).compare(any(), any()); }
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@Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); static final SafeComparator<Object> TO_STRING_COMPARATOR; static final SafeComparator<Object> TO_STRING_REVERSE_COMPARATOR; }
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@Test public void testWhenSecondParamIsNull() { assertEquals(1, safeComparator.compare(param1, null)); verify(comparator, never()).compare(any(), any()); }
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@Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); static final SafeComparator<Object> TO_STRING_COMPARATOR; static final SafeComparator<Object> TO_STRING_REVERSE_COMPARATOR; }
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@Test public void testWhenBothParamsAreNull() { assertEquals(0, safeComparator.compare(null, null)); verify(comparator, never()).compare(any(), any()); }
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@Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); static final SafeComparator<Object> TO_STRING_COMPARATOR; static final SafeComparator<Object> TO_STRING_REVERSE_COMPARATOR; }
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@Test public void testWhenBothParamsAreNotNull() { int expectedResult = 1234; when(comparator.compare(param1, param2)).thenReturn(expectedResult); assertEquals(expectedResult, safeComparator.compare(param1, param2)); verify(comparator).compare(param1, param2); }
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@Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); static final SafeComparator<Object> TO_STRING_COMPARATOR; static final SafeComparator<Object> TO_STRING_REVERSE_COMPARATOR; }
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@Test public void testToStringComparator() { when(param1.toString()).thenReturn("value1"); when(param2.toString()).thenReturn("value2"); assertEquals(-1, TO_STRING_COMPARATOR.compare(param1, param2)); assertEquals(0, TO_STRING_COMPARATOR.compare(param1, param1)); assertEquals(1, TO_STRING_COMPARATOR.compare(param2, param1)); }
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@Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); static final SafeComparator<Object> TO_STRING_COMPARATOR; static final SafeComparator<Object> TO_STRING_REVERSE_COMPARATOR; }
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@Test public void testToStringReverseComparator() { when(param1.toString()).thenReturn("value1"); when(param2.toString()).thenReturn("value2"); assertEquals(-1, TO_STRING_REVERSE_COMPARATOR.compare(param2, param1)); assertEquals(0, TO_STRING_REVERSE_COMPARATOR.compare(param1, param1)); assertEquals(1, TO_STRING_REVERSE_COMPARATOR.compare(param1, param2)); }
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@Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); }
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SafeComparator implements Comparator<T> { @Override public int compare(final T obj1, final T obj2) { if (obj1 == null) { return obj2 != null ? -1 : 0; } else if (obj2 == null) { return 1; } else { return comparatorSupplier.get().compare(obj1, obj2); } } private SafeComparator(Supplier<Comparator<T>> comparatorSupplier); static SafeComparator<K> of(Supplier<Comparator<K>> comparatorSupplier); @Override int compare(final T obj1,
final T obj2); static final SafeComparator<Object> TO_STRING_COMPARATOR; static final SafeComparator<Object> TO_STRING_REVERSE_COMPARATOR; }
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@Test public void testAccepts() { assertTrue(tested.accepts(DEFINITION_ID)); assertFalse(tested.accepts("def2")); }
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@Override public boolean accepts(final String definitionId) { return this.definitionId.equals(definitionId); }
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MorphDefinitionImpl implements MorphDefinition { @Override public boolean accepts(final String definitionId) { return this.definitionId.equals(definitionId); } }
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MorphDefinitionImpl implements MorphDefinition { @Override public boolean accepts(final String definitionId) { return this.definitionId.equals(definitionId); } MorphDefinitionImpl(final @MapsTo("definitionId") String definitionId,
final @MapsTo("base") String base,
final @MapsTo("defaultDefinitionId") String defaultDefinitionId,
final @MapsTo("targets") List<String> targets,
final @MapsTo("policy") ClonePolicy policy); }
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MorphDefinitionImpl implements MorphDefinition { @Override public boolean accepts(final String definitionId) { return this.definitionId.equals(definitionId); } MorphDefinitionImpl(final @MapsTo("definitionId") String definitionId,
final @MapsTo("base") String base,
final @MapsTo("defaultDefinitionId") String defaultDefinitionId,
final @MapsTo("targets") List<String> targets,
final @MapsTo("policy") ClonePolicy policy); @Override boolean accepts(final String definitionId); @Override String getBase(); @Override String getDefault(); @Override Iterable<String> getTargets(final String definitionId); @Override ClonePolicy getPolicy(); }
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MorphDefinitionImpl implements MorphDefinition { @Override public boolean accepts(final String definitionId) { return this.definitionId.equals(definitionId); } MorphDefinitionImpl(final @MapsTo("definitionId") String definitionId,
final @MapsTo("base") String base,
final @MapsTo("defaultDefinitionId") String defaultDefinitionId,
final @MapsTo("targets") List<String> targets,
final @MapsTo("policy") ClonePolicy policy); @Override boolean accepts(final String definitionId); @Override String getBase(); @Override String getDefault(); @Override Iterable<String> getTargets(final String definitionId); @Override ClonePolicy getPolicy(); }
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@Test public void testGetId() { tested.getId(pojo); verify(wrapped, times(1)).getId(eq(pojo)); verify(wrapped, never()).getCategory(any()); verify(wrapped, never()).getTitle(any()); verify(wrapped, never()).getDescription(any()); verify(wrapped, never()).getLabels(any()); verify(wrapped, never()).getPropertyFields(any()); verify(wrapped, never()).getProperty(any(), any()); verify(wrapped, never()).getGraphFactory(any()); verify(wrapped, never()).getMetaPropertyField(any(), any()); }
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@Override public DefinitionId getId(final T pojo) { return adapter.getId(pojo); }
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DefinitionAdapterWrapper implements DefinitionAdapter<T> { @Override public DefinitionId getId(final T pojo) { return adapter.getId(pojo); } }
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DefinitionAdapterWrapper implements DefinitionAdapter<T> { @Override public DefinitionId getId(final T pojo) { return adapter.getId(pojo); } protected DefinitionAdapterWrapper(); DefinitionAdapterWrapper(final A adapter); }
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DefinitionAdapterWrapper implements DefinitionAdapter<T> { @Override public DefinitionId getId(final T pojo) { return adapter.getId(pojo); } protected DefinitionAdapterWrapper(); DefinitionAdapterWrapper(final A adapter); @Override DefinitionId getId(final T pojo); @Override String getCategory(final T pojo); @Override String getTitle(final T pojo); @Override String getDescription(final T pojo); @Override String[] getLabels(final T pojo); @Override String[] getPropertyFields(final T pojo); @Override Optional<?> getProperty(T pojo, String propertyName); @Override Class<? extends ElementFactory> getGraphFactoryType(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override int getPriority(); @Override boolean accepts(final Class<?> type); }
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DefinitionAdapterWrapper implements DefinitionAdapter<T> { @Override public DefinitionId getId(final T pojo) { return adapter.getId(pojo); } protected DefinitionAdapterWrapper(); DefinitionAdapterWrapper(final A adapter); @Override DefinitionId getId(final T pojo); @Override String getCategory(final T pojo); @Override String getTitle(final T pojo); @Override String getDescription(final T pojo); @Override String[] getLabels(final T pojo); @Override String[] getPropertyFields(final T pojo); @Override Optional<?> getProperty(T pojo, String propertyName); @Override Class<? extends ElementFactory> getGraphFactoryType(final T pojo); @Override String getMetaPropertyField(final T pojo,
final PropertyMetaTypes metaType); @Override int getPriority(); @Override boolean accepts(final Class<?> type); }
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@Test public void testEscapeFromChildCell() { final BaseExpressionGrid parent = mock(BaseExpressionGrid.class); final Optional<BaseExpressionGrid> oParent = Optional.of(parent); final BaseExpressionGrid gridWidget = mock(BaseExpressionGrid.class); when(gridWidget.findParentGrid()).thenReturn(oParent); assertThat(operation.perform(gridWidget, false, false)) .as("Need to redraw") .isTrue(); verify(gridLayer).select(parent); verify(parent).selectFirstCell(); }
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@Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); } }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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KeyboardOperationEscapeGridCell extends BaseKeyboardOperation { @Override public boolean perform(final GridWidget gridWidget, final boolean isShiftKeyDown, final boolean isControlKeyDown) { final AtomicBoolean needToRedraw = new AtomicBoolean(false); final Optional<BaseExpressionGrid> oParent = ((BaseExpressionGrid) gridWidget).findParentGrid(); oParent.ifPresent(parentWidget -> { gridLayer.select(parentWidget); parentWidget.selectFirstCell(); needToRedraw.set(true); }); return needToRedraw.get(); } KeyboardOperationEscapeGridCell(final GridLayer gridLayer); @Override int getKeyCode(); @Override boolean isExecutable(final GridWidget gridWidget); @Override boolean perform(final GridWidget gridWidget,
final boolean isShiftKeyDown,
final boolean isControlKeyDown); }
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@Test public void testValue() { assertThat(term.getValue()).isEqualTo(PMMLValueFileExtensionIndexTerm.TERM_VALUE); }
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@Override public String getValue() { return TERM_VALUE; }
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PMMLValueFileExtensionIndexTerm extends DMNValueFileExtensionIndexTerm { @Override public String getValue() { return TERM_VALUE; } }
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PMMLValueFileExtensionIndexTerm extends DMNValueFileExtensionIndexTerm { @Override public String getValue() { return TERM_VALUE; } }
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PMMLValueFileExtensionIndexTerm extends DMNValueFileExtensionIndexTerm { @Override public String getValue() { return TERM_VALUE; } @Override String getValue(); }
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PMMLValueFileExtensionIndexTerm extends DMNValueFileExtensionIndexTerm { @Override public String getValue() { return TERM_VALUE; } @Override String getValue(); }
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