use of org.eclipse.bpmn2.SequenceFlow in project kie-wb-common by kiegroup.
the class Bpmn2JsonMarshaller method marshallExclusiveGateway.
protected void marshallExclusiveGateway(ExclusiveGateway gateway, BPMNPlane plane, JsonGenerator generator, float xOffset, float yOffset, Map<String, Object> flowElementProperties) throws JsonGenerationException, IOException {
if (gateway.getDefault() != null) {
SequenceFlow defsf = gateway.getDefault();
String defGatewayStr = defsf.getId();
flowElementProperties.put("defaultgate", defGatewayStr);
}
marshallNode(gateway, flowElementProperties, "Exclusive_Databased_Gateway", plane, generator, xOffset, yOffset);
}
use of org.eclipse.bpmn2.SequenceFlow in project kie-wb-common by kiegroup.
the class Bpmn2JsonMarshaller method marshallSubProcess.
protected void marshallSubProcess(SubProcess subProcess, BPMNPlane plane, JsonGenerator generator, float xOffset, float yOffset, String preProcessingData, Definitions def, Map<String, Object> flowElementProperties) throws JsonGenerationException, IOException {
Map<String, Object> properties = new LinkedHashMap<String, Object>(flowElementProperties);
if (subProcess.getName() != null) {
properties.put(NAME, StringEscapeUtils.unescapeXml(subProcess.getName()));
} else {
properties.put(NAME, "");
}
putDocumentationProperty(subProcess, properties);
// overwrite name if elementname extension element is present
String elementName = Utils.getMetaDataValue(subProcess.getExtensionValues(), "elementname");
if (elementName != null) {
properties.put(NAME, elementName);
}
if (subProcess instanceof AdHocSubProcess) {
setAdHocSubProcessProperties((AdHocSubProcess) subProcess, properties);
}
// custom async
String customAsyncMetaData = Utils.getMetaDataValue(subProcess.getExtensionValues(), "customAsync");
String customAsync = (customAsyncMetaData != null && customAsyncMetaData.length() > 0) ? customAsyncMetaData : "false";
properties.put(ISASYNC, customAsync);
// data inputs
String datainputset = marshallDataInputSet(subProcess, properties);
// data outputs
String dataoutputset = marshallDataOutputSet(subProcess, properties);
// assignments
StringBuilder associationBuff = new StringBuilder();
List<DataInputAssociation> inputAssociations = subProcess.getDataInputAssociations();
List<DataOutputAssociation> outputAssociations = subProcess.getDataOutputAssociations();
marshallDataInputAssociations(associationBuff, inputAssociations);
marshallDataOutputAssociations(associationBuff, outputAssociations);
String assignmentString = associationBuff.toString();
if (assignmentString.endsWith(",")) {
assignmentString = assignmentString.substring(0, assignmentString.length() - 1);
}
properties.put(ASSIGNMENTS, assignmentString);
setAssignmentsInfoProperty(null, datainputset, null, dataoutputset, assignmentString, properties);
// on-entry and on-exit actions
ScriptTypeListValue onEntryActions = getOnEntryActions(subProcess.getExtensionValues());
ScriptTypeListValue onExitActions = getOnExitActions(subProcess.getExtensionValues());
if (!onEntryActions.isEmpty()) {
properties.put(ONENTRYACTIONS, new ScriptTypeListTypeSerializer().serialize(onEntryActions));
}
if (!onExitActions.isEmpty()) {
properties.put(ONEXITACTIONS, new ScriptTypeListTypeSerializer().serialize(onExitActions));
}
// loop characteristics
boolean haveValidLoopCharacteristics = false;
if (subProcess.getLoopCharacteristics() != null && subProcess.getLoopCharacteristics() instanceof MultiInstanceLoopCharacteristics) {
haveValidLoopCharacteristics = true;
properties.put(MITRIGGER, "true");
MultiInstanceLoopCharacteristics taskmi = (MultiInstanceLoopCharacteristics) subProcess.getLoopCharacteristics();
if (taskmi.getLoopDataInputRef() != null) {
ItemAwareElement iedatainput = taskmi.getLoopDataInputRef();
List<DataInputAssociation> taskInputAssociations = subProcess.getDataInputAssociations();
for (DataInputAssociation dia : taskInputAssociations) {
if (dia.getTargetRef().equals(iedatainput)) {
properties.put(MULTIPLEINSTANCECOLLECTIONINPUT, dia.getSourceRef().get(0).getId());
break;
}
}
}
if (taskmi.getLoopDataOutputRef() != null) {
ItemAwareElement iedataoutput = taskmi.getLoopDataOutputRef();
List<DataOutputAssociation> taskOutputAssociations = subProcess.getDataOutputAssociations();
for (DataOutputAssociation dout : taskOutputAssociations) {
if (dout.getSourceRef().get(0).equals(iedataoutput)) {
properties.put(MULTIPLEINSTANCECOLLECTIONOUTPUT, dout.getTargetRef().getId());
break;
}
}
}
if (taskmi.getInputDataItem() != null) {
List<DataInput> taskDataInputs = subProcess.getIoSpecification().getDataInputs();
for (DataInput din : taskDataInputs) {
if (din.getItemSubjectRef() == null) {
// for backward compatibility as the where only input supported
properties.put(MULTIPLEINSTANCEDATAINPUT, taskmi.getInputDataItem().getId());
}
if (din.getItemSubjectRef() != null && din.getItemSubjectRef().getId().equals(taskmi.getInputDataItem().getItemSubjectRef().getId())) {
properties.put(MULTIPLEINSTANCEDATAINPUT, din.getName());
break;
}
}
}
if (taskmi.getOutputDataItem() != null) {
List<DataOutput> taskDataOutputs = subProcess.getIoSpecification().getDataOutputs();
for (DataOutput dout : taskDataOutputs) {
if (dout.getItemSubjectRef() == null) {
properties.put(MULTIPLEINSTANCEDATAOUTPUT, taskmi.getOutputDataItem().getId());
break;
}
if (dout.getItemSubjectRef() != null && dout.getItemSubjectRef().getId().equals(taskmi.getOutputDataItem().getItemSubjectRef().getId())) {
properties.put(MULTIPLEINSTANCEDATAOUTPUT, dout.getName());
break;
}
}
}
if (taskmi.getCompletionCondition() != null) {
if (taskmi.getCompletionCondition() instanceof FormalExpression) {
properties.put(MULTIPLEINSTANCECOMPLETIONCONDITION, ((FormalExpression) taskmi.getCompletionCondition()).getBody());
}
}
}
// properties
List<Property> processProperties = subProcess.getProperties();
if (processProperties != null && processProperties.size() > 0) {
String propVal = "";
for (int i = 0; i < processProperties.size(); i++) {
Property p = processProperties.get(i);
String pKPI = Utils.getMetaDataValue(p.getExtensionValues(), "customKPI");
propVal += p.getId();
// check the structureRef value
if (p.getItemSubjectRef() != null && p.getItemSubjectRef().getStructureRef() != null) {
propVal += ":" + p.getItemSubjectRef().getStructureRef();
}
if (pKPI != null && pKPI.length() > 0) {
propVal += ":" + pKPI;
}
if (i != processProperties.size() - 1) {
propVal += ",";
}
}
properties.put(VARDEFS, propVal);
}
// simulation properties
setSimulationProperties(subProcess.getId(), properties);
marshallProperties(properties, generator);
generator.writeObjectFieldStart("stencil");
if (subProcess instanceof AdHocSubProcess) {
generator.writeObjectField("id", "AdHocSubprocess");
} else {
if (subProcess.isTriggeredByEvent()) {
generator.writeObjectField("id", "EventSubprocess");
} else {
if (haveValidLoopCharacteristics) {
generator.writeObjectField("id", "MultipleInstanceSubprocess");
} else {
generator.writeObjectField("id", "Subprocess");
}
}
}
generator.writeEndObject();
generator.writeArrayFieldStart("childShapes");
Bounds bounds = ((BPMNShape) findDiagramElement(plane, subProcess)).getBounds();
for (FlowElement flowElement : subProcess.getFlowElements()) {
if (coordianteManipulation) {
marshallFlowElement(flowElement, plane, generator, bounds.getX(), bounds.getY(), preProcessingData, def);
} else {
marshallFlowElement(flowElement, plane, generator, 0, 0, preProcessingData, def);
}
}
for (Artifact artifact : subProcess.getArtifacts()) {
if (coordianteManipulation) {
marshallArtifact(artifact, plane, generator, bounds.getX(), bounds.getY(), preProcessingData, def);
} else {
marshallArtifact(artifact, plane, generator, 0, 0, preProcessingData, def);
}
}
generator.writeEndArray();
generator.writeArrayFieldStart("outgoing");
for (BoundaryEvent boundaryEvent : subProcess.getBoundaryEventRefs()) {
generator.writeStartObject();
generator.writeObjectField("resourceId", boundaryEvent.getId());
generator.writeEndObject();
}
for (SequenceFlow outgoing : subProcess.getOutgoing()) {
generator.writeStartObject();
generator.writeObjectField("resourceId", outgoing.getId());
generator.writeEndObject();
}
Process process = (Process) plane.getBpmnElement();
writeAssociations(process, subProcess.getId(), generator);
// subprocess boundary events
List<BoundaryEvent> boundaryEvents = new ArrayList<BoundaryEvent>();
findBoundaryEvents(process, boundaryEvents);
for (BoundaryEvent be : boundaryEvents) {
if (be.getAttachedToRef().getId().equals(subProcess.getId())) {
generator.writeStartObject();
generator.writeObjectField("resourceId", be.getId());
generator.writeEndObject();
}
}
generator.writeEndArray();
generator.writeObjectFieldStart("bounds");
generator.writeObjectFieldStart("lowerRight");
generator.writeObjectField("x", bounds.getX() + bounds.getWidth() - xOffset);
generator.writeObjectField("y", bounds.getY() + bounds.getHeight() - yOffset);
generator.writeEndObject();
generator.writeObjectFieldStart("upperLeft");
generator.writeObjectField("x", bounds.getX() - xOffset);
generator.writeObjectField("y", bounds.getY() - yOffset);
generator.writeEndObject();
generator.writeEndObject();
}
use of org.eclipse.bpmn2.SequenceFlow in project kie-wb-common by kiegroup.
the class SequenceFlowPropertyWriter method setWaypoints.
private void setWaypoints(ViewConnector<? extends BPMNViewDefinition> connector) {
BPMNEdge bpmnEdge = di.createBPMNEdge();
bpmnEdge.setBpmnElement(sequenceFlow);
Point2D sourcePt = connector.getSourceConnection().get().getLocation();
Point2D targetPt = connector.getTargetConnection().get().getLocation();
org.eclipse.dd.dc.Point sourcePoint = dc.createPoint();
sourcePoint.setX(source.getShape().getBounds().getX() + (float) sourcePt.getX());
sourcePoint.setY(source.getShape().getBounds().getY() + (float) sourcePt.getY());
org.eclipse.dd.dc.Point targetPoint = dc.createPoint();
targetPoint.setX(target.getShape().getBounds().getX() + (float) targetPt.getX());
targetPoint.setY(target.getShape().getBounds().getY() + (float) targetPt.getY());
bpmnEdge.getWaypoint().add(sourcePoint);
bpmnEdge.getWaypoint().add(targetPoint);
this.bpmnEdge = bpmnEdge;
}
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