@Override public void generate(GenScope scope) { InstructionList il = scope.getInstructionList(); InstructionFactory ifact = scope.getInstructionFactory(); ConstantPoolGen cpg = scope.getConstantPool(); String transformationName = this.getTransformationName(); String entryPointName = this.getEntryPointName(); LocalVariableGen lvg = scope.newLocalVariable(this, Type.OBJECT); // Probably this could be improved, but for the moment a transformation // object will provide a facility to instantiate another transformation // Create the new transformation // [This_Transformation, "TransformationName"] -> instantiateTransformation -> // [Created_Transformation] scope.generateGetTransformation(); il.append(ifact.createConstant(transformationName)); il.append( ifact.createInvoke( DefaultTypes.IdcTransformation.getClassName(), "instantiateTransformation", DefaultTypes.IdcTransformation, new Type[] {Type.STRING}, Constants.INVOKEVIRTUAL)); // There are two cases // // 1. Explicit invocation of a transformation rule if (entryPointName != null) { generateInvokeEntryPoint(scope, il, ifact, transformationName, entryPointName, lvg); } else { generateInvokeTransformation(scope, il, ifact, transformationName, lvg); } }
private void generateInvokeTransformation( GenScope scope, InstructionList il, InstructionFactory ifact, String transformationName, LocalVariableGen lvg) { il.append(InstructionFactory.DUP); il.append(InstructionFactory.DUP); il.append(InstructionFactory.DUP); // Configure the invoked transformation: view filter scope.loadVariable(this.getInputViewFilter(), il); il.append( ifact.createInvoke( DefaultTypes.IdcTransformation.getClassName(), "configure_invocation_", Type.VOID, new Type[] {DefaultTypes.RunnableClosure}, Constants.INVOKEVIRTUAL)); // Configure the transformation il.append(InstructionFactory.DUP); il.append( ifact.createInvoke( DefaultTypes.IdcTransformation.getClassName(), "configure_", Type.VOID, new Type[] {}, Constants.INVOKEVIRTUAL)); // Set parameters for (NamedInvocationParameter p : this.getParameters()) { il.append(InstructionFactory.DUP); il.append(ifact.createConstant(p.getFormalName())); scope.loadVariable(p.getResult(), il); il.append( ifact.createInvoke( DefaultTypes.IdcTransformation.getClassName(), "setParameterValue", Type.VOID, new Type[] {Type.STRING, Type.OBJECT}, Constants.INVOKEVIRTUAL)); } // Start the transformation il.append( ifact.createInvoke( DefaultTypes.IdcTransformation.getClassName(), "start_", Type.VOID, new Type[] {}, Constants.INVOKEVIRTUAL)); // Get a target element from a trace if (this.getOutputResolutionSourceElement() != null) { scope.loadVariable(this.getOutputResolutionSourceElement(), il); il.append(ifact.createConstant(this.getQueueName())); il.append(ifact.createConstant(this.getSrcTraceAttributeName())); il.append(ifact.createConstant(this.getTgtTraceAttributeName())); il.append( ifact.createInvoke( DefaultTypes.IdcTransformation.getClassName(), "retrieve_from_invocation_", Type.OBJECT, new Type[] {Type.OBJECT, Type.STRING, Type.STRING, Type.STRING}, Constants.INVOKEVIRTUAL)); } else { il.append(InstructionFactory.ACONST_NULL); } il.append(new ASTORE(lvg.getIndex())); }
@Override public void generate(GenScope scope) { InstructionList il = scope.getInstructionList(); InstructionFactory ifact = scope.getInstructionFactory(); ConstantPoolGen cpg = scope.getConstantPool(); LocalVariableGen lvg = scope.newLocalVariable(this, Type.OBJECT); // TODO: I'm going to assume that there is an optional kindOf and // and p() predicate. if (this.getPredicates().size() > 2) throw new UnsupportedOperationException("QMatchJVMGen. Only 2 fixed predicates implemented."); KindOfPredicate kindOf = null; PropertyEqualsPredicate prop = null; if (getPredicates().get(0) instanceof KindOfPredicate) { kindOf = (KindOfPredicate) getPredicates().get(0); prop = (PropertyEqualsPredicate) getPredicates().get(1); } else { prop = (PropertyEqualsPredicate) getPredicates().get(0); } // Create the object, then the parameters of the constructor String requestClass = "org.eclectic.idc.jvm.runtime.RequestKindProperty"; il.append(ifact.createNew(requestClass)); il.append(InstructionConstants.DUP); scope.generateGetModelManager(); if (kindOf == null) { il.append(InstructionConstants.ACONST_NULL); } else { ReadMetaJVMGen readMeta = new ReadMetaJVMGen(); readMeta.setClassName(kindOf.getClassName()); readMeta.setModel(kindOf.getModel()); readMeta.setName("_readMeta_for" + getName()); readMeta.setFile(this.getFile()); readMeta.setColumn(this.getColumn()); readMeta.setRow(this.getRow()); readMeta.generate(scope); scope.loadVariable(readMeta, il); } il.append(ifact.createConstant(prop.getPropertyName())); scope.loadVariable(prop.getValue(), il); // In the stack: IdcMetaclass, featureName, value + receptor x 2 il.append( ifact.createInvoke( requestClass, "<init>", Type.VOID, new Type[] { DefaultTypes.ModelManager, DefaultTypes.IdcMetaclass, Type.STRING, Type.OBJECT }, Constants.INVOKESPECIAL)); if (getGetterClosure() != null) { il.append(InstructionConstants.DUP); scope.loadVariable(getGetterClosure(), il); il.append( ifact.createInvoke( requestClass, "setGetterClosure", Type.VOID, new Type[] {DefaultTypes.IClosure}, Constants.INVOKEVIRTUAL)); } // Generate debug info il.append(InstructionConstants.DUP); if (getFile() == null) { il.append(InstructionConstants.ACONST_NULL); } else { il.append(ifact.createConstant(getFile())); } il.append(ifact.createConstant(getRow())); il.append(ifact.createConstant(getColumn())); il.append( ifact.createInvoke( requestClass, "setDebugInfo", Type.VOID, new Type[] {Type.STRING, Type.INT, Type.INT}, Constants.INVOKEVIRTUAL)); // End-of debug info QueueJVMGen jvmQ = (QueueJVMGen) getQueue(); CommonGen.generateGetQueue(scope, jvmQ); il.append(InstructionConstants.SWAP); il.append( ifact.createInvoke( DefaultTypes.ContinuationResolverHelper.getClassName(), "requestAndWait", Type.OBJECT, new Type[] {DefaultTypes.HistoryQueue, DefaultTypes.IRequest}, Constants.INVOKESTATIC)); // il.append(ifact.createInvoke(jvmQ.getClassName(), // "requestAndWait", Type.OBJECT, new Type[] { DefaultTypes.IRequest }, // Constants.INVOKEVIRTUAL)); // il.append(InstructionConstants.DUP); // CommonGen.print(il, ifact); il.append(new ASTORE(lvg.getIndex())); }