/** Compiles the compilation unit from sources. */ public void compile(int throughPhase) throws CompilationFailedException { // // To support delta compilations, we always restart // the compiler. The individual passes are responsible // for not reprocessing old code. gotoPhase(Phases.INITIALIZATION); throughPhase = Math.min(throughPhase, Phases.ALL); while (throughPhase >= phase && phase <= Phases.ALL) { if (phase == Phases.SEMANTIC_ANALYSIS) { doPhaseOperation(resolve); if (dequeued()) continue; } processPhaseOperations(phase); // Grab processing may have brought in new AST transforms into various phases, process them as // well processNewPhaseOperations(phase); if (progressCallback != null) progressCallback.call(this, phase); completePhase(); applyToSourceUnits(mark); if (dequeued()) continue; gotoPhase(phase + 1); if (phase == Phases.CLASS_GENERATION) { sortClasses(); } } errorCollector.failIfErrors(); }
private int getSuperInterfaceCount(ClassNode element) { int count = 1; ClassNode[] interfaces = element.getInterfaces(); for (ClassNode anInterface : interfaces) { count = Math.max(count, getSuperInterfaceCount(anInterface) + 1); } return count; }
public void call(SourceUnit source, GeneratorContext context, ClassNode classNode) throws CompilationFailedException { optimizer.visitClass( classNode, source); // GROOVY-4272: repositioned it here from staticImport if (!classNode.isSynthetic()) { GenericsVisitor genericsVisitor = new GenericsVisitor(source); genericsVisitor.visitClass(classNode); } // // Run the Verifier on the outer class // try { verifier.visitClass(classNode); } catch (GroovyRuntimeException rpe) { ASTNode node = rpe.getNode(); getErrorCollector() .addError( new SyntaxException( rpe.getMessage(), node.getLineNumber(), node.getColumnNumber(), node.getLastLineNumber(), node.getLastColumnNumber()), source); } LabelVerifier lv = new LabelVerifier(source); lv.visitClass(classNode); ClassCompletionVerifier completionVerifier = new ClassCompletionVerifier(source); completionVerifier.visitClass(classNode); ExtendedVerifier xverifier = new ExtendedVerifier(source); xverifier.visitClass(classNode); // because the class may be generated even if a error was found // and that class may have an invalid format we fail here if needed getErrorCollector().failIfErrors(); // // Prep the generator machinery // ClassVisitor visitor = createClassVisitor(); String sourceName = (source == null ? classNode.getModule().getDescription() : source.getName()); // only show the file name and its extension like javac does in its stacktraces rather // than the full path // also takes care of both \ and / depending on the host compiling environment if (sourceName != null) sourceName = sourceName.substring( Math.max(sourceName.lastIndexOf('\\'), sourceName.lastIndexOf('/')) + 1); AsmClassGenerator generator = new AsmClassGenerator(source, context, visitor, sourceName); // // Run the generation and create the class (if required) // // GRECLIPSE: if there are errors, don't generate code. // code gen can fail unexpectedly if there was an earlier error. if (!source.getErrorCollector().hasErrors()) { // end generator.visitClass(classNode); byte[] bytes = ((ClassWriter) visitor).toByteArray(); /// GRECLIPSE: start: added classNode, sourceUnit /*old{ generatedClasses.add(new GroovyClass(classNode.getName(), bytes)); }*/ // newcode generatedClasses.add(new GroovyClass(classNode.getName(), bytes, classNode, source)); // end // // Handle any callback that's been set // if (CompilationUnit.this.classgenCallback != null) { classgenCallback.call(visitor, classNode); } // // Recurse for inner classes // LinkedList innerClasses = generator.getInnerClasses(); while (!innerClasses.isEmpty()) { classgen.call(source, context, (ClassNode) innerClasses.removeFirst()); } // GRECLIPSE: if there are errors, don't generate code } // end }