public void call(SourceUnit source) throws CompilationFailedException { List<ClassNode> classes = source.ast.getClasses(); for (ClassNode node : classes) { CompileUnit cu = node.getCompileUnit(); for (Iterator iter = cu.iterateClassNodeToCompile(); iter.hasNext(); ) { String name = (String) iter.next(); SourceUnit su = ast.getScriptSourceLocation(name); List<ClassNode> classesInSourceUnit = su.ast.getClasses(); StringBuilder message = new StringBuilder(); message .append("Compilation incomplete: expected to find the class ") .append(name) .append(" in ") .append(su.getName()); if (classesInSourceUnit.isEmpty()) { message.append(", but the file seems not to contain any classes"); } else { message.append(", but the file contains the classes: "); boolean first = true; for (ClassNode cn : classesInSourceUnit) { if (!first) { message.append(", "); } else { first = false; } message.append(cn.getName()); } } getErrorCollector() .addErrorAndContinue(new SimpleMessage(message.toString(), CompilationUnit.this)); iter.remove(); } } }
private void addPrivateFieldAndMethodAccessors(ClassNode node) { addPrivateBridgeMethods(node); addPrivateFieldsAccessors(node); Iterator<InnerClassNode> it = node.getInnerClasses(); while (it.hasNext()) { addPrivateFieldAndMethodAccessors(it.next()); } }
/** * Returns whether a classNode has the specified property or not * * @param classNode The ClassNode * @param propertyName The name of the property * @return True if the property exists in the ClassNode */ public static boolean hasProperty(ClassNode classNode, String propertyName) { if (classNode == null || propertyName == null || "".equals(propertyName.trim())) return false; List properties = classNode.getProperties(); for (Iterator i = properties.iterator(); i.hasNext(); ) { PropertyNode pn = (PropertyNode) i.next(); if (pn.getName().equals(propertyName)) return true; } return false; }
/** * Tests whether the ClassNode implements the specified method name * * @param classNode The ClassNode * @param methodName The method name * @param argTypes * @return True if it implements the method */ private static boolean implementsMethod( ClassNode classNode, String methodName, Class[] argTypes) { List methods = classNode.getMethods(); for (Iterator i = methods.iterator(); i.hasNext(); ) { MethodNode mn = (MethodNode) i.next(); final boolean isZeroArg = (argTypes == null || argTypes.length == 0); boolean methodMatch = mn.getName().equals(methodName) && isZeroArg; if (methodMatch) return true; // TODO Implement further parameter analysis } return false; }
private void injectAssociationProperties(ClassNode classNode, List propertiesToAdd) { for (Iterator i = propertiesToAdd.iterator(); i.hasNext(); ) { PropertyNode pn = (PropertyNode) i.next(); if (! /*GrailsASTUtils.*/hasProperty(classNode, pn.getName())) { // if(LOG.isDebugEnabled()) { // LOG.debug("[GrailsDomainInjector] Adding property [" + pn.getName() + "] to class [" + // classNode.getName() + "]"); // } classNode.addProperty(pn); } } }
private List createPropertiesForHasManyExpression(Expression e, ClassNode classNode) { List properties = new ArrayList(); if (e instanceof MapExpression) { MapExpression me = (MapExpression) e; List mapEntries = me.getMapEntryExpressions(); for (Iterator j = mapEntries.iterator(); j.hasNext(); ) { MapEntryExpression mee = (MapEntryExpression) j.next(); Expression keyExpression = mee.getKeyExpression(); String key = keyExpression.getText(); addAssociationForKey(key, properties, classNode); } } return properties; }
private Collection createPropertiesForBelongsToExpression(Expression e, ClassNode classNode) { List properties = new ArrayList(); if (e instanceof MapExpression) { MapExpression me = (MapExpression) e; List mapEntries = me.getMapEntryExpressions(); for (Iterator i = mapEntries.iterator(); i.hasNext(); ) { MapEntryExpression mme = (MapEntryExpression) i.next(); String key = mme.getKeyExpression().getText(); String type = mme.getValueExpression().getText(); properties.add( new PropertyNode( key, Modifier.PUBLIC, ClassHelper.make(type), classNode, null, null, null)); } } return properties; }
private void injectAssociations(ClassNode classNode) { List properties = classNode.getProperties(); List propertiesToAdd = new ArrayList(); for (Iterator p = properties.iterator(); p.hasNext(); ) { PropertyNode pn = (PropertyNode) p.next(); final boolean isHasManyProperty = pn.getName().equals(/*GrailsDomainClassProperty.*/ RELATES_TO_MANY) || pn.getName().equals(/*GrailsDomainClassProperty.*/ HAS_MANY); if (isHasManyProperty) { Expression e = pn.getInitialExpression(); propertiesToAdd.addAll(createPropertiesForHasManyExpression(e, classNode)); } final boolean isBelongsTo = pn.getName().equals(/*GrailsDomainClassProperty.*/ BELONGS_TO); if (isBelongsTo) { Expression e = pn.getInitialExpression(); propertiesToAdd.addAll(createPropertiesForBelongsToExpression(e, classNode)); } } injectAssociationProperties(classNode, propertiesToAdd); }
@Override public void visitClass(final ClassNode node) { boolean skip = shouldSkipClassNode(node); if (!skip && !anyMethodSkip(node)) { node.putNodeMetaData(MopWriter.Factory.class, StaticCompilationMopWriter.FACTORY); } ClassNode oldCN = classNode; classNode = node; Iterator<InnerClassNode> innerClasses = classNode.getInnerClasses(); while (innerClasses.hasNext()) { InnerClassNode innerClassNode = innerClasses.next(); boolean innerStaticCompile = !(skip || isSkippedInnerClass(innerClassNode)); innerClassNode.putNodeMetaData(STATIC_COMPILE_NODE, innerStaticCompile); innerClassNode.putNodeMetaData( WriterControllerFactory.class, node.getNodeMetaData(WriterControllerFactory.class)); if (innerStaticCompile && !anyMethodSkip(innerClassNode)) { innerClassNode.putNodeMetaData(MopWriter.Factory.class, StaticCompilationMopWriter.FACTORY); } } super.visitClass(node); addPrivateFieldAndMethodAccessors(node); classNode = oldCN; }
/** * A loop driver for applying operations to all primary ClassNodes in our AST. Automatically skips * units that have already been processed through the current phase. */ public void applyToPrimaryClassNodes(PrimaryClassNodeOperation body) throws CompilationFailedException { // GRECLIPSE: start /*old{ Iterator classNodes = getPrimaryClassNodes(body.needSortedInput()).iterator(); }*/ // newcode List primaryClassNodes = getPrimaryClassNodes(body.needSortedInput()); Iterator classNodes = primaryClassNodes.iterator(); // end while (classNodes.hasNext()) { SourceUnit context = null; try { ClassNode classNode = (ClassNode) classNodes.next(); context = classNode.getModule().getContext(); // GRECLIPSE get to the bottom of this - why are operations running multiple times that // should only run once? if (context == null || context.phase < phase || (context.phase == phase && !context.phaseComplete)) { int offset = 1; Iterator<InnerClassNode> iterator = classNode.getInnerClasses(); while (iterator.hasNext()) { iterator.next(); offset++; } body.call(context, new GeneratorContext(this.ast, offset), classNode); } } catch (CompilationFailedException e) { // fall through, getErrorReporter().failIfErrors() will trigger } catch (NullPointerException npe) { throw npe; } catch (GroovyBugError e) { changeBugText(e, context); throw e; } catch (Exception e) { // check the exception for a nested compilation exception ErrorCollector nestedCollector = null; for (Throwable next = e.getCause(); next != e && next != null; next = next.getCause()) { if (!(next instanceof MultipleCompilationErrorsException)) continue; MultipleCompilationErrorsException mcee = (MultipleCompilationErrorsException) next; nestedCollector = mcee.collector; break; } if (nestedCollector != null) { getErrorCollector().addCollectorContents(nestedCollector); } else { getErrorCollector().addError(new ExceptionMessage(e, configuration.getDebug(), this)); } } } getErrorCollector().failIfErrors(); }
private List getPrimaryClassNodes(boolean sort) { if (sort == true) { List<ModuleNode> sortedModules = this.ast.getSortedModules(); if (sortedModules != null) { return sortedModules; } } // FIXASC (groovychange) rewritten /*old{ List unsorted = new ArrayList(); Iterator modules = this.ast.getModules().iterator(); while (modules.hasNext()) { ModuleNode module = (ModuleNode) modules.next(); Iterator classNodes = module.getClasses().iterator(); while (classNodes.hasNext()) { ClassNode classNode = (ClassNode) classNodes.next(); unsorted.add(classNode); } } */ // new List<ClassNode> unsorted = new ArrayList<ClassNode>(); for (ModuleNode module : this.ast.getModules()) { unsorted.addAll(module.getClasses()); } // FIXASC (groovychange) end if (!sort) return unsorted; // GRECLIPSE: start: rewritten sort algorithm /*old{ int[] indexClass = new int[unsorted.size()]; int[] indexInterface = new int[unsorted.size()]; { int i = 0; for (Iterator<ClassNode> iter = unsorted.iterator(); iter.hasNext(); i++) { ClassNode element = iter.next(); if (element.isInterface()) { indexInterface[i] = getSuperInterfaceCount(element); indexClass[i] = -1; } else { indexClass[i] = getSuperClassCount(element); indexInterface[i] = -1; } } } List<ClassNode> sorted = getSorted(indexInterface, unsorted); sorted.addAll(getSorted(indexClass, unsorted)); */ // newcode: // Sort them by how many types are in their hierarchy, but all interfaces first. // Algorithm: // Create a list of integers. Each integer captures the index into the unsorted // list (bottom 16bits) and the count of how many types are in that types // hierarchy (top 16bits). For classes the count is augmented by 2000 so that // when sorting the classes will come out after the interfaces. // This list of integers is sorted. We then just go through it and for the // lower 16bits of each entry (0xffff) that is the index of the next value to // pull from the unsorted list and put into the sorted list. // Will break down if more than 2000 interfaces in the type hierarchy for an // individual type, or a project contains > 65535 files... but if you've got // that kind of setup, you have other problems... List<Integer> countIndexPairs = new ArrayList<Integer>(); { int i = 0; for (Iterator iter = unsorted.iterator(); iter.hasNext(); i++) { ClassNode node = (ClassNode) iter.next(); if (node.isInterface()) { countIndexPairs.add((getSuperInterfaceCount(node) << 16) + i); } else { countIndexPairs.add(((getSuperClassCount(node) + 2000) << 16) + i); } } } Collections.sort(countIndexPairs); List sorted = new ArrayList(); for (int i : countIndexPairs) { sorted.add(unsorted.get(i & 0xffff)); } this.ast.setSortedModules(sorted); // end return sorted; }