public MultiMap<PsiElement, String> findConflicts(Ref<UsageInfo[]> refUsages) { MultiMap<PsiElement, String> conflictDescriptions = new MultiMap<PsiElement, String>(); addMethodConflicts(conflictDescriptions); Set<UsageInfo> usagesSet = new HashSet<UsageInfo>(Arrays.asList(refUsages.get())); RenameUtil.removeConflictUsages(usagesSet); if (myChangeInfo.isVisibilityChanged()) { try { addInaccessibilityDescriptions(usagesSet, conflictDescriptions); } catch (IncorrectOperationException e) { LOG.error(e); } } for (UsageInfo usageInfo : usagesSet) { if (usageInfo instanceof OverriderUsageInfo) { final PsiMethod method = (PsiMethod) usageInfo.getElement(); final PsiMethod baseMethod = ((OverriderUsageInfo) usageInfo).getBaseMethod(); final int delta = baseMethod.getParameterList().getParametersCount() - method.getParameterList().getParametersCount(); if (delta > 0) { final boolean[] toRemove = myChangeInfo.toRemoveParm(); if (toRemove[ toRemove.length - 1]) { // todo check if implicit parameter is not the last one conflictDescriptions.putValue( baseMethod, "Implicit last parameter should not be deleted"); } } } } return conflictDescriptions; }
private boolean needToCatchExceptions(PsiMethod caller) { if (myChangeInfo instanceof JavaChangeInfo) { return myChangeInfo.isExceptionSetOrOrderChanged() && !((JavaChangeInfo) myChangeInfo).getMethodsToPropagateParameters().contains(caller); } else { return myChangeInfo.isExceptionSetOrOrderChanged(); } }
private static void generateDelegate(JavaChangeInfo changeInfo) throws IncorrectOperationException { final PsiMethod delegate = (PsiMethod) changeInfo.getMethod().copy(); final PsiClass targetClass = changeInfo.getMethod().getContainingClass(); LOG.assertTrue(!targetClass.isInterface()); PsiElementFactory factory = JavaPsiFacade.getElementFactory(targetClass.getProject()); ChangeSignatureProcessor.makeEmptyBody(factory, delegate); final PsiCallExpression callExpression = ChangeSignatureProcessor.addDelegatingCallTemplate(delegate, changeInfo.getNewName()); addDelegateArguments(changeInfo, factory, callExpression); targetClass.addBefore(delegate, changeInfo.getMethod()); }
private static PsiClassType[] getPrimaryChangedExceptionInfo(JavaChangeInfo changeInfo) throws IncorrectOperationException { final ThrownExceptionInfo[] newExceptionInfos = changeInfo.getNewExceptions(); PsiClassType[] newExceptions = new PsiClassType[newExceptionInfos.length]; final PsiMethod method = changeInfo.getMethod(); for (int i = 0; i < newExceptions.length; i++) { newExceptions[i] = (PsiClassType) newExceptionInfos[i].createType( method, method.getManager()); // context really does not matter here } return newExceptions; }
private static void processCallerMethod( JavaChangeInfo changeInfo, PsiMethod caller, PsiMethod baseMethod, boolean toInsertParams, boolean toInsertThrows) throws IncorrectOperationException { LOG.assertTrue(toInsertParams || toInsertThrows); if (toInsertParams) { List<PsiParameter> newParameters = new ArrayList<PsiParameter>(); ContainerUtil.addAll(newParameters, caller.getParameterList().getParameters()); final JavaParameterInfo[] primaryNewParms = changeInfo.getNewParameters(); PsiSubstitutor substitutor = baseMethod == null ? PsiSubstitutor.EMPTY : ChangeSignatureProcessor.calculateSubstitutor(caller, baseMethod); for (JavaParameterInfo info : primaryNewParms) { if (info.getOldIndex() < 0) newParameters.add(createNewParameter(changeInfo, info, substitutor)); } PsiParameter[] arrayed = newParameters.toArray(new PsiParameter[newParameters.size()]); boolean[] toRemoveParm = new boolean[arrayed.length]; Arrays.fill(toRemoveParm, false); resolveParameterVsFieldsConflicts(arrayed, caller, caller.getParameterList(), toRemoveParm); } if (toInsertThrows) { List<PsiJavaCodeReferenceElement> newThrowns = new ArrayList<PsiJavaCodeReferenceElement>(); final PsiReferenceList throwsList = caller.getThrowsList(); ContainerUtil.addAll(newThrowns, throwsList.getReferenceElements()); final ThrownExceptionInfo[] primaryNewExns = changeInfo.getNewExceptions(); for (ThrownExceptionInfo thrownExceptionInfo : primaryNewExns) { if (thrownExceptionInfo.getOldIndex() < 0) { final PsiClassType type = (PsiClassType) thrownExceptionInfo.createType(caller, caller.getManager()); final PsiJavaCodeReferenceElement ref = JavaPsiFacade.getInstance(caller.getProject()) .getElementFactory() .createReferenceElementByType(type); newThrowns.add(ref); } } PsiJavaCodeReferenceElement[] arrayed = newThrowns.toArray(new PsiJavaCodeReferenceElement[newThrowns.size()]); boolean[] toRemoveParm = new boolean[arrayed.length]; Arrays.fill(toRemoveParm, false); ChangeSignatureUtil.synchronizeList( throwsList, Arrays.asList(arrayed), ThrowsList.INSTANCE, toRemoveParm); } }
private static void processMethodUsage( PsiElement ref, JavaChangeInfo changeInfo, boolean toChangeArguments, boolean toCatchExceptions, PsiMethod callee, PsiSubstitutor subsitutor, final UsageInfo[] usages) throws IncorrectOperationException { if (changeInfo.isNameChanged()) { if (ref instanceof PsiJavaCodeReferenceElement) { PsiElement last = ((PsiJavaCodeReferenceElement) ref).getReferenceNameElement(); if (last instanceof PsiIdentifier && last.getText().equals(changeInfo.getOldName())) { last.replace(changeInfo.getNewNameIdentifier()); } } } final PsiMethod caller = RefactoringUtil.getEnclosingMethod(ref); if (toChangeArguments) { final PsiExpressionList list = RefactoringUtil.getArgumentListByMethodReference(ref); LOG.assertTrue(list != null); boolean toInsertDefaultValue = needDefaultValue(changeInfo, caller); if (toInsertDefaultValue && ref instanceof PsiReferenceExpression) { final PsiExpression qualifierExpression = ((PsiReferenceExpression) ref).getQualifierExpression(); if (qualifierExpression instanceof PsiSuperExpression && callerSignatureIsAboutToChangeToo(caller, usages)) { toInsertDefaultValue = false; } } fixActualArgumentsList(list, changeInfo, toInsertDefaultValue, subsitutor); } if (toCatchExceptions) { if (!(ref instanceof PsiReferenceExpression && ((PsiReferenceExpression) ref).getQualifierExpression() instanceof PsiSuperExpression)) { if (needToCatchExceptions(changeInfo, caller)) { PsiClassType[] newExceptions = callee != null ? getCalleeChangedExceptionInfo(callee) : getPrimaryChangedExceptionInfo(changeInfo); fixExceptions(ref, newExceptions); } } } }
private static void addDefaultConstructor( JavaChangeInfo changeInfo, PsiClass aClass, final UsageInfo[] usages) throws IncorrectOperationException { if (!(aClass instanceof PsiAnonymousClass)) { PsiElementFactory factory = JavaPsiFacade.getElementFactory(aClass.getProject()); PsiMethod defaultConstructor = factory.createMethodFromText(aClass.getName() + "(){}", aClass); defaultConstructor = (PsiMethod) CodeStyleManager.getInstance(aClass.getProject()).reformat(defaultConstructor); defaultConstructor = (PsiMethod) aClass.add(defaultConstructor); PsiUtil.setModifierProperty( defaultConstructor, VisibilityUtil.getVisibilityModifier(aClass.getModifierList()), true); addSuperCall(changeInfo, defaultConstructor, null, usages); } else { final PsiElement parent = aClass.getParent(); if (parent instanceof PsiNewExpression) { final PsiExpressionList argumentList = ((PsiNewExpression) parent).getArgumentList(); final PsiClass baseClass = changeInfo.getMethod().getContainingClass(); final PsiSubstitutor substitutor = TypeConversionUtil.getSuperClassSubstitutor(baseClass, aClass, PsiSubstitutor.EMPTY); fixActualArgumentsList(argumentList, changeInfo, true, substitutor); } } }
private void findUsagesInCallers(final ArrayList<UsageInfo> usages) { if (myChangeInfo instanceof JavaChangeInfo) { JavaChangeInfo changeInfo = (JavaChangeInfo) myChangeInfo; Set<PsiMethod> merged = new HashSet<PsiMethod>(); merged.addAll(changeInfo.getMethodsToPropagateParameters()); for (final PsiMethod method : merged) { findSimpleUsagesWithoutParameters( method, usages, changeInfo.getMethodsToPropagateParameters().contains(method), false, false); } } }
private static void fixJavadocsForChangedMethod( PsiMethod method, JavaChangeInfo changeInfo, int newParamsLength) throws IncorrectOperationException { final PsiParameter[] parameters = method.getParameterList().getParameters(); final JavaParameterInfo[] newParms = changeInfo.getNewParameters(); LOG.assertTrue(parameters.length <= newParamsLength); final Set<PsiParameter> newParameters = new HashSet<PsiParameter>(); final String[] oldParameterNames = changeInfo.getOldParameterNames(); for (int i = 0; i < newParamsLength; i++) { JavaParameterInfo newParm = newParms[i]; if (newParm.getOldIndex() < 0 || !newParm.getName().equals(oldParameterNames[newParm.getOldIndex()])) { newParameters.add(parameters[i]); } } RefactoringUtil.fixJavadocsForParams(method, newParameters); }
private static PsiParameter createNewParameter( JavaChangeInfo changeInfo, JavaParameterInfo newParm, PsiSubstitutor substitutor) throws IncorrectOperationException { final PsiParameterList list = changeInfo.getMethod().getParameterList(); final PsiElementFactory factory = JavaPsiFacade.getInstance(list.getProject()).getElementFactory(); final PsiType type = substitutor.substitute(newParm.createType(list, list.getManager())); return factory.createParameter(newParm.getName(), type); }
private static void addDelegateArguments( JavaChangeInfo changeInfo, PsiElementFactory factory, final PsiCallExpression callExpression) throws IncorrectOperationException { final JavaParameterInfo[] newParms = changeInfo.getNewParameters(); final String[] oldParameterNames = changeInfo.getOldParameterNames(); for (int i = 0; i < newParms.length; i++) { JavaParameterInfo newParm = newParms[i]; final PsiExpression actualArg; if (newParm.getOldIndex() >= 0) { actualArg = factory.createExpressionFromText( oldParameterNames[newParm.getOldIndex()], callExpression); } else { actualArg = changeInfo.getValue(i, callExpression); } JavaCodeStyleManager.getInstance(callExpression.getProject()) .shortenClassReferences(callExpression.getArgumentList().add(actualArg)); } }
private static void processConstructor(GrMethod constructor, JavaChangeInfo changeInfo) { final PsiClass containingClass = constructor.getContainingClass(); final PsiClass baseClass = changeInfo.getMethod().getContainingClass(); final PsiSubstitutor substitutor = TypeConversionUtil.getSuperClassSubstitutor( baseClass, containingClass, PsiSubstitutor.EMPTY); GrOpenBlock block = constructor.getBlock(); GrConstructorInvocation invocation = GroovyPsiElementFactory.getInstance(constructor.getProject()) .createConstructorInvocation("super()"); invocation = (GrConstructorInvocation) block.addStatementBefore(invocation, getFirstStatement(block)); processMethodUsage( invocation.getInvokedExpression(), changeInfo, changeInfo.isParameterSetOrOrderChanged() || changeInfo.isParameterNamesChanged(), changeInfo.isExceptionSetChanged(), GrClosureSignatureUtil.ArgInfo.<PsiElement>empty_array(), substitutor); }
public UsageInfo[] findUsages() { ArrayList<UsageInfo> result = new ArrayList<UsageInfo>(); final PsiElement element = myChangeInfo.getMethod(); if (element instanceof PsiMethod) { final PsiMethod method = (PsiMethod) element; findSimpleUsages(method, result); final UsageInfo[] usageInfos = result.toArray(new UsageInfo[result.size()]); return UsageViewUtil.removeDuplicatedUsages(usageInfos); } return UsageInfo.EMPTY_ARRAY; }
private void addMethodConflicts(MultiMap<PsiElement, String> conflicts) { String newMethodName = myChangeInfo.getNewName(); if (!(myChangeInfo instanceof JavaChangeInfo)) { return; } try { PsiMethod prototype; final PsiMethod method = myChangeInfo.getMethod(); if (!StdLanguages.JAVA.equals(method.getLanguage())) return; PsiManager manager = method.getManager(); PsiElementFactory factory = JavaPsiFacade.getInstance(manager.getProject()).getElementFactory(); final CanonicalTypes.Type returnType = myChangeInfo.getNewReturnType(); if (returnType != null) { prototype = factory.createMethod(newMethodName, returnType.getType(method, manager)); } else { prototype = factory.createConstructor(); prototype.setName(newMethodName); } JavaParameterInfo[] parameters = myChangeInfo.getNewParameters(); for (JavaParameterInfo info : parameters) { PsiType parameterType = info.createType(method, manager); if (parameterType == null) { parameterType = JavaPsiFacade.getElementFactory(method.getProject()) .createTypeFromText(CommonClassNames.JAVA_LANG_OBJECT, method); } PsiParameter param = factory.createParameter(info.getName(), parameterType); prototype.getParameterList().add(param); } ConflictsUtil.checkMethodConflicts( method.getContainingClass(), method, prototype, conflicts); } catch (IncorrectOperationException e) { LOG.error(e); } }
private void findParametersUsage( final PsiMethod method, ArrayList<UsageInfo> result, PsiMethod[] overriders) { if (JavaLanguage.INSTANCE.equals(myChangeInfo.getLanguage())) { PsiParameter[] parameters = method.getParameterList().getParameters(); for (ParameterInfo info : myChangeInfo.getNewParameters()) { if (info.getOldIndex() >= 0) { PsiParameter parameter = parameters[info.getOldIndex()]; if (!info.getName().equals(parameter.getName())) { addParameterUsages(parameter, result, info); for (PsiMethod overrider : overriders) { PsiParameter parameter1 = overrider.getParameterList().getParameters()[info.getOldIndex()]; if (parameter1 != null && Comparing.strEqual(parameter.getName(), parameter1.getName())) { addParameterUsages(parameter1, result, info); } } } } } } }
private void addInaccessibilityDescriptions( Set<UsageInfo> usages, MultiMap<PsiElement, String> conflictDescriptions) throws IncorrectOperationException { PsiMethod method = myChangeInfo.getMethod(); PsiModifierList modifierList = (PsiModifierList) method.getModifierList().copy(); VisibilityUtil.setVisibility(modifierList, myChangeInfo.getNewVisibility()); for (Iterator<UsageInfo> iterator = usages.iterator(); iterator.hasNext(); ) { UsageInfo usageInfo = iterator.next(); PsiElement element = usageInfo.getElement(); if (element != null) { if (element instanceof PsiQualifiedReference) { PsiClass accessObjectClass = null; PsiElement qualifier = ((PsiQualifiedReference) element).getQualifier(); if (qualifier instanceof PsiExpression) { accessObjectClass = (PsiClass) PsiUtil.getAccessObjectClass((PsiExpression) qualifier).getElement(); } if (!JavaPsiFacade.getInstance(element.getProject()) .getResolveHelper() .isAccessible(method, modifierList, element, accessObjectClass, null)) { String message = RefactoringBundle.message( "0.with.1.visibility.is.not.accessible.from.2", RefactoringUIUtil.getDescription(method, true), myChangeInfo.getNewVisibility(), RefactoringUIUtil.getDescription(ConflictsUtil.getContainer(element), true)); conflictDescriptions.putValue(method, message); if (!needToChangeCalls()) { iterator.remove(); } } } } } }
private static void addSuperCall( JavaChangeInfo changeInfo, PsiMethod constructor, PsiMethod callee, final UsageInfo[] usages) throws IncorrectOperationException { final PsiElementFactory factory = JavaPsiFacade.getElementFactory(constructor.getProject()); PsiExpressionStatement superCall = (PsiExpressionStatement) factory.createStatementFromText("super();", constructor); PsiCodeBlock body = constructor.getBody(); assert body != null; PsiStatement[] statements = body.getStatements(); if (statements.length > 0) { superCall = (PsiExpressionStatement) body.addBefore(superCall, statements[0]); } else { superCall = (PsiExpressionStatement) body.add(superCall); } PsiMethodCallExpression callExpression = (PsiMethodCallExpression) superCall.getExpression(); final PsiClass aClass = constructor.getContainingClass(); final PsiClass baseClass = changeInfo.getMethod().getContainingClass(); final PsiSubstitutor substitutor = TypeConversionUtil.getSuperClassSubstitutor(baseClass, aClass, PsiSubstitutor.EMPTY); processMethodUsage( callExpression.getMethodExpression(), changeInfo, true, false, callee, substitutor, usages); }
private static boolean needToCatchExceptions(JavaChangeInfo changeInfo, PsiMethod caller) { return changeInfo.isExceptionSetOrOrderChanged() && !(changeInfo instanceof JavaChangeInfoImpl && ((JavaChangeInfoImpl) changeInfo).propagateExceptionsMethods.contains(caller)); }
private static boolean processPrimaryMethodInner( JavaChangeInfo changeInfo, GrMethod method, @Nullable PsiMethod baseMethod) { if (changeInfo.isNameChanged()) { String newName = baseMethod == null ? changeInfo.getNewName() : RefactoringUtil.suggestNewOverriderName( method.getName(), baseMethod.getName(), changeInfo.getNewName()); if (newName != null && !newName.equals(method.getName())) { method.setName(changeInfo.getNewName()); } } final GrModifierList modifierList = method.getModifierList(); if (changeInfo.isVisibilityChanged()) { modifierList.setModifierProperty(changeInfo.getNewVisibility(), true); } PsiSubstitutor substitutor = baseMethod != null ? calculateSubstitutor(method, baseMethod) : PsiSubstitutor.EMPTY; final PsiMethod context = changeInfo.getMethod(); GrTypeElement oldReturnTypeElement = method.getReturnTypeElementGroovy(); if (changeInfo.isReturnTypeChanged()) { CanonicalTypes.Type newReturnType = changeInfo.getNewReturnType(); if (newReturnType == null) { if (oldReturnTypeElement != null) { oldReturnTypeElement.delete(); if (modifierList.getModifiers().length == 0) { modifierList.setModifierProperty(GrModifier.DEF, true); } } } else { PsiType type = newReturnType.getType(context, method.getManager()); GrReferenceAdjuster.shortenAllReferencesIn( method.setReturnType(substitutor.substitute(type))); if (oldReturnTypeElement == null) { modifierList.setModifierProperty(GrModifier.DEF, false); } } } JavaParameterInfo[] newParameters = changeInfo.getNewParameters(); final GrParameterList parameterList = method.getParameterList(); GrParameter[] oldParameters = parameterList.getParameters(); final PsiParameter[] oldBaseParams = baseMethod != null ? baseMethod.getParameterList().getParameters() : null; Set<GrParameter> toRemove = new HashSet<GrParameter>(oldParameters.length); ContainerUtil.addAll(toRemove, oldParameters); GrParameter anchor = null; final GrDocComment docComment = method.getDocComment(); final GrDocTag[] tags = docComment == null ? null : docComment.getTags(); for (JavaParameterInfo newParameter : newParameters) { // if old parameter name differs from base method parameter name we don't change it final String newName; final int oldIndex = newParameter.getOldIndex(); if (oldIndex >= 0 && oldBaseParams != null) { final String oldName = oldParameters[oldIndex].getName(); if (oldName.equals(oldBaseParams[oldIndex].getName())) { newName = newParameter.getName(); } else { newName = oldName; } } else { newName = newParameter.getName(); } final GrParameter oldParameter = oldIndex >= 0 ? oldParameters[oldIndex] : null; if (docComment != null && oldParameter != null) { final String oldName = oldParameter.getName(); for (GrDocTag tag : tags) { if ("@param".equals(tag.getName())) { final GrDocParameterReference parameterReference = tag.getDocParameterReference(); if (parameterReference != null && oldName.equals(parameterReference.getText())) { parameterReference.handleElementRename(newName); } } } } GrParameter grParameter = createNewParameter(substitutor, context, parameterList, newParameter, newName); if (oldParameter != null) { grParameter.getModifierList().replace(oldParameter.getModifierList()); } if ("def".equals(newParameter.getTypeText())) { grParameter.getModifierList().setModifierProperty(GrModifier.DEF, true); } else if (StringUtil.isEmpty(newParameter.getTypeText())) { grParameter.getModifierList().setModifierProperty(GrModifier.DEF, false); } anchor = (GrParameter) parameterList.addAfter(grParameter, anchor); } for (GrParameter oldParameter : toRemove) { oldParameter.delete(); } JavaCodeStyleManager.getInstance(parameterList.getProject()) .shortenClassReferences(parameterList); CodeStyleManager.getInstance(parameterList.getProject()).reformat(parameterList); if (changeInfo.isExceptionSetOrOrderChanged()) { final ThrownExceptionInfo[] infos = changeInfo.getNewExceptions(); PsiClassType[] exceptionTypes = new PsiClassType[infos.length]; for (int i = 0; i < infos.length; i++) { ThrownExceptionInfo info = infos[i]; exceptionTypes[i] = (PsiClassType) info.createType(method, method.getManager()); } PsiReferenceList thrownList = GroovyPsiElementFactory.getInstance(method.getProject()).createThrownList(exceptionTypes); thrownList = (PsiReferenceList) method.getThrowsList().replace(thrownList); JavaCodeStyleManager.getInstance(thrownList.getProject()).shortenClassReferences(thrownList); CodeStyleManager.getInstance(method.getProject()).reformat(method.getThrowsList()); } return true; }
@Nullable private static GrExpression createDefaultValue( GroovyPsiElementFactory factory, JavaChangeInfo changeInfo, JavaParameterInfo info, final GrArgumentList list) { if (info.isUseAnySingleVariable()) { final PsiResolveHelper resolveHelper = JavaPsiFacade.getInstance(list.getProject()).getResolveHelper(); final PsiType type = info.getTypeWrapper().getType(changeInfo.getMethod(), list.getManager()); final VariablesProcessor processor = new VariablesProcessor(false) { @Override protected boolean check(PsiVariable var, ResolveState state) { if (var instanceof PsiField && !resolveHelper.isAccessible((PsiField) var, list, null)) return false; if (var instanceof GrVariable && PsiUtil.isLocalVariable(var) && list.getTextRange().getStartOffset() <= var.getTextRange().getStartOffset()) { return false; } if (PsiTreeUtil.isAncestor(var, list, false)) return false; final PsiType _type = var instanceof GrVariable ? ((GrVariable) var).getTypeGroovy() : var.getType(); final PsiType varType = state.get(PsiSubstitutor.KEY).substitute(_type); return type.isAssignableFrom(varType); } @Override public boolean execute(@NotNull PsiElement pe, @NotNull ResolveState state) { super.execute(pe, state); return size() < 2; } }; ResolveUtil.treeWalkUp(list, processor, false); if (processor.size() == 1) { final PsiVariable result = processor.getResult(0); return factory.createExpressionFromText(result.getName(), list); } if (processor.size() == 0) { final PsiClass parentClass = PsiTreeUtil.getParentOfType(list, PsiClass.class); if (parentClass != null) { PsiClass containingClass = parentClass; final Set<PsiClass> containingClasses = new HashSet<PsiClass>(); final PsiElementFactory jfactory = JavaPsiFacade.getElementFactory(list.getProject()); while (containingClass != null) { if (type.isAssignableFrom(jfactory.createType(containingClass, PsiSubstitutor.EMPTY))) { containingClasses.add(containingClass); } containingClass = PsiTreeUtil.getParentOfType(containingClass, PsiClass.class); } if (containingClasses.size() == 1) { return factory.createThisExpression( containingClasses.contains(parentClass) ? null : containingClasses.iterator().next()); } } } } final String value = info.getDefaultValue(); return !StringUtil.isEmpty(value) ? factory.createExpressionFromText(value, list) : null; }
private static void processMethodUsage( PsiElement element, JavaChangeInfo changeInfo, boolean toChangeArguments, boolean toCatchExceptions, GrClosureSignatureUtil.ArgInfo<PsiElement>[] map, PsiSubstitutor substitutor) { if (map == null) return; if (changeInfo.isNameChanged()) { if (element instanceof GrReferenceElement) { element = ((GrReferenceElement) element).handleElementRename(changeInfo.getNewName()); } } if (toChangeArguments) { JavaParameterInfo[] parameters = changeInfo.getNewParameters(); GrArgumentList argumentList = PsiUtil.getArgumentsList(element); GroovyPsiElementFactory factory = GroovyPsiElementFactory.getInstance(element.getProject()); if (argumentList == null) { if (element instanceof GrEnumConstant) { argumentList = factory.createArgumentList(); argumentList = (GrArgumentList) element.add(argumentList); } else { return; } } Set<PsiElement> argsToDelete = new HashSet<PsiElement>(map.length * 2); for (GrClosureSignatureUtil.ArgInfo<PsiElement> argInfo : map) { argsToDelete.addAll(argInfo.args); } for (JavaParameterInfo parameter : parameters) { int index = parameter.getOldIndex(); if (index >= 0) { argsToDelete.removeAll(map[index].args); } } for (PsiElement arg : argsToDelete) { arg.delete(); } boolean skipOptionals = false; PsiElement anchor = null; // PsiTreeUtil.getChildOfAnyType(argumentList, GrExpression.class, // GrNamedArgument.class); for (int i = 0; i < parameters.length; i++) { JavaParameterInfo parameter = parameters[i]; int index = parameter.getOldIndex(); if (index >= 0) { GrClosureSignatureUtil.ArgInfo<PsiElement> argInfo = map[index]; List<PsiElement> arguments = argInfo.args; if (argInfo.isMultiArg) { // arguments for Map and varArg if ((i != 0 || !(!arguments.isEmpty() && arguments.iterator().next() instanceof GrNamedArgument)) && (i != parameters.length - 1 || !parameter.isVarargType())) { final PsiType type = parameter.createType( changeInfo.getMethod().getParameterList(), argumentList.getManager()); final GrExpression arg = GroovyRefactoringUtil.generateArgFromMultiArg( substitutor, arguments, type, element.getProject()); for (PsiElement argument : arguments) { argument.delete(); } anchor = argumentList.addAfter(arg, anchor); JavaCodeStyleManager.getInstance(anchor.getProject()).shortenClassReferences(anchor); } } else { // arguments for simple parameters if (arguments.size() == 1) { // arg exists PsiElement arg = arguments.iterator().next(); if (i == parameters.length - 1 && parameter.isVarargType()) { if (arg instanceof GrSafeCastExpression) { PsiElement expr = ((GrSafeCastExpression) arg).getOperand(); if (expr instanceof GrListOrMap && !((GrListOrMap) expr).isMap()) { final PsiElement copy = expr.copy(); PsiElement[] newVarargs = ((GrListOrMap) copy).getInitializers(); for (PsiElement vararg : newVarargs) { anchor = argumentList.addAfter(vararg, anchor); } arg.delete(); continue; } } } PsiElement curArg = getNextOfType(argumentList, anchor, GrExpression.class); if (curArg == arg) { anchor = arg; } else { final PsiElement copy = arg.copy(); anchor = argumentList.addAfter(copy, anchor); arg.delete(); } } else { // arg is skipped. Parameter is optional skipOptionals = true; } } } else { if (skipOptionals && isParameterOptional(parameter)) continue; if (forceOptional(parameter)) { skipOptionals = true; continue; } try { GrExpression value = createDefaultValue(factory, changeInfo, parameter, argumentList); if (i > 0 && (value == null || anchor == null)) { PsiElement comma = Factory.createSingleLeafElement( GroovyTokenTypes.mCOMMA, ",", 0, 1, SharedImplUtil.findCharTableByTree(argumentList.getNode()), argumentList.getManager()) .getPsi(); if (anchor == null) anchor = argumentList.getLeftParen(); anchor = argumentList.addAfter(comma, anchor); } if (value != null) { anchor = argumentList.addAfter(value, anchor); } } catch (IncorrectOperationException e) { LOG.error(e.getMessage()); } } } GrCall call = GroovyRefactoringUtil.getCallExpressionByMethodReference(element); if (argumentList.getText().trim().isEmpty() && (call == null || !PsiImplUtil.hasClosureArguments(call))) { argumentList = argumentList.replaceWithArgumentList(factory.createArgumentList()); } CodeStyleManager.getInstance(argumentList.getProject()).reformat(argumentList); } if (toCatchExceptions) { final ThrownExceptionInfo[] exceptionInfos = changeInfo.getNewExceptions(); PsiClassType[] exceptions = getExceptions(exceptionInfos, element, element.getManager()); fixExceptions(element, exceptions); } }
private void detectLocalsCollisionsInMethod( final PsiMethod method, final ArrayList<UsageInfo> result, boolean isOriginal) { if (!JavaLanguage.INSTANCE.equals(method.getLanguage())) return; final PsiParameter[] parameters = method.getParameterList().getParameters(); final Set<PsiParameter> deletedOrRenamedParameters = new HashSet<PsiParameter>(); if (isOriginal) { ContainerUtil.addAll(deletedOrRenamedParameters, parameters); for (ParameterInfo parameterInfo : myChangeInfo.getNewParameters()) { if (parameterInfo.getOldIndex() >= 0 && parameterInfo.getOldIndex() < parameters.length) { final PsiParameter parameter = parameters[parameterInfo.getOldIndex()]; if (parameterInfo.getName().equals(parameter.getName())) { deletedOrRenamedParameters.remove(parameter); } } } } for (ParameterInfo parameterInfo : myChangeInfo.getNewParameters()) { final int oldParameterIndex = parameterInfo.getOldIndex(); final String newName = parameterInfo.getName(); if (oldParameterIndex >= 0) { if (isOriginal && oldParameterIndex < parameters.length && !newName.equals(myChangeInfo.getOldParameterNames()[oldParameterIndex])) { // Name changes take place only in primary method when name was actually changed final PsiParameter parameter = parameters[oldParameterIndex]; if (!newName.equals(parameter.getName())) { JavaUnresolvableLocalCollisionDetector.visitLocalsCollisions( parameter, newName, method.getBody(), null, new JavaUnresolvableLocalCollisionDetector.CollidingVariableVisitor() { public void visitCollidingElement(final PsiVariable collidingVariable) { if (!deletedOrRenamedParameters.contains(collidingVariable)) { result.add( new RenamedParameterCollidesWithLocalUsageInfo( parameter, collidingVariable, method)); } } }); } } } else { JavaUnresolvableLocalCollisionDetector.visitLocalsCollisions( method, newName, method.getBody(), null, new JavaUnresolvableLocalCollisionDetector.CollidingVariableVisitor() { public void visitCollidingElement(PsiVariable collidingVariable) { if (!deletedOrRenamedParameters.contains(collidingVariable)) { result.add( new NewParameterCollidesWithLocalUsageInfo( collidingVariable, collidingVariable, method)); } } }); } } }
private PsiMethod[] findSimpleUsagesWithoutParameters( final PsiMethod method, final ArrayList<UsageInfo> result, boolean isToModifyArgs, boolean isToThrowExceptions, boolean isOriginal) { GlobalSearchScope projectScope = GlobalSearchScope.projectScope(method.getProject()); PsiMethod[] overridingMethods = OverridingMethodsSearch.search(method, true).toArray(PsiMethod.EMPTY_ARRAY); for (PsiMethod overridingMethod : overridingMethods) { result.add( new OverriderUsageInfo( overridingMethod, method, isOriginal, isToModifyArgs, isToThrowExceptions)); } boolean needToChangeCalls = !myChangeInfo.isGenerateDelegate() && (myChangeInfo.isNameChanged() || myChangeInfo.isParameterSetOrOrderChanged() || myChangeInfo.isExceptionSetOrOrderChanged() || myChangeInfo.isVisibilityChanged() /*for checking inaccessible*/); if (needToChangeCalls) { int parameterCount = method.getParameterList().getParametersCount(); PsiReference[] refs = MethodReferencesSearch.search(method, projectScope, true) .toArray(PsiReference.EMPTY_ARRAY); for (PsiReference ref : refs) { PsiElement element = ref.getElement(); boolean isToCatchExceptions = isToThrowExceptions && needToCatchExceptions(RefactoringUtil.getEnclosingMethod(element)); if (!isToCatchExceptions) { if (RefactoringUtil.isMethodUsage(element)) { PsiExpressionList list = RefactoringUtil.getArgumentListByMethodReference(element); if (list == null || !method.isVarArgs() && list.getExpressions().length != parameterCount) continue; } } if (RefactoringUtil.isMethodUsage(element)) { result.add(new MethodCallUsageInfo(element, isToModifyArgs, isToCatchExceptions)); } else if (element instanceof PsiDocTagValue) { result.add(new UsageInfo(element)); } else if (element instanceof PsiMethod && ((PsiMethod) element).isConstructor()) { if (JavaLanguage.INSTANCE.equals(element.getLanguage())) { DefaultConstructorImplicitUsageInfo implicitUsageInfo = new DefaultConstructorImplicitUsageInfo( (PsiMethod) element, ((PsiMethod) element).getContainingClass(), method); result.add(implicitUsageInfo); } } else if (element instanceof PsiClass) { LOG.assertTrue(method.isConstructor()); final PsiClass psiClass = (PsiClass) element; if (JavaLanguage.INSTANCE.equals(psiClass.getLanguage())) { if (myChangeInfo instanceof JavaChangeInfo) { if (shouldPropagateToNonPhysicalMethod( method, result, psiClass, ((JavaChangeInfo) myChangeInfo).getMethodsToPropagateParameters())) { continue; } } result.add(new NoConstructorClassUsageInfo(psiClass)); } } else if (ref instanceof PsiCallReference) { result.add(new CallReferenceUsageInfo((PsiCallReference) ref)); } else { result.add(new MoveRenameUsageInfo(element, ref, method)); } } // if (method.isConstructor() && parameterCount == 0) { // RefactoringUtil.visitImplicitConstructorUsages(method.getContainingClass(), // new // DefaultConstructorUsageCollector(result)); // } } else if (myChangeInfo.isParameterTypesChanged()) { PsiReference[] refs = MethodReferencesSearch.search(method, projectScope, true) .toArray(PsiReference.EMPTY_ARRAY); for (PsiReference reference : refs) { final PsiElement element = reference.getElement(); if (element instanceof PsiDocTagValue) { result.add(new UsageInfo(reference)); } else if (element instanceof XmlElement) { result.add(new MoveRenameUsageInfo(reference, method)); } else if (element instanceof PsiMethodReferenceExpression) { result.add(new UsageInfo(reference)); } } } // Conflicts detectLocalsCollisionsInMethod(method, result, isOriginal); for (final PsiMethod overridingMethod : overridingMethods) { detectLocalsCollisionsInMethod(overridingMethod, result, isOriginal); } return overridingMethods; }
private static void processPrimaryMethod( JavaChangeInfo changeInfo, PsiMethod method, PsiMethod baseMethod, boolean isOriginal) throws IncorrectOperationException { PsiElementFactory factory = JavaPsiFacade.getInstance(method.getProject()).getElementFactory(); if (changeInfo.isVisibilityChanged()) { PsiModifierList modifierList = method.getModifierList(); final String highestVisibility = isOriginal ? changeInfo.getNewVisibility() : VisibilityUtil.getHighestVisibility( changeInfo.getNewVisibility(), VisibilityUtil.getVisibilityModifier(modifierList)); VisibilityUtil.setVisibility(modifierList, highestVisibility); } if (changeInfo.isNameChanged()) { String newName = baseMethod == null ? changeInfo.getNewName() : RefactoringUtil.suggestNewOverriderName( method.getName(), baseMethod.getName(), changeInfo.getNewName()); if (newName != null && !newName.equals(method.getName())) { final PsiIdentifier nameId = method.getNameIdentifier(); assert nameId != null; nameId.replace( JavaPsiFacade.getInstance(method.getProject()) .getElementFactory() .createIdentifier(newName)); } } final PsiSubstitutor substitutor = baseMethod == null ? PsiSubstitutor.EMPTY : ChangeSignatureProcessor.calculateSubstitutor(method, baseMethod); if (changeInfo.isReturnTypeChanged()) { PsiType newTypeElement = changeInfo .getNewReturnType() .getType(changeInfo.getMethod().getParameterList(), method.getManager()); final PsiType returnType = substitutor.substitute(newTypeElement); // don't modify return type for non-Java overriders (EJB) if (method.getName().equals(changeInfo.getNewName())) { final PsiTypeElement typeElement = method.getReturnTypeElement(); if (typeElement != null) { typeElement.replace(factory.createTypeElement(returnType)); } } } PsiParameterList list = method.getParameterList(); PsiParameter[] parameters = list.getParameters(); final JavaParameterInfo[] parameterInfos = changeInfo.getNewParameters(); final int delta = baseMethod != null ? baseMethod.getParameterList().getParametersCount() - method.getParameterList().getParametersCount() : 0; PsiParameter[] newParms = new PsiParameter[Math.max(parameterInfos.length - delta, 0)]; final String[] oldParameterNames = changeInfo.getOldParameterNames(); final String[] oldParameterTypes = changeInfo.getOldParameterTypes(); for (int i = 0; i < newParms.length; i++) { JavaParameterInfo info = parameterInfos[i]; int index = info.getOldIndex(); if (index >= 0) { PsiParameter parameter = parameters[index]; newParms[i] = parameter; String oldName = oldParameterNames[index]; if (!oldName.equals(info.getName()) && oldName.equals(parameter.getName())) { PsiIdentifier newIdentifier = factory.createIdentifier(info.getName()); parameter.getNameIdentifier().replace(newIdentifier); } String oldType = oldParameterTypes[index]; if (!oldType.equals(info.getTypeText())) { parameter.normalizeDeclaration(); PsiType newType = substitutor.substitute( info.createType(changeInfo.getMethod().getParameterList(), method.getManager())); parameter.getTypeElement().replace(factory.createTypeElement(newType)); } } else { newParms[i] = createNewParameter(changeInfo, info, substitutor); } } resolveParameterVsFieldsConflicts(newParms, method, list, changeInfo.toRemoveParm()); fixJavadocsForChangedMethod(method, changeInfo, newParms.length); if (changeInfo.isExceptionSetOrOrderChanged()) { final PsiClassType[] newExceptions = getPrimaryChangedExceptionInfo(changeInfo); fixPrimaryThrowsLists(method, newExceptions); } }
private boolean needToChangeCalls() { return myChangeInfo.isNameChanged() || myChangeInfo.isParameterSetOrOrderChanged() || myChangeInfo.isExceptionSetOrOrderChanged(); }
// This methods works equally well for primary usages as well as for propagated callers' usages private static void fixActualArgumentsList( PsiExpressionList list, JavaChangeInfo changeInfo, boolean toInsertDefaultValue, PsiSubstitutor substitutor) throws IncorrectOperationException { final PsiElementFactory factory = JavaPsiFacade.getInstance(list.getProject()).getElementFactory(); if (changeInfo.isParameterSetOrOrderChanged()) { if (changeInfo instanceof JavaChangeInfoImpl && ((JavaChangeInfoImpl) changeInfo).isPropagationEnabled) { final ParameterInfoImpl[] createdParmsInfo = ((JavaChangeInfoImpl) changeInfo).getCreatedParmsInfoWithoutVarargs(); for (ParameterInfoImpl info : createdParmsInfo) { PsiExpression newArg; if (toInsertDefaultValue) { newArg = createDefaultValue(changeInfo, factory, info, list); } else { newArg = factory.createExpressionFromText(info.getName(), list); } JavaCodeStyleManager.getInstance(list.getProject()) .shortenClassReferences(list.add(newArg)); } } else { final PsiExpression[] args = list.getExpressions(); final int nonVarargCount = getNonVarargCount(changeInfo, args); final int varargCount = args.length - nonVarargCount; if (varargCount < 0) return; PsiExpression[] newVarargInitializers = null; final int newArgsLength; final int newNonVarargCount; final JavaParameterInfo[] newParms = changeInfo.getNewParameters(); if (changeInfo.isArrayToVarargs()) { newNonVarargCount = newParms.length - 1; final JavaParameterInfo lastNewParm = newParms[newParms.length - 1]; final PsiExpression arrayToConvert = args[lastNewParm.getOldIndex()]; if (arrayToConvert instanceof PsiNewExpression) { final PsiNewExpression expression = (PsiNewExpression) arrayToConvert; final PsiArrayInitializerExpression arrayInitializer = expression.getArrayInitializer(); if (arrayInitializer != null) { newVarargInitializers = arrayInitializer.getInitializers(); } } newArgsLength = newVarargInitializers == null ? newParms.length : newNonVarargCount + newVarargInitializers.length; } else if (changeInfo.isRetainsVarargs()) { newNonVarargCount = newParms.length - 1; newArgsLength = newNonVarargCount + varargCount; } else if (changeInfo.isObtainsVarags()) { newNonVarargCount = newParms.length - 1; newArgsLength = newNonVarargCount; } else { newNonVarargCount = newParms.length; newArgsLength = newParms.length; } String[] oldVarargs = null; if (changeInfo.wasVararg() && !changeInfo.isRetainsVarargs()) { oldVarargs = new String[varargCount]; for (int i = nonVarargCount; i < args.length; i++) { oldVarargs[i - nonVarargCount] = args[i].getText(); } } final PsiExpression[] newArgs = new PsiExpression[newArgsLength]; for (int i = 0; i < newNonVarargCount; i++) { if (newParms[i].getOldIndex() == nonVarargCount && oldVarargs != null) { PsiType type = newParms[i].createType(changeInfo.getMethod(), list.getManager()); if (type instanceof PsiArrayType) { type = substitutor.substitute(type); type = TypeConversionUtil.erasure(type); String typeText = type.getCanonicalText(); if (type instanceof PsiEllipsisType) { typeText = typeText.replace("...", "[]"); } String text = "new " + typeText + "{" + StringUtil.join(oldVarargs, ",") + "}"; newArgs[i] = factory.createExpressionFromText(text, changeInfo.getMethod()); continue; } } newArgs[i] = createActualArgument(changeInfo, list, newParms[i], toInsertDefaultValue, args); } if (changeInfo.isArrayToVarargs()) { if (newVarargInitializers == null) { newArgs[newNonVarargCount] = createActualArgument( changeInfo, list, newParms[newNonVarargCount], toInsertDefaultValue, args); } else { System.arraycopy( newVarargInitializers, 0, newArgs, newNonVarargCount, newVarargInitializers.length); } } else { final int newVarargCount = newArgsLength - newNonVarargCount; LOG.assertTrue(newVarargCount == 0 || newVarargCount == varargCount); for (int i = newNonVarargCount; i < newArgsLength; i++) { final int oldIndex = newParms[newNonVarargCount].getOldIndex(); if (oldIndex >= 0 && oldIndex != nonVarargCount) { newArgs[i] = createActualArgument( changeInfo, list, newParms[newNonVarargCount], toInsertDefaultValue, args); } else { System.arraycopy(args, nonVarargCount, newArgs, newNonVarargCount, newVarargCount); break; } } } ChangeSignatureUtil.synchronizeList( list, Arrays.asList(newArgs), ExpressionList.INSTANCE, changeInfo.toRemoveParm()); } } }
@Nullable private static PsiExpression createDefaultValue( JavaChangeInfo changeInfo, final PsiElementFactory factory, final JavaParameterInfo info, final PsiExpressionList list) throws IncorrectOperationException { if (info.isUseAnySingleVariable()) { final PsiResolveHelper resolveHelper = JavaPsiFacade.getInstance(list.getProject()).getResolveHelper(); final PsiType type = info.getTypeWrapper().getType(changeInfo.getMethod(), list.getManager()); final VariablesProcessor processor = new VariablesProcessor(false) { protected boolean check(PsiVariable var, ResolveState state) { if (var instanceof PsiField && !resolveHelper.isAccessible((PsiField) var, list, null)) return false; if (var instanceof PsiLocalVariable && list.getTextRange().getStartOffset() <= var.getTextRange().getStartOffset()) return false; if (PsiTreeUtil.isAncestor(var, list, false)) return false; final PsiType varType = state.get(PsiSubstitutor.KEY).substitute(var.getType()); return type.isAssignableFrom(varType); } public boolean execute(PsiElement pe, ResolveState state) { super.execute(pe, state); return size() < 2; } }; PsiScopesUtil.treeWalkUp(processor, list, null); if (processor.size() == 1) { final PsiVariable result = processor.getResult(0); return factory.createExpressionFromText(result.getName(), list); } if (processor.size() == 0) { final PsiClass parentClass = PsiTreeUtil.getParentOfType(list, PsiClass.class); if (parentClass != null) { PsiClass containingClass = parentClass; final Set<PsiClass> containingClasses = new HashSet<PsiClass>(); while (containingClass != null) { if (type.isAssignableFrom(factory.createType(containingClass, PsiSubstitutor.EMPTY))) { containingClasses.add(containingClass); } containingClass = PsiTreeUtil.getParentOfType(containingClass, PsiClass.class); } if (containingClasses.size() == 1) { return RefactoringUtil.createThisExpression( parentClass.getManager(), containingClasses.contains(parentClass) ? null : containingClasses.iterator().next()); } } } } final PsiCallExpression callExpression = PsiTreeUtil.getParentOfType(list, PsiCallExpression.class); final String defaultValue = info.getDefaultValue(); return callExpression != null ? info.getValue(callExpression) : defaultValue.length() > 0 ? factory.createExpressionFromText(defaultValue, list) : null; }
private static int getNonVarargCount(JavaChangeInfo changeInfo, PsiExpression[] args) { if (!changeInfo.wasVararg()) return args.length; return changeInfo.getOldParameterTypes().length - 1; }