/* * Copyright (C) 2013-2018 The Project Lombok Authors. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ package lombok.eclipse.handlers; import static lombok.core.handlers.HandlerUtil.*; import static lombok.eclipse.Eclipse.*; import static lombok.eclipse.handlers.EclipseHandlerUtil.*; import java.lang.reflect.Modifier; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.List; import java.util.function.Supplier; import org.eclipse.jdt.internal.compiler.ast.ASTNode; import org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration; import org.eclipse.jdt.internal.compiler.ast.AbstractVariableDeclaration; import org.eclipse.jdt.internal.compiler.ast.AllocationExpression; import org.eclipse.jdt.internal.compiler.ast.Annotation; import org.eclipse.jdt.internal.compiler.ast.Argument; import org.eclipse.jdt.internal.compiler.ast.Assignment; import org.eclipse.jdt.internal.compiler.ast.CompilationUnitDeclaration; import org.eclipse.jdt.internal.compiler.ast.ConstructorDeclaration; import org.eclipse.jdt.internal.compiler.ast.ExplicitConstructorCall; import org.eclipse.jdt.internal.compiler.ast.Expression; import org.eclipse.jdt.internal.compiler.ast.FalseLiteral; import org.eclipse.jdt.internal.compiler.ast.FieldDeclaration; import org.eclipse.jdt.internal.compiler.ast.FieldReference; import org.eclipse.jdt.internal.compiler.ast.MessageSend; import org.eclipse.jdt.internal.compiler.ast.MethodDeclaration; import org.eclipse.jdt.internal.compiler.ast.ParameterizedQualifiedTypeReference; import org.eclipse.jdt.internal.compiler.ast.ParameterizedSingleTypeReference; import org.eclipse.jdt.internal.compiler.ast.QualifiedNameReference; import org.eclipse.jdt.internal.compiler.ast.QualifiedTypeReference; import org.eclipse.jdt.internal.compiler.ast.ReturnStatement; import org.eclipse.jdt.internal.compiler.ast.SingleNameReference; import org.eclipse.jdt.internal.compiler.ast.SingleTypeReference; import org.eclipse.jdt.internal.compiler.ast.Statement; import org.eclipse.jdt.internal.compiler.ast.ThisReference; import org.eclipse.jdt.internal.compiler.ast.TypeDeclaration; import org.eclipse.jdt.internal.compiler.ast.TypeParameter; import org.eclipse.jdt.internal.compiler.ast.TypeReference; import org.eclipse.jdt.internal.compiler.ast.Wildcard; import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants; import org.eclipse.jdt.internal.compiler.lookup.ClassScope; import org.eclipse.jdt.internal.compiler.lookup.MethodScope; import org.eclipse.jdt.internal.compiler.lookup.TypeConstants; import org.eclipse.jdt.internal.compiler.lookup.TypeIds; import org.mangosdk.spi.ProviderFor; import lombok.AccessLevel; import lombok.Builder; import lombok.Builder.ObtainVia; import lombok.ConfigurationKeys; import lombok.Singular; import lombok.core.AST.Kind; import lombok.core.AnnotationValues; import lombok.core.HandlerPriority; import lombok.eclipse.Eclipse; import lombok.eclipse.EclipseAnnotationHandler; import lombok.eclipse.EclipseNode; import lombok.eclipse.handlers.EclipseHandlerUtil.FieldAccess; import lombok.eclipse.handlers.EclipseHandlerUtil.MemberExistsResult; import lombok.eclipse.handlers.EclipseSingularsRecipes.EclipseSingularizer; import lombok.eclipse.handlers.EclipseSingularsRecipes.SingularData; import lombok.experimental.NonFinal; import lombok.experimental.SuperBuilder; @ProviderFor(EclipseAnnotationHandler.class) @HandlerPriority(-1024) //-2^10; to ensure we've picked up @FieldDefault's changes (-2048) but @Value hasn't removed itself yet (-512), so that we can error on presence of it on the builder classes. public class HandleSuperBuilder extends EclipseAnnotationHandler { private static final char[] CLEAN_FIELD_NAME = "$lombokUnclean".toCharArray(); private static final char[] CLEAN_METHOD_NAME = "$lombokClean".toCharArray(); private static final char[] DEFAULT_PREFIX = {'$', 'd', 'e', 'f', 'a', 'u', 'l', 't', '$'}; private static final char[] SET_PREFIX = {'$', 's', 'e', 't'}; private static final String SELF_METHOD = "self"; private static final AbstractMethodDeclaration[] EMPTY_METHODS = {}; private static class BuilderFieldData { TypeReference type; char[] rawName; char[] name; char[] nameOfDefaultProvider; char[] nameOfSetFlag; SingularData singularData; ObtainVia obtainVia; EclipseNode obtainViaNode; EclipseNode originalFieldNode; List createdFields = new ArrayList(); } @Override public void handle(AnnotationValues annotation, Annotation ast, EclipseNode annotationNode) { long p = (long) ast.sourceStart << 32 | ast.sourceEnd; SuperBuilder builderInstance = annotation.getInstance(); String builderMethodName = builderInstance.builderMethodName(); String buildMethodName = builderInstance.buildMethodName(); if (builderMethodName == null) { builderMethodName = "builder"; } if (buildMethodName == null) { buildMethodName = "build"; } if (!checkName("builderMethodName", builderMethodName, annotationNode)) { return; } if (!checkName("buildMethodName", buildMethodName, annotationNode)) { return; } EclipseNode tdParent = annotationNode.up(); java.util.List builderFields = new ArrayList(); TypeReference returnType; TypeParameter[] typeParams; boolean addCleaning = false; if (!(tdParent.get() instanceof TypeDeclaration)) { annotationNode.addError("@SuperBuilder is only supported on types."); return; } TypeDeclaration td = (TypeDeclaration) tdParent.get(); // Gather all fields of the class that should be set by the builder. List allFields = new ArrayList(); boolean valuePresent = (hasAnnotation(lombok.Value.class, tdParent) || hasAnnotation("lombok.experimental.Value", tdParent)); for (EclipseNode fieldNode : HandleConstructor.findAllFields(tdParent, true)) { FieldDeclaration fd = (FieldDeclaration) fieldNode.get(); EclipseNode isDefault = findAnnotation(Builder.Default.class, fieldNode); boolean isFinal = ((fd.modifiers & ClassFileConstants.AccFinal) != 0) || (valuePresent && !hasAnnotation(NonFinal.class, fieldNode)); BuilderFieldData bfd = new BuilderFieldData(); bfd.rawName = fieldNode.getName().toCharArray(); bfd.name = removePrefixFromField(fieldNode); bfd.type = fd.type; bfd.singularData = getSingularData(fieldNode, ast); bfd.originalFieldNode = fieldNode; if (bfd.singularData != null && isDefault != null) { isDefault.addError("@Builder.Default and @Singular cannot be mixed."); isDefault = null; } if (fd.initialization == null && isDefault != null) { isDefault.addWarning("@Builder.Default requires an initializing expression (' = something;')."); isDefault = null; } if (fd.initialization != null && isDefault == null) { if (isFinal) { continue; } fieldNode.addWarning("@Builder will ignore the initializing expression entirely. If you want the initializing expression to serve as default, add @Builder.Default. If it is not supposed to be settable during building, make the field final."); } if (isDefault != null) { bfd.nameOfDefaultProvider = prefixWith(DEFAULT_PREFIX, bfd.name); bfd.nameOfSetFlag = prefixWith(bfd.name, SET_PREFIX); MethodDeclaration md = HandleBuilder.generateDefaultProvider(bfd.nameOfDefaultProvider, td.typeParameters, fieldNode, ast); if (md != null) { injectMethod(tdParent, md); } } addObtainVia(bfd, fieldNode); builderFields.add(bfd); allFields.add(fieldNode); } // Set the names of the builder classes. String builderClassName = String.valueOf(td.name) + "Builder"; String builderImplClassName = builderClassName + "Impl"; typeParams = td.typeParameters != null ? td.typeParameters : new TypeParameter[0]; returnType = namePlusTypeParamsToTypeReference(td.name, typeParams, p); // are the generics for our builder. String classGenericName = "C"; String builderGenericName = "B"; // If these generics' names collide with any generics on the annotated class, modify them. // For instance, if there are generics on the annotated class, use "C2" and "B3" for our builder. java.util.List typeParamStrings = new ArrayList(); for (TypeParameter typeParam : typeParams) { typeParamStrings.add(typeParam.toString()); } classGenericName = generateNonclashingNameFor(classGenericName, typeParamStrings); builderGenericName = generateNonclashingNameFor(builderGenericName, typeParamStrings); TypeReference extendsClause = td.superclass; TypeReference superclassBuilderClass = null; TypeReference[] typeArguments = new TypeReference[] { new SingleTypeReference(classGenericName.toCharArray(), 0), new SingleTypeReference(builderGenericName.toCharArray(), 0) }; if (extendsClause instanceof QualifiedTypeReference) { QualifiedTypeReference qualifiedTypeReference = (QualifiedTypeReference)extendsClause; String superclassClassName = String.valueOf(qualifiedTypeReference.getLastToken()); String superclassBuilderClassName = superclassClassName + "Builder"; char[][] tokens = Arrays.copyOf(qualifiedTypeReference.tokens, qualifiedTypeReference.tokens.length + 1); tokens[tokens.length] = superclassBuilderClassName.toCharArray(); long[] poss = new long[tokens.length]; Arrays.fill(poss, p); TypeReference[] superclassTypeArgs = getTypeParametersFrom(extendsClause); // Every token may potentially have type args. Here, we only have // type args for the last token, the superclass' builder. TypeReference[][] typeArgsForTokens = new TypeReference[tokens.length][]; typeArgsForTokens[typeArgsForTokens.length-1] = mergeTypeReferences(superclassTypeArgs, typeArguments); superclassBuilderClass = new ParameterizedQualifiedTypeReference(tokens, typeArgsForTokens, 0, poss); } else if (extendsClause != null) { String superClass = String.valueOf(extendsClause.getTypeName()[0]); String superclassBuilderClassName = superClass + "Builder"; char[][] tokens = new char[][] {superClass.toCharArray(), superclassBuilderClassName.toCharArray()}; long[] poss = new long[tokens.length]; Arrays.fill(poss, p); TypeReference[] superclassTypeArgs = getTypeParametersFrom(extendsClause); // Every token may potentially have type args. Here, we only have // type args for the last token, the superclass' builder. TypeReference[][] typeArgsForTokens = new TypeReference[tokens.length][]; typeArgsForTokens[typeArgsForTokens.length-1] = mergeTypeReferences(superclassTypeArgs, typeArguments); superclassBuilderClass = new ParameterizedQualifiedTypeReference(tokens, typeArgsForTokens, 0, poss); } // If there is no superclass, superclassBuilderClassExpression is still == null at this point. // You can use it to check whether to inherit or not. generateBuilderBasedConstructor(tdParent, typeParams, builderFields, annotationNode, builderClassName, superclassBuilderClass != null); // Create the abstract builder class. EclipseNode builderType = findInnerClass(tdParent, builderClassName); if (builderType == null) { builderType = generateBuilderAbstractClass(tdParent, builderClassName, superclassBuilderClass, typeParams, ast, classGenericName, builderGenericName); } else { annotationNode.addError("@SuperBuilder does not support customized builders. Use @Builder instead."); return; } // Check validity of @ObtainVia fields, and add check if adding cleaning for @Singular is necessary. for (BuilderFieldData bfd : builderFields) { if (bfd.singularData != null && bfd.singularData.getSingularizer() != null) { if (bfd.singularData.getSingularizer().requiresCleaning()) { addCleaning = true; break; } } if (bfd.obtainVia != null) { if (bfd.obtainVia.field().isEmpty() == bfd.obtainVia.method().isEmpty()) { bfd.obtainViaNode.addError("The syntax is either @ObtainVia(field = \"fieldName\") or @ObtainVia(method = \"methodName\")."); return; } if (bfd.obtainVia.method().isEmpty() && bfd.obtainVia.isStatic()) { bfd.obtainViaNode.addError("@ObtainVia(isStatic = true) is not valid unless 'method' has been set."); return; } } } // Generate the fields in the abstract builder class that hold the values for the instance. generateBuilderFields(builderType, builderFields, ast); if (addCleaning) { FieldDeclaration cleanDecl = new FieldDeclaration(CLEAN_FIELD_NAME, 0, -1); cleanDecl.declarationSourceEnd = -1; cleanDecl.modifiers = ClassFileConstants.AccPrivate; cleanDecl.type = TypeReference.baseTypeReference(TypeIds.T_boolean, 0); injectFieldAndMarkGenerated(builderType, cleanDecl); } // Generate abstract self() and build() methods in the abstract builder. injectMethod(builderType, generateAbstractSelfMethod(tdParent, superclassBuilderClass != null, builderGenericName)); injectMethod(builderType, generateAbstractBuildMethod(tdParent, buildMethodName, superclassBuilderClass != null, classGenericName, ast)); // Create the setter methods in the abstract builder. for (BuilderFieldData bfd : builderFields) { generateSetterMethodsForBuilder(builderType, bfd, annotationNode, builderGenericName); } // Create the toString() method for the abstract builder. if (methodExists("toString", builderType, 0) == MemberExistsResult.NOT_EXISTS) { java.util.List fieldNodes = new ArrayList(); for (BuilderFieldData bfd : builderFields) { fieldNodes.addAll(bfd.createdFields); } // Let toString() call super.toString() if there is a superclass, so that it also shows fields from the superclass' builder. MethodDeclaration md = HandleToString.createToString(builderType, fieldNodes, true, superclassBuilderClass != null, ast, FieldAccess.ALWAYS_FIELD); if (md != null) { injectMethod(builderType, md); } } if (addCleaning) { injectMethod(builderType, generateCleanMethod(builderFields, builderType, ast)); } // Create the builder implementation class. EclipseNode builderImplType = findInnerClass(tdParent, builderImplClassName); if (builderImplType == null) { builderImplType = generateBuilderImplClass(tdParent, builderImplClassName, builderClassName, typeParams, ast); } else { annotationNode.addError("@SuperBuilder does not support customized builders. Use @Builder instead."); return; } // Create a simple constructor for the BuilderImpl class. ConstructorDeclaration cd = HandleConstructor.createConstructor(AccessLevel.PRIVATE, builderImplType, Collections.emptyList(), false, annotationNode, Collections.emptyList()); if (cd != null) { injectMethod(builderImplType, cd); } // Create the self() and build() methods in the BuilderImpl. injectMethod(builderImplType, generateSelfMethod(builderImplType)); injectMethod(builderImplType, generateBuildMethod(tdParent, buildMethodName, returnType, ast)); // Add the builder() method to the annotated class. if (methodExists(builderMethodName, tdParent, -1) == MemberExistsResult.NOT_EXISTS) { MethodDeclaration md = generateBuilderMethod(builderMethodName, builderClassName, builderImplClassName, tdParent, typeParams, ast); if (md != null) { injectMethod(tdParent, md); } } } private EclipseNode generateBuilderAbstractClass(EclipseNode tdParent, String builderClass, TypeReference superclassBuilderClass, TypeParameter[] typeParams, ASTNode source, String classGenericName, String builderGenericName) { TypeDeclaration parent = (TypeDeclaration) tdParent.get(); TypeDeclaration builder = new TypeDeclaration(parent.compilationResult); builder.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG; builder.modifiers |= ClassFileConstants.AccPublic | ClassFileConstants.AccStatic | ClassFileConstants.AccAbstract; builder.name = builderClass.toCharArray(); // Keep any type params of the annotated class. builder.typeParameters = Arrays.copyOf(copyTypeParams(typeParams, source), typeParams.length + 2); // Add builder-specific type params required for inheritable builders. // 1. The return type for the build() method, named "C", which extends the annotated class. TypeParameter o = new TypeParameter(); o.name = classGenericName.toCharArray(); o.type = cloneSelfType(tdParent, source); builder.typeParameters[builder.typeParameters.length - 2] = o; // 2. The return type for all setter methods, named "B", which extends this builder class. o = new TypeParameter(); o.name = builderGenericName.toCharArray(); TypeReference[] typerefs = appendBuilderTypeReferences(typeParams, classGenericName, builderGenericName); o.type = new ParameterizedSingleTypeReference(builderClass.toCharArray(), typerefs, 0, 0); builder.typeParameters[builder.typeParameters.length - 1] = o; builder.superclass = copyType(superclassBuilderClass, source); builder.traverse(new SetGeneratedByVisitor(source), (ClassScope) null); return injectType(tdParent, builder); } private EclipseNode generateBuilderImplClass(EclipseNode tdParent, String builderImplClass, String builderAbstractClass, TypeParameter[] typeParams, ASTNode source) { TypeDeclaration parent = (TypeDeclaration) tdParent.get(); TypeDeclaration builder = new TypeDeclaration(parent.compilationResult); builder.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG; builder.modifiers |= ClassFileConstants.AccPrivate | ClassFileConstants.AccStatic | ClassFileConstants.AccFinal; builder.name = builderImplClass.toCharArray(); // Add type params if there are any. if (typeParams != null && typeParams.length > 0) { builder.typeParameters = copyTypeParams(typeParams, source); } if (builderAbstractClass != null) { // Extend the abstract builder. // 1. Add any type params of the annotated class. TypeReference[] typeArgs = new TypeReference[typeParams.length + 2]; for (int i = 0; i < typeParams.length; i++) { typeArgs[i] = new SingleTypeReference(typeParams[i].name, 0); } // 2. The return type for the build() method (named "C" in the abstract builder), which is the annotated class. // 3. The return type for all setter methods (named "B" in the abstract builder), which is this builder class. typeArgs[typeArgs.length - 2] = cloneSelfType(tdParent, source); typeArgs[typeArgs.length - 1] = createTypeReferenceWithTypeParameters(builderImplClass, typeParams); builder.superclass = new ParameterizedSingleTypeReference(builderAbstractClass.toCharArray(), typeArgs, 0, 0); } builder.traverse(new SetGeneratedByVisitor(source), (ClassScope) null); return injectType(tdParent, builder); } /** * Generates a constructor that has a builder as the only parameter. * The values from the builder are used to initialize the fields of new instances. * * @param typeNode * the type (with the {@code @Builder} annotation) for which a * constructor should be generated. * @param typeParams * @param builderFields a list of fields in the builder which should be assigned to new instances. * @param source the annotation (used for setting source code locations for the generated code). * @param callBuilderBasedSuperConstructor * If {@code true}, the constructor will explicitly call a super * constructor with the builder as argument. Requires * {@code builderClassAsParameter != null}. */ private void generateBuilderBasedConstructor(EclipseNode typeNode, TypeParameter[] typeParams, List builderFields, EclipseNode sourceNode, String builderClassName, boolean callBuilderBasedSuperConstructor) { ASTNode source = sourceNode.get(); TypeDeclaration typeDeclaration = ((TypeDeclaration) typeNode.get()); long p = (long) source.sourceStart << 32 | source.sourceEnd; ConstructorDeclaration constructor = new ConstructorDeclaration(((CompilationUnitDeclaration) typeNode.top().get()).compilationResult); constructor.modifiers = toEclipseModifier(AccessLevel.PROTECTED); constructor.selector = typeDeclaration.name; if (callBuilderBasedSuperConstructor) { constructor.constructorCall = new ExplicitConstructorCall(ExplicitConstructorCall.Super); constructor.constructorCall.arguments = new Expression[] {new SingleNameReference("b".toCharArray(), p)}; } else { constructor.constructorCall = new ExplicitConstructorCall(ExplicitConstructorCall.ImplicitSuper); } constructor.constructorCall.sourceStart = source.sourceStart; constructor.constructorCall.sourceEnd = source.sourceEnd; constructor.thrownExceptions = null; constructor.typeParameters = null; constructor.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; constructor.bodyStart = constructor.declarationSourceStart = constructor.sourceStart = source.sourceStart; constructor.bodyEnd = constructor.declarationSourceEnd = constructor.sourceEnd = source.sourceEnd; TypeReference[] wildcards = new TypeReference[] {new Wildcard(Wildcard.UNBOUND), new Wildcard(Wildcard.UNBOUND)}; TypeReference builderType = new ParameterizedSingleTypeReference(builderClassName.toCharArray(), mergeToTypeReferences(typeParams, wildcards), 0, p); constructor.arguments = new Argument[] {new Argument("b".toCharArray(), p, builderType, Modifier.FINAL)}; List statements = new ArrayList(); List nullChecks = new ArrayList(); for (BuilderFieldData fieldNode : builderFields) { char[] fieldName = removePrefixFromField(fieldNode.originalFieldNode); FieldReference thisX = new FieldReference(fieldNode.rawName, p); int s = (int) (p >> 32); int e = (int) p; thisX.receiver = new ThisReference(s, e); Expression assignmentExpr; if (fieldNode.singularData != null && fieldNode.singularData.getSingularizer() != null) { fieldNode.singularData.getSingularizer().appendBuildCode(fieldNode.singularData, typeNode, statements, fieldNode.name, "b"); assignmentExpr = new SingleNameReference(fieldNode.name, p); } else { char[][] variableInBuilder = new char[][] {"b".toCharArray(), fieldName}; long[] positions = new long[] {p, p}; assignmentExpr = new QualifiedNameReference(variableInBuilder, positions, s, e); } Assignment assignment = new Assignment(thisX, assignmentExpr, (int) p); statements.add(assignment); Annotation[] nonNulls = findAnnotations((FieldDeclaration)fieldNode.originalFieldNode.get(), NON_NULL_PATTERN); if (nonNulls.length != 0) { Statement nullCheck = generateNullCheck((FieldDeclaration)fieldNode.originalFieldNode.get(), sourceNode); if (nullCheck != null) { nullChecks.add(nullCheck); } } } nullChecks.addAll(statements); constructor.statements = nullChecks.isEmpty() ? null : nullChecks.toArray(new Statement[nullChecks.size()]); constructor.traverse(new SetGeneratedByVisitor(source), typeDeclaration.scope); injectMethod(typeNode, constructor); } private MethodDeclaration generateBuilderMethod(String builderMethodName, String builderClassName, String builderImplClassName, EclipseNode type, TypeParameter[] typeParams, ASTNode source) { int pS = source.sourceStart, pE = source.sourceEnd; long p = (long) pS << 32 | pE; MethodDeclaration out = new MethodDeclaration(((CompilationUnitDeclaration) type.top().get()).compilationResult); out.selector = builderMethodName.toCharArray(); out.modifiers = ClassFileConstants.AccPublic | ClassFileConstants.AccStatic; out.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; // Add type params if there are any. if (typeParams != null && typeParams.length > 0) { out.typeParameters = copyTypeParams(typeParams, source); } TypeReference[] wildcards = new TypeReference[] {new Wildcard(Wildcard.UNBOUND), new Wildcard(Wildcard.UNBOUND) }; out.returnType = new ParameterizedSingleTypeReference(builderClassName.toCharArray(), mergeToTypeReferences(typeParams, wildcards), 0, p); AllocationExpression invoke = new AllocationExpression(); invoke.type = namePlusTypeParamsToTypeReference(builderImplClassName.toCharArray(), typeParams, p); out.statements = new Statement[] {new ReturnStatement(invoke, pS, pE)}; out.traverse(new SetGeneratedByVisitor(source), ((TypeDeclaration) type.get()).scope); return out; } private MethodDeclaration generateAbstractSelfMethod(EclipseNode tdParent, boolean override, String builderGenericName) { MethodDeclaration out = new MethodDeclaration(((CompilationUnitDeclaration) tdParent.top().get()).compilationResult); out.selector = SELF_METHOD.toCharArray(); out.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; out.modifiers = ClassFileConstants.AccAbstract | ClassFileConstants.AccProtected; if (override) { out.annotations = new Annotation[] {makeMarkerAnnotation(TypeConstants.JAVA_LANG_OVERRIDE, tdParent.get())}; } out.returnType = new SingleTypeReference(builderGenericName.toCharArray(), 0); return out; } private MethodDeclaration generateSelfMethod(EclipseNode builderImplType) { MethodDeclaration out = new MethodDeclaration(((CompilationUnitDeclaration) builderImplType.top().get()).compilationResult); out.selector = SELF_METHOD.toCharArray(); out.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; out.modifiers = ClassFileConstants.AccProtected; out.annotations = new Annotation[] {makeMarkerAnnotation(TypeConstants.JAVA_LANG_OVERRIDE, builderImplType.get())}; out.returnType = new SingleTypeReference(builderImplType.getName().toCharArray(), 0); out.statements = new Statement[] {new ReturnStatement(new ThisReference(0, 0), 0, 0)}; return out; } private MethodDeclaration generateAbstractBuildMethod(EclipseNode tdParent, String methodName, boolean override, String classGenericName, ASTNode source) { MethodDeclaration out = new MethodDeclaration(((CompilationUnitDeclaration) tdParent.top().get()).compilationResult); out.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; out.modifiers = ClassFileConstants.AccPublic | ClassFileConstants.AccAbstract; out.selector = methodName.toCharArray(); out.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; out.returnType = new SingleTypeReference(classGenericName.toCharArray(), 0); if (override) { out.annotations = new Annotation[] {makeMarkerAnnotation(TypeConstants.JAVA_LANG_OVERRIDE, source)}; } out.traverse(new SetGeneratedByVisitor(source), (ClassScope) null); return out; } private MethodDeclaration generateBuildMethod(EclipseNode tdParent, String name, TypeReference returnType, ASTNode source) { MethodDeclaration out = new MethodDeclaration(((CompilationUnitDeclaration) tdParent.top().get()).compilationResult); out.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; List statements = new ArrayList(); out.modifiers = ClassFileConstants.AccPublic; out.selector = name.toCharArray(); out.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; out.returnType = returnType; out.annotations = new Annotation[] {makeMarkerAnnotation(TypeConstants.JAVA_LANG_OVERRIDE, source)}; AllocationExpression allocationStatement = new AllocationExpression(); allocationStatement.type = copyType(out.returnType); // Use a constructor that only has this builder as parameter. allocationStatement.arguments = new Expression[] {new ThisReference(0, 0)}; statements.add(new ReturnStatement(allocationStatement, 0, 0)); out.statements = statements.isEmpty() ? null : statements.toArray(new Statement[statements.size()]); out.traverse(new SetGeneratedByVisitor(source), (ClassScope) null); return out; } private MethodDeclaration generateCleanMethod(List builderFields, EclipseNode builderType, ASTNode source) { List statements = new ArrayList(); for (BuilderFieldData bfd : builderFields) { if (bfd.singularData != null && bfd.singularData.getSingularizer() != null) { bfd.singularData.getSingularizer().appendCleaningCode(bfd.singularData, builderType, statements); } } FieldReference thisUnclean = new FieldReference(CLEAN_FIELD_NAME, 0); thisUnclean.receiver = new ThisReference(0, 0); statements.add(new Assignment(thisUnclean, new FalseLiteral(0, 0), 0)); MethodDeclaration decl = new MethodDeclaration(((CompilationUnitDeclaration) builderType.top().get()).compilationResult); decl.selector = CLEAN_METHOD_NAME; decl.modifiers = ClassFileConstants.AccPrivate; decl.bits |= ECLIPSE_DO_NOT_TOUCH_FLAG; decl.returnType = TypeReference.baseTypeReference(TypeIds.T_void, 0); decl.statements = statements.toArray(new Statement[0]); decl.traverse(new SetGeneratedByVisitor(source), (ClassScope) null); return decl; } private void generateBuilderFields(EclipseNode builderType, List builderFields, ASTNode source) { List existing = new ArrayList(); for (EclipseNode child : builderType.down()) { if (child.getKind() == Kind.FIELD) { existing.add(child); } } for (BuilderFieldData bfd : builderFields) { if (bfd.singularData != null && bfd.singularData.getSingularizer() != null) { bfd.createdFields.addAll(bfd.singularData.getSingularizer().generateFields(bfd.singularData, builderType)); } else { EclipseNode field = null, setFlag = null; for (EclipseNode exists : existing) { char[] n = ((FieldDeclaration) exists.get()).name; if (Arrays.equals(n, bfd.name)) { field = exists; } if (bfd.nameOfSetFlag != null && Arrays.equals(n, bfd.nameOfSetFlag)) { setFlag = exists; } } if (field == null) { FieldDeclaration fd = new FieldDeclaration(bfd.name, 0, 0); fd.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG; fd.modifiers = ClassFileConstants.AccPrivate; fd.type = copyType(bfd.type); fd.traverse(new SetGeneratedByVisitor(source), (MethodScope) null); field = injectFieldAndMarkGenerated(builderType, fd); } if (setFlag == null && bfd.nameOfSetFlag != null) { FieldDeclaration fd = new FieldDeclaration(bfd.nameOfSetFlag, 0, 0); fd.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG; fd.modifiers = ClassFileConstants.AccPrivate; fd.type = TypeReference.baseTypeReference(TypeIds.T_boolean, 0); fd.traverse(new SetGeneratedByVisitor(source), (MethodScope) null); injectFieldAndMarkGenerated(builderType, fd); } bfd.createdFields.add(field); } } } private void generateSetterMethodsForBuilder(EclipseNode builderType, BuilderFieldData bfd, EclipseNode sourceNode, final String builderGenericName) { boolean deprecate = isFieldDeprecated(bfd.originalFieldNode); // TODO: Make these lambdas when switching to a source level >= 1.8. Supplier returnType = new Supplier() { @Override public TypeReference get() { return new SingleTypeReference(builderGenericName.toCharArray(), 0); } }; Supplier returnStatement = new Supplier() { @Override public ReturnStatement get() { MessageSend returnCall = new MessageSend(); returnCall.receiver = ThisReference.implicitThis(); returnCall.selector = SELF_METHOD.toCharArray(); return new ReturnStatement(returnCall, 0, 0); } }; if (bfd.singularData == null || bfd.singularData.getSingularizer() == null) { generateSimpleSetterMethodForBuilder(builderType, deprecate, bfd.createdFields.get(0), bfd.nameOfSetFlag, returnType.get(), returnStatement.get(), sourceNode); } else { bfd.singularData.getSingularizer().generateMethods(bfd.singularData, deprecate, builderType, true, returnType, returnStatement); } } private void generateSimpleSetterMethodForBuilder(EclipseNode builderType, boolean deprecate, EclipseNode fieldNode, char[] nameOfSetFlag, TypeReference returnType, ReturnStatement returnStatement, EclipseNode sourceNode) { TypeDeclaration td = (TypeDeclaration) builderType.get(); AbstractMethodDeclaration[] existing = td.methods; if (existing == null) { existing = EMPTY_METHODS; } int len = existing.length; FieldDeclaration fd = (FieldDeclaration) fieldNode.get(); char[] name = fd.name; for (int i = 0; i < len; i++) { if (!(existing[i] instanceof MethodDeclaration)) { continue; } char[] existingName = existing[i].selector; if (Arrays.equals(name, existingName) && !isTolerate(fieldNode, existing[i])) { return; } } String setterName = fieldNode.getName(); MethodDeclaration setter = HandleSetter.createSetter(td, deprecate, fieldNode, setterName, nameOfSetFlag, returnType, returnStatement, ClassFileConstants.AccPublic, sourceNode, Collections.emptyList(), Collections.emptyList()); injectMethod(builderType, setter); } private void addObtainVia(BuilderFieldData bfd, EclipseNode node) { for (EclipseNode child : node.down()) { if (!annotationTypeMatches(ObtainVia.class, child)) { continue; } AnnotationValues ann = createAnnotation(ObtainVia.class, child); bfd.obtainVia = ann.getInstance(); bfd.obtainViaNode = child; return; } } /** * Returns the explicitly requested singular annotation on this node (field * or parameter), or null if there's no {@code @Singular} annotation on it. * * @param node The node (field or method param) to inspect for its name and potential {@code @Singular} annotation. */ private SingularData getSingularData(EclipseNode node, ASTNode source) { for (EclipseNode child : node.down()) { if (!annotationTypeMatches(Singular.class, child)) { continue; } char[] pluralName = node.getKind() == Kind.FIELD ? removePrefixFromField(node) : ((AbstractVariableDeclaration) node.get()).name; AnnotationValues ann = createAnnotation(Singular.class, child); String explicitSingular = ann.getInstance().value(); if (explicitSingular.isEmpty()) { if (Boolean.FALSE.equals(node.getAst().readConfiguration(ConfigurationKeys.SINGULAR_AUTO))) { node.addError("The singular must be specified explicitly (e.g. @Singular(\"task\")) because auto singularization is disabled."); explicitSingular = new String(pluralName); } else { explicitSingular = autoSingularize(new String(pluralName)); if (explicitSingular == null) { node.addError("Can't singularize this name; please specify the singular explicitly (i.e. @Singular(\"sheep\"))"); explicitSingular = new String(pluralName); } } } char[] singularName = explicitSingular.toCharArray(); TypeReference type = ((AbstractVariableDeclaration) node.get()).type; TypeReference[] typeArgs = null; String typeName; if (type instanceof ParameterizedSingleTypeReference) { typeArgs = ((ParameterizedSingleTypeReference) type).typeArguments; typeName = new String(((ParameterizedSingleTypeReference) type).token); } else if (type instanceof ParameterizedQualifiedTypeReference) { TypeReference[][] tr = ((ParameterizedQualifiedTypeReference) type).typeArguments; if (tr != null) { typeArgs = tr[tr.length - 1]; } char[][] tokens = ((ParameterizedQualifiedTypeReference) type).tokens; StringBuilder sb = new StringBuilder(); for (int i = 0; i < tokens.length; i++) { if (i > 0) { sb.append("."); } sb.append(tokens[i]); } typeName = sb.toString(); } else { typeName = type.toString(); } String targetFqn = EclipseSingularsRecipes.get().toQualified(typeName); EclipseSingularizer singularizer = EclipseSingularsRecipes.get().getSingularizer(targetFqn); if (singularizer == null) { node.addError("Lombok does not know how to create the singular-form builder methods for type '" + typeName + "'; they won't be generated."); return null; } return new SingularData(child, singularName, pluralName, typeArgs == null ? Collections.emptyList() : Arrays.asList(typeArgs), targetFqn, singularizer, source); } return null; } private String generateNonclashingNameFor(String classGenericName, java.util.List typeParamStrings) { if (!typeParamStrings.contains(classGenericName)) { return classGenericName; } int counter = 2; while (typeParamStrings.contains(classGenericName + counter)) { counter++; } return classGenericName + counter; } private TypeReference[] appendBuilderTypeReferences(TypeParameter[] typeParams, String classGenericName, String builderGenericName) { TypeReference[] typeReferencesToAppend = new TypeReference[2]; typeReferencesToAppend[typeReferencesToAppend.length - 2] = new SingleTypeReference(classGenericName.toCharArray(), 0); typeReferencesToAppend[typeReferencesToAppend.length - 1] = new SingleTypeReference(builderGenericName.toCharArray(), 0); return mergeToTypeReferences(typeParams, typeReferencesToAppend); } private TypeReference[] getTypeParametersFrom(TypeReference typeRef) { TypeReference[][] typeArgss = null; if (typeRef instanceof ParameterizedQualifiedTypeReference) { typeArgss = ((ParameterizedQualifiedTypeReference)typeRef).typeArguments; } else if (typeRef instanceof ParameterizedSingleTypeReference) { typeArgss = new TypeReference[][] {((ParameterizedSingleTypeReference)typeRef).typeArguments}; } TypeReference[] typeArgs = new TypeReference[0]; if (typeArgss != null && typeArgss.length > 0) { typeArgs = typeArgss[typeArgss.length - 1]; } return typeArgs; } private static SingleTypeReference createTypeReferenceWithTypeParameters(String referenceName, TypeParameter[] typeParams) { if (typeParams.length > 0) { TypeReference[] typerefs = new TypeReference[typeParams.length]; for (int i = 0; i < typeParams.length; i++) { typerefs[i] = new SingleTypeReference(typeParams[i].name, 0); } return new ParameterizedSingleTypeReference(referenceName.toCharArray(), typerefs, 0, 0); } else { return new SingleTypeReference(referenceName.toCharArray(), 0); } } private TypeReference[] mergeToTypeReferences(TypeParameter[] typeParams, TypeReference[] typeReferencesToAppend) { TypeReference[] typerefs = new TypeReference[typeParams.length + typeReferencesToAppend.length]; for (int i = 0; i < typeParams.length; i++) { typerefs[i] = new SingleTypeReference(typeParams[i].name, 0); } for (int i = 0; i < typeReferencesToAppend.length; i++) { typerefs[typeParams.length + i] = typeReferencesToAppend[i]; } return typerefs; } private TypeReference[] mergeTypeReferences(TypeReference[] refs1, TypeReference[] refs2) { TypeReference[] result = new TypeReference[refs1.length + refs2.length]; for (int i = 0; i < refs1.length; i++) { result[i] = refs1[i]; } for (int i = 0; i < refs2.length; i++) { result[refs1.length + i] = refs2[i]; } return result; } private EclipseNode findInnerClass(EclipseNode parent, String name) { char[] c = name.toCharArray(); for (EclipseNode child : parent.down()) { if (child.getKind() != Kind.TYPE) { continue; } TypeDeclaration td = (TypeDeclaration) child.get(); if (Arrays.equals(td.name, c)) { return child; } } return null; } private static final char[] prefixWith(char[] prefix, char[] name) { char[] out = new char[prefix.length + name.length]; System.arraycopy(prefix, 0, out, 0, prefix.length); System.arraycopy(name, 0, out, prefix.length, name.length); return out; } }