/* * Copyright (C) 2015-2020 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.eclipse.handlers.EclipseHandlerUtil.*; import java.io.IOException; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Map; import org.eclipse.jdt.internal.compiler.ast.ASTNode; import org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration; import org.eclipse.jdt.internal.compiler.ast.Annotation; import org.eclipse.jdt.internal.compiler.ast.Argument; import org.eclipse.jdt.internal.compiler.ast.Block; import org.eclipse.jdt.internal.compiler.ast.ConditionalExpression; import org.eclipse.jdt.internal.compiler.ast.EqualExpression; import org.eclipse.jdt.internal.compiler.ast.Expression; import org.eclipse.jdt.internal.compiler.ast.FieldDeclaration; import org.eclipse.jdt.internal.compiler.ast.FieldReference; import org.eclipse.jdt.internal.compiler.ast.IfStatement; import org.eclipse.jdt.internal.compiler.ast.IntLiteral; import org.eclipse.jdt.internal.compiler.ast.MessageSend; import org.eclipse.jdt.internal.compiler.ast.NullLiteral; import org.eclipse.jdt.internal.compiler.ast.OperatorIds; import org.eclipse.jdt.internal.compiler.ast.ParameterizedQualifiedTypeReference; import org.eclipse.jdt.internal.compiler.ast.ParameterizedSingleTypeReference; import org.eclipse.jdt.internal.compiler.ast.QualifiedTypeReference; import org.eclipse.jdt.internal.compiler.ast.Reference; 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.TypeReference; import org.eclipse.jdt.internal.compiler.ast.Wildcard; 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 lombok.AccessLevel; import lombok.core.LombokImmutableList; import lombok.core.SpiLoadUtil; import lombok.core.TypeLibrary; import lombok.core.configuration.CheckerFrameworkVersion; import lombok.eclipse.EclipseNode; import lombok.eclipse.handlers.HandleBuilder.BuilderJob; public class EclipseSingularsRecipes { public interface TypeReferenceMaker { TypeReference make(); } public interface StatementMaker { Statement make(); } private static final EclipseSingularsRecipes INSTANCE = new EclipseSingularsRecipes(); private final Map singularizers = new HashMap(); private final TypeLibrary singularizableTypes = new TypeLibrary(); private EclipseSingularsRecipes() { try { loadAll(singularizableTypes, singularizers); singularizableTypes.lock(); } catch (IOException e) { System.err.println("Lombok's @Singularizable feature is broken due to misconfigured SPI files: " + e); } } private static void loadAll(TypeLibrary library, Map map) throws IOException { for (EclipseSingularizer handler : SpiLoadUtil.findServices(EclipseSingularizer.class, EclipseSingularizer.class.getClassLoader())) { for (String type : handler.getSupportedTypes()) { EclipseSingularizer existingSingularizer = map.get(type); if (existingSingularizer != null) { EclipseSingularizer toKeep = existingSingularizer.getClass().getName().compareTo(handler.getClass().getName()) > 0 ? handler : existingSingularizer; System.err.println("Multiple singularizers found for type " + type + "; the alphabetically first class is used: " + toKeep.getClass().getName()); map.put(type, toKeep); } else { map.put(type, handler); library.addType(type); } } } } public static EclipseSingularsRecipes get() { return INSTANCE; } public String toQualified(String typeReference) { List q = singularizableTypes.toQualifieds(typeReference); if (q.isEmpty()) return null; return q.get(0); } public EclipseSingularizer getSingularizer(String fqn) { return singularizers.get(fqn); } public static final class SingularData { private final EclipseNode annotation; private final char[] singularName; private final char[] pluralName; private final char[] setterPrefix; private final List typeArgs; private final String targetFqn; private final EclipseSingularizer singularizer; private final boolean ignoreNullCollections; private final ASTNode source; public SingularData(EclipseNode annotation, char[] singularName, char[] pluralName, List typeArgs, String targetFqn, EclipseSingularizer singularizer, ASTNode source, boolean ignoreNullCollections) { this(annotation, singularName, pluralName, typeArgs, targetFqn, singularizer, source, ignoreNullCollections, new char[0]); } public SingularData(EclipseNode annotation, char[] singularName, char[] pluralName, List typeArgs, String targetFqn, EclipseSingularizer singularizer, ASTNode source, boolean ignoreNullCollections, char[] setterPrefix) { this.annotation = annotation; this.singularName = singularName; this.pluralName = pluralName; this.typeArgs = typeArgs; this.targetFqn = targetFqn; this.singularizer = singularizer; this.source = source; this.ignoreNullCollections = ignoreNullCollections; this.setterPrefix = setterPrefix; } public void setGeneratedByRecursive(ASTNode target) { SetGeneratedByVisitor visitor = new SetGeneratedByVisitor(source); if (target instanceof AbstractMethodDeclaration) { ((AbstractMethodDeclaration) target).traverse(visitor, (ClassScope) null); } else if (target instanceof FieldDeclaration) { ((FieldDeclaration) target).traverse(visitor, (MethodScope) null); } else { target.traverse(visitor, null); } } public ASTNode getSource() { return source; } public EclipseNode getAnnotation() { return annotation; } public char[] getSingularName() { return singularName; } public char[] getPluralName() { return pluralName; } public char[] getSetterPrefix() { return setterPrefix; } public List getTypeArgs() { return typeArgs; } public String getTargetFqn() { return targetFqn; } public EclipseSingularizer getSingularizer() { return singularizer; } public boolean isIgnoreNullCollections() { return ignoreNullCollections; } public String getTargetSimpleType() { int idx = targetFqn.lastIndexOf("."); return idx == -1 ? targetFqn : targetFqn.substring(idx + 1); } } public static abstract class EclipseSingularizer { protected static final long[] NULL_POSS = {0L}; public abstract LombokImmutableList getSupportedTypes(); /** Checks if any of the to-be-generated nodes (fields, methods) already exist. If so, errors on these (singulars don't support manually writing some of it, and returns true). */ public boolean checkForAlreadyExistingNodesAndGenerateError(EclipseNode builderType, SingularData data) { for (EclipseNode child : builderType.down()) { switch (child.getKind()) { case FIELD: { FieldDeclaration fd = (FieldDeclaration) child.get(); char[] name = fd.name; if (name == null) continue; if (getGeneratedBy(fd) != null) continue; for (char[] fieldToBeGenerated : listFieldsToBeGenerated(data, builderType)) { if (!Arrays.equals(name, fieldToBeGenerated)) continue; child.addError("Manually adding a field that @Singular @Builder would generate is not supported. If you want to manually manage the builder aspect for this field/parameter, don't use @Singular."); return true; } break; } case METHOD: { AbstractMethodDeclaration method = (AbstractMethodDeclaration) child.get(); char[] name = method.selector; if (name == null) continue; if (getGeneratedBy(method) != null) continue; for (char[] methodToBeGenerated : listMethodsToBeGenerated(data, builderType)) { if (!Arrays.equals(name, methodToBeGenerated)) continue; child.addError("Manually adding a method that @Singular @Builder would generate is not supported. If you want to manually manage the builder aspect for this field/parameter, don't use @Singular."); return true; } break; }} } return false; } public List listFieldsToBeGenerated(SingularData data, EclipseNode builderType) { return Collections.singletonList(data.pluralName); } public List listMethodsToBeGenerated(SingularData data, EclipseNode builderType) { char[] p = data.pluralName; char[] s = data.singularName; if (Arrays.equals(p, s)) return Collections.singletonList(p); return Arrays.asList(p, s); } public abstract List generateFields(SingularData data, EclipseNode builderType); /** * Generates the singular, plural, and clear methods for the given {@link SingularData}. * Uses the given {@code builderType} as return type if {@code chain == true}, {@code void} otherwise. * If you need more control over the return type and value, use * {@link #generateMethods(SingularData, boolean, EclipseNode, boolean, TypeReferenceMaker, StatementMaker)}. */ public void generateMethods(final BuilderJob job, SingularData data, boolean deprecate) { TypeReferenceMaker returnTypeMaker = new TypeReferenceMaker() { @Override public TypeReference make() { return job.oldChain ? cloneSelfType(job.builderType) : TypeReference.baseTypeReference(TypeIds.T_void, 0); } }; StatementMaker returnStatementMaker = new StatementMaker() { @Override public ReturnStatement make() { return job.oldChain ? new ReturnStatement(new ThisReference(0, 0), 0, 0) : null; } }; generateMethods(job.checkerFramework, data, deprecate, job.builderType, job.oldFluent, returnTypeMaker, returnStatementMaker, job.accessInners); } /** * Generates the singular, plural, and clear methods for the given {@link SingularData}. * Uses the given {@code returnTypeMaker} and {@code returnStatementMaker} for the generated methods. */ public abstract void generateMethods(CheckerFrameworkVersion cfv, SingularData data, boolean deprecate, EclipseNode builderType, boolean fluent, TypeReferenceMaker returnTypeMaker, StatementMaker returnStatementMaker, AccessLevel access); public abstract void appendBuildCode(SingularData data, EclipseNode builderType, List statements, char[] targetVariableName, String builderVariable); public boolean shadowedDuringBuild() { return true; } public boolean requiresCleaning() { try { return !getClass().getMethod("appendCleaningCode", SingularData.class, EclipseNode.class, List.class).getDeclaringClass().equals(EclipseSingularizer.class); } catch (NoSuchMethodException e) { return false; } } public void appendCleaningCode(SingularData data, EclipseNode builderType, List statements) { } // -- Utility methods -- protected Annotation[] generateSelfReturnAnnotations(boolean deprecate, CheckerFrameworkVersion cfv, ASTNode source) { Annotation deprecated = deprecate ? generateDeprecatedAnnotation(source) : null; Annotation returnsReceiver = cfv.generateReturnsReceiver() ? generateNamedAnnotation(source, CheckerFrameworkVersion.NAME__RETURNS_RECEIVER) : null; if (deprecated == null && returnsReceiver == null) return null; if (deprecated == null) return new Annotation[] {returnsReceiver}; if (returnsReceiver == null) return new Annotation[] {deprecated}; return new Annotation[] {deprecated, returnsReceiver}; } /** * Adds the requested number of type arguments to the provided type, copying each argument in {@code typeArgs}. If typeArgs is too long, the extra elements are ignored. * If {@code typeArgs} is null or too short, {@code java.lang.Object} will be substituted for each missing type argument. * * @param count The number of type arguments requested. * @param addExtends If {@code true}, all bounds are either '? extends X' or just '?'. If false, the reverse is applied, and '? extends Foo' is converted to Foo, '?' to Object, etc. * @param node Some node in the same AST. Just used to obtain makers and contexts and such. * @param type The type to add generics to. * @param typeArgs the list of type args to clone. * @param source The source annotation that is the root cause of this code generation. */ protected TypeReference addTypeArgs(int count, boolean addExtends, EclipseNode node, TypeReference type, List typeArgs) { TypeReference[] clonedAndFixedArgs = createTypeArgs(count, addExtends, node, typeArgs); if (type instanceof SingleTypeReference) { type = new ParameterizedSingleTypeReference(((SingleTypeReference) type).token, clonedAndFixedArgs, 0, 0L); } else if (type instanceof QualifiedTypeReference) { QualifiedTypeReference qtr = (QualifiedTypeReference) type; TypeReference[][] trs = new TypeReference[qtr.tokens.length][]; trs[qtr.tokens.length - 1] = clonedAndFixedArgs; type = new ParameterizedQualifiedTypeReference(((QualifiedTypeReference) type).tokens, trs, 0, NULL_POSS); } else { node.addError("Don't know how to clone-and-parameterize type: " + type); } return type; } protected TypeReference[] createTypeArgs(int count, boolean addExtends, EclipseNode node, List typeArgs) { if (count < 0) throw new IllegalArgumentException("count is negative"); if (count == 0) return null; List arguments = new ArrayList(); if (typeArgs != null) for (TypeReference orig : typeArgs) { Wildcard wildcard = orig instanceof Wildcard ? (Wildcard) orig : null; if (!addExtends) { if (wildcard != null && (wildcard.kind == Wildcard.UNBOUND || wildcard.kind == Wildcard.SUPER)) { arguments.add(new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, NULL_POSS)); } else if (wildcard != null && wildcard.kind == Wildcard.EXTENDS) { try { arguments.add(copyType(wildcard.bound)); } catch (Exception e) { arguments.add(new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, NULL_POSS)); } } else { arguments.add(copyType(orig)); } } else { if (wildcard != null && (wildcard.kind == Wildcard.UNBOUND || wildcard.kind == Wildcard.SUPER)) { Wildcard w = new Wildcard(Wildcard.UNBOUND); arguments.add(w); } else if (wildcard != null && wildcard.kind == Wildcard.EXTENDS) { arguments.add(copyType(orig)); } else { Wildcard w = new Wildcard(Wildcard.EXTENDS); w.bound = copyType(orig); arguments.add(w); } } if (--count == 0) break; } while (count-- > 0) { if (addExtends) { arguments.add(new Wildcard(Wildcard.UNBOUND)); } else { arguments.add(new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, NULL_POSS)); } } if (arguments.isEmpty()) return null; return arguments.toArray(new TypeReference[0]); } private static final char[] SIZE_TEXT = new char[] {'s', 'i', 'z', 'e'}; /** Generates 'this.name.size()' as an expression; if nullGuard is true, it's this.name == null ? 0 : this.name.size(). */ protected Expression getSize(EclipseNode builderType, char[] name, boolean nullGuard, String builderVariable) { MessageSend invoke = new MessageSend(); Reference thisRef = getBuilderReference(builderVariable); FieldReference thisDotName = new FieldReference(name, 0L); thisDotName.receiver = thisRef; invoke.receiver = thisDotName; invoke.selector = SIZE_TEXT; if (!nullGuard) return invoke; Reference cdnThisRef = getBuilderReference(builderVariable); FieldReference cdnThisDotName = new FieldReference(name, 0L); cdnThisDotName.receiver = cdnThisRef; NullLiteral nullLiteral = new NullLiteral(0, 0); EqualExpression isNull = new EqualExpression(cdnThisDotName, nullLiteral, OperatorIds.EQUAL_EQUAL); IntLiteral zeroLiteral = makeIntLiteral(new char[] {'0'}, null); ConditionalExpression conditional = new ConditionalExpression(isNull, zeroLiteral, invoke); return conditional; } protected TypeReference cloneParamType(int index, List typeArgs, EclipseNode builderType) { if (typeArgs != null && typeArgs.size() > index) { TypeReference originalType = typeArgs.get(index); if (originalType instanceof Wildcard) { Wildcard wOriginalType = (Wildcard) originalType; if (wOriginalType.kind == Wildcard.EXTENDS) { try { return copyType(wOriginalType.bound); } catch (Exception e) { // fallthrough } } } else { return copyType(originalType); } } return new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, NULL_POSS); } /** @return a {@code SingleNameReference} to the builder in the variable builderVariable. If {@ code builderVariable == "this"}, a {@code ThisReference} is returned. */ protected static Reference getBuilderReference(String builderVariable) { if ("this".equals(builderVariable)) { return new ThisReference(0, 0); } else { return new SingleNameReference(builderVariable.toCharArray(), 0); } } protected void nullBehaviorize(EclipseNode typeNode, SingularData data, List statements, Argument arg) { boolean ignoreNullCollections = data.isIgnoreNullCollections(); if (ignoreNullCollections) { Expression isNotNull = new EqualExpression(new SingleNameReference(data.getPluralName(), 0L), new NullLiteral(0, 0), OperatorIds.NOT_EQUAL); Block b = new Block(0); b.statements = statements.toArray(new Statement[statements.size()]); statements.clear(); statements.add(new IfStatement(isNotNull, b, 0, 0)); EclipseHandlerUtil.createRelevantNullableAnnotation(typeNode, arg); return; } EclipseHandlerUtil.createRelevantNonNullAnnotation(typeNode, arg); Statement nullCheck = EclipseHandlerUtil.generateNullCheck(null, data.getPluralName(), typeNode, "%s cannot be null"); statements.add(0, nullCheck); } protected abstract char[][] getEmptyMakerReceiver(String targetFqn); protected abstract char[] getEmptyMakerSelector(String targetFqn); } }