/* * Copyright (C) 2009-2014 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.javac.handlers; import static lombok.core.handlers.HandlerUtil.*; import static lombok.javac.Javac.*; import static lombok.javac.handlers.JavacHandlerUtil.*; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import lombok.ConfigurationKeys; import lombok.EqualsAndHashCode; import lombok.core.AST.Kind; import lombok.core.configuration.CallSuperType; import lombok.core.AnnotationValues; import lombok.core.handlers.HandlerUtil; import lombok.javac.Javac; import lombok.javac.JavacAnnotationHandler; import lombok.javac.JavacNode; import lombok.javac.JavacTreeMaker; import lombok.javac.handlers.JavacHandlerUtil.FieldAccess; import lombok.javac.handlers.JavacHandlerUtil.MemberExistsResult; import org.mangosdk.spi.ProviderFor; import com.sun.tools.javac.code.BoundKind; import com.sun.tools.javac.code.Flags; import com.sun.tools.javac.tree.JCTree; import com.sun.tools.javac.tree.JCTree.JCAnnotation; import com.sun.tools.javac.tree.JCTree.JCArrayTypeTree; import com.sun.tools.javac.tree.JCTree.JCBinary; import com.sun.tools.javac.tree.JCTree.JCBlock; import com.sun.tools.javac.tree.JCTree.JCClassDecl; import com.sun.tools.javac.tree.JCTree.JCExpression; import com.sun.tools.javac.tree.JCTree.JCExpressionStatement; import com.sun.tools.javac.tree.JCTree.JCMethodDecl; import com.sun.tools.javac.tree.JCTree.JCMethodInvocation; import com.sun.tools.javac.tree.JCTree.JCModifiers; import com.sun.tools.javac.tree.JCTree.JCPrimitiveTypeTree; import com.sun.tools.javac.tree.JCTree.JCStatement; import com.sun.tools.javac.tree.JCTree.JCTypeParameter; import com.sun.tools.javac.tree.JCTree.JCUnary; import com.sun.tools.javac.tree.JCTree.JCVariableDecl; import com.sun.tools.javac.util.List; import com.sun.tools.javac.util.ListBuffer; import com.sun.tools.javac.util.Name; /** * Handles the {@code lombok.EqualsAndHashCode} annotation for javac. */ @ProviderFor(JavacAnnotationHandler.class) public class HandleEqualsAndHashCode extends JavacAnnotationHandler { private static final String RESULT_NAME = "result"; private static final String PRIME_NAME = "PRIME"; public void checkForBogusFieldNames(JavacNode type, AnnotationValues annotation) { if (annotation.isExplicit("exclude")) { for (int i : createListOfNonExistentFields(List.from(annotation.getInstance().exclude()), type, true, true)) { annotation.setWarning("exclude", "This field does not exist, or would have been excluded anyway.", i); } } if (annotation.isExplicit("of")) { for (int i : createListOfNonExistentFields(List.from(annotation.getInstance().of()), type, false, false)) { annotation.setWarning("of", "This field does not exist.", i); } } } @Override public void handle(AnnotationValues annotation, JCAnnotation ast, JavacNode annotationNode) { handleFlagUsage(annotationNode, ConfigurationKeys.EQUALS_AND_HASH_CODE_FLAG_USAGE, "@EqualsAndHashCode"); deleteAnnotationIfNeccessary(annotationNode, EqualsAndHashCode.class); EqualsAndHashCode ann = annotation.getInstance(); List excludes = List.from(ann.exclude()); List includes = List.from(ann.of()); JavacNode typeNode = annotationNode.up(); List onParam = unboxAndRemoveAnnotationParameter(ast, "onParam", "@EqualsAndHashCode(onParam", annotationNode); checkForBogusFieldNames(typeNode, annotation); Boolean callSuper = ann.callSuper(); if (!annotation.isExplicit("callSuper")) callSuper = null; if (!annotation.isExplicit("exclude")) excludes = null; if (!annotation.isExplicit("of")) includes = null; if (excludes != null && includes != null) { excludes = null; annotation.setWarning("exclude", "exclude and of are mutually exclusive; the 'exclude' parameter will be ignored."); } Boolean doNotUseGettersConfiguration = annotationNode.getAst().readConfiguration(ConfigurationKeys.EQUALS_AND_HASH_CODE_DO_NOT_USE_GETTERS); boolean doNotUseGetters = annotation.isExplicit("doNotUseGetters") || doNotUseGettersConfiguration == null ? ann.doNotUseGetters() : doNotUseGettersConfiguration; FieldAccess fieldAccess = doNotUseGetters ? FieldAccess.PREFER_FIELD : FieldAccess.GETTER; generateMethods(typeNode, annotationNode, excludes, includes, callSuper, true, fieldAccess, onParam); } public void generateEqualsAndHashCodeForType(JavacNode typeNode, JavacNode source) { if (hasAnnotation(EqualsAndHashCode.class, typeNode)) { //The annotation will make it happen, so we can skip it. return; } generateMethods(typeNode, source, null, null, null, false, FieldAccess.GETTER, List.nil()); } public void generateMethods(JavacNode typeNode, JavacNode source, List excludes, List includes, Boolean callSuper, boolean whineIfExists, FieldAccess fieldAccess, List onParam) { boolean notAClass = true; if (typeNode.get() instanceof JCClassDecl) { long flags = ((JCClassDecl) typeNode.get()).mods.flags; notAClass = (flags & (Flags.INTERFACE | Flags.ANNOTATION | Flags.ENUM)) != 0; } if (notAClass) { source.addError("@EqualsAndHashCode is only supported on a class."); return; } boolean isDirectDescendantOfObject = true; boolean implicitCallSuper = callSuper == null; if (callSuper == null) { try { callSuper = ((Boolean) EqualsAndHashCode.class.getMethod("callSuper").getDefaultValue()).booleanValue(); } catch (Exception ignore) { throw new InternalError("Lombok bug - this cannot happen - can't find callSuper field in EqualsAndHashCode annotation."); } } JCTree extending = Javac.getExtendsClause((JCClassDecl)typeNode.get()); if (extending != null) { String p = extending.toString(); isDirectDescendantOfObject = p.equals("Object") || p.equals("java.lang.Object"); } if (isDirectDescendantOfObject && callSuper) { source.addError("Generating equals/hashCode with a supercall to java.lang.Object is pointless."); return; } if (implicitCallSuper && !isDirectDescendantOfObject) { CallSuperType cst = typeNode.getAst().readConfiguration(ConfigurationKeys.EQUALS_AND_HASH_CODE_CALL_SUPER); if (cst == null) cst = CallSuperType.WARN; switch (cst) { default: case WARN: source.addWarning("Generating equals/hashCode implementation but without a call to superclass, even though this class does not extend java.lang.Object. If this is intentional, add '@EqualsAndHashCode(callSuper=false)' to your type."); callSuper = false; break; case SKIP: callSuper = false; break; case CALL: callSuper = true; break; } } ListBuffer nodesForEquality = new ListBuffer(); if (includes != null) { for (JavacNode child : typeNode.down()) { if (child.getKind() != Kind.FIELD) continue; JCVariableDecl fieldDecl = (JCVariableDecl) child.get(); if (includes.contains(fieldDecl.name.toString())) nodesForEquality.append(child); } } else { for (JavacNode child : typeNode.down()) { if (child.getKind() != Kind.FIELD) continue; JCVariableDecl fieldDecl = (JCVariableDecl) child.get(); //Skip static fields. if ((fieldDecl.mods.flags & Flags.STATIC) != 0) continue; //Skip transient fields. if ((fieldDecl.mods.flags & Flags.TRANSIENT) != 0) continue; //Skip excluded fields. if (excludes != null && excludes.contains(fieldDecl.name.toString())) continue; //Skip fields that start with $ if (fieldDecl.name.toString().startsWith("$")) continue; nodesForEquality.append(child); } } boolean isFinal = (((JCClassDecl) typeNode.get()).mods.flags & Flags.FINAL) != 0; boolean needsCanEqual = !isFinal || !isDirectDescendantOfObject; MemberExistsResult equalsExists = methodExists("equals", typeNode, 1); MemberExistsResult hashCodeExists = methodExists("hashCode", typeNode, 0); MemberExistsResult canEqualExists = methodExists("canEqual", typeNode, 1); switch (Collections.max(Arrays.asList(equalsExists, hashCodeExists))) { case EXISTS_BY_LOMBOK: return; case EXISTS_BY_USER: if (whineIfExists) { String msg = "Not generating equals and hashCode: A method with one of those names already exists. (Either both or none of these methods will be generated)."; source.addWarning(msg); } else if (equalsExists == MemberExistsResult.NOT_EXISTS || hashCodeExists == MemberExistsResult.NOT_EXISTS) { // This means equals OR hashCode exists and not both. // Even though we should suppress the message about not generating these, this is such a weird and surprising situation we should ALWAYS generate a warning. // The user code couldn't possibly (barring really weird subclassing shenanigans) be in a shippable state anyway; the implementations of these 2 methods are // all inter-related and should be written by the same entity. String msg = String.format("Not generating %s: One of equals or hashCode exists. " + "You should either write both of these or none of these (in the latter case, lombok generates them).", equalsExists == MemberExistsResult.NOT_EXISTS ? "equals" : "hashCode"); source.addWarning(msg); } return; case NOT_EXISTS: default: //fallthrough } JCMethodDecl equalsMethod = createEquals(typeNode, nodesForEquality.toList(), callSuper, fieldAccess, needsCanEqual, source.get(), onParam); injectMethod(typeNode, equalsMethod); if (needsCanEqual && canEqualExists == MemberExistsResult.NOT_EXISTS) { JCMethodDecl canEqualMethod = createCanEqual(typeNode, source.get(), onParam); injectMethod(typeNode, canEqualMethod); } JCMethodDecl hashCodeMethod = createHashCode(typeNode, nodesForEquality.toList(), callSuper, fieldAccess, source.get()); injectMethod(typeNode, hashCodeMethod); } public JCMethodDecl createHashCode(JavacNode typeNode, List fields, boolean callSuper, FieldAccess fieldAccess, JCTree source) { JavacTreeMaker maker = typeNode.getTreeMaker(); JCAnnotation overrideAnnotation = maker.Annotation(genJavaLangTypeRef(typeNode, "Override"), List.nil()); JCModifiers mods = maker.Modifiers(Flags.PUBLIC, List.of(overrideAnnotation)); JCExpression returnType = maker.TypeIdent(CTC_INT); ListBuffer statements = new ListBuffer(); Name primeName = typeNode.toName(PRIME_NAME); Name resultName = typeNode.toName(RESULT_NAME); long finalFlag = JavacHandlerUtil.addFinalIfNeeded(0L, typeNode.getContext()); /* final int PRIME = X; */ { if (!fields.isEmpty() || callSuper) { statements.append(maker.VarDef(maker.Modifiers(finalFlag), primeName, maker.TypeIdent(CTC_INT), maker.Literal(HandlerUtil.primeForHashcode()))); } } /* int result = 1; */ { statements.append(maker.VarDef(maker.Modifiers(0), resultName, maker.TypeIdent(CTC_INT), maker.Literal(1))); } if (callSuper) { JCMethodInvocation callToSuper = maker.Apply(List.nil(), maker.Select(maker.Ident(typeNode.toName("super")), typeNode.toName("hashCode")), List.nil()); statements.append(createResultCalculation(typeNode, callToSuper)); } Name dollar = typeNode.toName("$"); for (JavacNode fieldNode : fields) { JCExpression fType = getFieldType(fieldNode, fieldAccess); JCExpression fieldAccessor = createFieldAccessor(maker, fieldNode, fieldAccess); if (fType instanceof JCPrimitiveTypeTree) { switch (((JCPrimitiveTypeTree) fType).getPrimitiveTypeKind()) { case BOOLEAN: /* this.fieldName ? X : Y */ statements.append(createResultCalculation(typeNode, maker.Parens(maker.Conditional(fieldAccessor, maker.Literal(HandlerUtil.primeForTrue()), maker.Literal(HandlerUtil.primeForFalse()))))); break; case LONG: { Name dollarFieldName = dollar.append(((JCVariableDecl) fieldNode.get()).name); statements.append(maker.VarDef(maker.Modifiers(finalFlag), dollarFieldName, maker.TypeIdent(CTC_LONG), fieldAccessor)); statements.append(createResultCalculation(typeNode, longToIntForHashCode(maker, maker.Ident(dollarFieldName), maker.Ident(dollarFieldName)))); } break; case FLOAT: /* Float.floatToIntBits(this.fieldName) */ statements.append(createResultCalculation(typeNode, maker.Apply( List.nil(), genJavaLangTypeRef(typeNode, "Float", "floatToIntBits"), List.of(fieldAccessor)))); break; case DOUBLE: { /* longToIntForHashCode(Double.doubleToLongBits(this.fieldName)) */ Name dollarFieldName = dollar.append(((JCVariableDecl) fieldNode.get()).name); JCExpression init = maker.Apply( List.nil(), genJavaLangTypeRef(typeNode, "Double", "doubleToLongBits"), List.of(fieldAccessor)); statements.append(maker.VarDef(maker.Modifiers(finalFlag), dollarFieldName, maker.TypeIdent(CTC_LONG), init)); statements.append(createResultCalculation(typeNode, longToIntForHashCode(maker, maker.Ident(dollarFieldName), maker.Ident(dollarFieldName)))); } break; default: case BYTE: case SHORT: case INT: case CHAR: /* just the field */ statements.append(createResultCalculation(typeNode, fieldAccessor)); break; } } else if (fType instanceof JCArrayTypeTree) { /* java.util.Arrays.deepHashCode(this.fieldName) //use just hashCode() for primitive arrays. */ boolean multiDim = ((JCArrayTypeTree) fType).elemtype instanceof JCArrayTypeTree; boolean primitiveArray = ((JCArrayTypeTree) fType).elemtype instanceof JCPrimitiveTypeTree; boolean useDeepHC = multiDim || !primitiveArray; JCExpression hcMethod = chainDots(typeNode, "java", "util", "Arrays", useDeepHC ? "deepHashCode" : "hashCode"); statements.append(createResultCalculation(typeNode, maker.Apply(List.nil(), hcMethod, List.of(fieldAccessor)))); } else /* objects */ { /* final java.lang.Object $fieldName = this.fieldName; */ /* ($fieldName == null ? NULL_PRIME : $fieldName.hashCode()) */ Name dollarFieldName = dollar.append(((JCVariableDecl) fieldNode.get()).name); statements.append(maker.VarDef(maker.Modifiers(finalFlag), dollarFieldName, genJavaLangTypeRef(typeNode, "Object"), fieldAccessor)); JCExpression hcCall = maker.Apply(List.nil(), maker.Select(maker.Ident(dollarFieldName), typeNode.toName("hashCode")), List.nil()); JCExpression thisEqualsNull = maker.Binary(CTC_EQUAL, maker.Ident(dollarFieldName), maker.Literal(CTC_BOT, null)); statements.append(createResultCalculation(typeNode, maker.Parens(maker.Conditional(thisEqualsNull, maker.Literal(HandlerUtil.primeForNull()), hcCall)))); } } /* return result; */ { statements.append(maker.Return(maker.Ident(resultName))); } JCBlock body = maker.Block(0, statements.toList()); return recursiveSetGeneratedBy(maker.MethodDef(mods, typeNode.toName("hashCode"), returnType, List.nil(), List.nil(), List.nil(), body, null), source, typeNode.getContext()); } public JCExpressionStatement createResultCalculation(JavacNode typeNode, JCExpression expr) { /* result = result * PRIME + expr; */ JavacTreeMaker maker = typeNode.getTreeMaker(); Name resultName = typeNode.toName(RESULT_NAME); JCExpression mult = maker.Binary(CTC_MUL, maker.Ident(resultName), maker.Ident(typeNode.toName(PRIME_NAME))); JCExpression add = maker.Binary(CTC_PLUS, mult, expr); return maker.Exec(maker.Assign(maker.Ident(resultName), add)); } /** The 2 references must be clones of each other. */ public JCExpression longToIntForHashCode(JavacTreeMaker maker, JCExpression ref1, JCExpression ref2) { /* (int) (ref >>> 32 ^ ref) */ JCExpression shift = maker.Binary(CTC_UNSIGNED_SHIFT_RIGHT, ref1, maker.Literal(32)); JCExpression xorBits = maker.Binary(CTC_BITXOR, shift, ref2); return maker.TypeCast(maker.TypeIdent(CTC_INT), maker.Parens(xorBits)); } public JCExpression createTypeReference(JavacNode type, boolean addWildcards) { java.util.List list = new ArrayList(); list.add(type.getName()); JavacNode tNode = type.up(); while (tNode != null && tNode.getKind() == Kind.TYPE) { list.add(tNode.getName()); tNode = tNode.up(); } Collections.reverse(list); JCClassDecl typeDecl = (JCClassDecl) type.get(); JavacTreeMaker maker = type.getTreeMaker(); JCExpression chain = maker.Ident(type.toName(list.get(0))); for (int i = 1; i < list.size(); i++) { chain = maker.Select(chain, type.toName(list.get(i))); } if (!addWildcards || typeDecl.typarams.length() == 0) return chain; ListBuffer wildcards = new ListBuffer(); for (int i = 0 ; i < typeDecl.typarams.length() ; i++) { wildcards.append(maker.Wildcard(maker.TypeBoundKind(BoundKind.UNBOUND), null)); } return maker.TypeApply(chain, wildcards.toList()); } public JCMethodDecl createEquals(JavacNode typeNode, List fields, boolean callSuper, FieldAccess fieldAccess, boolean needsCanEqual, JCTree source, List onParam) { JavacTreeMaker maker = typeNode.getTreeMaker(); Name oName = typeNode.toName("o"); Name otherName = typeNode.toName("other"); Name thisName = typeNode.toName("this"); JCAnnotation overrideAnnotation = maker.Annotation(genJavaLangTypeRef(typeNode, "Override"), List.nil()); JCModifiers mods = maker.Modifiers(Flags.PUBLIC, List.of(overrideAnnotation)); JCExpression objectType = genJavaLangTypeRef(typeNode, "Object"); JCExpression returnType = maker.TypeIdent(CTC_BOOLEAN); long finalFlag = JavacHandlerUtil.addFinalIfNeeded(0L, typeNode.getContext()); ListBuffer statements = new ListBuffer(); final List params = List.of(maker.VarDef(maker.Modifiers(finalFlag | Flags.PARAMETER, onParam), oName, objectType, null)); /* if (o == this) return true; */ { statements.append(maker.If(maker.Binary(CTC_EQUAL, maker.Ident(oName), maker.Ident(thisName)), returnBool(maker, true), null)); } /* if (!(o instanceof Outer.Inner.MyType)) return false; */ { JCUnary notInstanceOf = maker.Unary(CTC_NOT, maker.Parens(maker.TypeTest(maker.Ident(oName), createTypeReference(typeNode, false)))); statements.append(maker.If(notInstanceOf, returnBool(maker, false), null)); } /* Outer.Inner.MyType other = (Outer.Inner.MyType) o; */ { if (!fields.isEmpty() || needsCanEqual) { final JCExpression selfType1 = createTypeReference(typeNode, true), selfType2 = createTypeReference(typeNode, true); statements.append( maker.VarDef(maker.Modifiers(finalFlag), otherName, selfType1, maker.TypeCast(selfType2, maker.Ident(oName)))); } } /* if (!other.canEqual((java.lang.Object) this)) return false; */ { if (needsCanEqual) { List exprNil = List.nil(); JCExpression thisRef = maker.Ident(thisName); JCExpression castThisRef = maker.TypeCast(genJavaLangTypeRef(typeNode, "Object"), thisRef); JCExpression equalityCheck = maker.Apply(exprNil, maker.Select(maker.Ident(otherName), typeNode.toName("canEqual")), List.of(castThisRef)); statements.append(maker.If(maker.Unary(CTC_NOT, equalityCheck), returnBool(maker, false), null)); } } /* if (!super.equals(o)) return false; */ if (callSuper) { JCMethodInvocation callToSuper = maker.Apply(List.nil(), maker.Select(maker.Ident(typeNode.toName("super")), typeNode.toName("equals")), List.of(maker.Ident(oName))); JCUnary superNotEqual = maker.Unary(CTC_NOT, callToSuper); statements.append(maker.If(superNotEqual, returnBool(maker, false), null)); } Name thisDollar = typeNode.toName("this$"); Name otherDollar = typeNode.toName("other$"); for (JavacNode fieldNode : fields) { JCExpression fType = getFieldType(fieldNode, fieldAccess); JCExpression thisFieldAccessor = createFieldAccessor(maker, fieldNode, fieldAccess); JCExpression otherFieldAccessor = createFieldAccessor(maker, fieldNode, fieldAccess, maker.Ident(otherName)); if (fType instanceof JCPrimitiveTypeTree) { switch (((JCPrimitiveTypeTree)fType).getPrimitiveTypeKind()) { case FLOAT: /* if (Float.compare(this.fieldName, other.fieldName) != 0) return false; */ statements.append(generateCompareFloatOrDouble(thisFieldAccessor, otherFieldAccessor, maker, typeNode, false)); break; case DOUBLE: /* if (Double.compare(this.fieldName, other.fieldName) != 0) return false; */ statements.append(generateCompareFloatOrDouble(thisFieldAccessor, otherFieldAccessor, maker, typeNode, true)); break; default: /* if (this.fieldName != other.fieldName) return false; */ statements.append( maker.If(maker.Binary(CTC_NOT_EQUAL, thisFieldAccessor, otherFieldAccessor), returnBool(maker, false), null)); break; } } else if (fType instanceof JCArrayTypeTree) { /* if (!java.util.Arrays.deepEquals(this.fieldName, other.fieldName)) return false; //use equals for primitive arrays. */ boolean multiDim = ((JCArrayTypeTree) fType).elemtype instanceof JCArrayTypeTree; boolean primitiveArray = ((JCArrayTypeTree) fType).elemtype instanceof JCPrimitiveTypeTree; boolean useDeepEquals = multiDim || !primitiveArray; JCExpression eqMethod = chainDots(typeNode, "java", "util", "Arrays", useDeepEquals ? "deepEquals" : "equals"); List args = List.of(thisFieldAccessor, otherFieldAccessor); statements.append(maker.If(maker.Unary(CTC_NOT, maker.Apply(List.nil(), eqMethod, args)), returnBool(maker, false), null)); } else /* objects */ { /* final java.lang.Object this$fieldName = this.fieldName; */ /* final java.lang.Object other$fieldName = other.fieldName; */ /* if (this$fieldName == null ? other$fieldName != null : !this$fieldName.equals(other$fieldName)) return false; */ Name fieldName = ((JCVariableDecl) fieldNode.get()).name; Name thisDollarFieldName = thisDollar.append(fieldName); Name otherDollarFieldName = otherDollar.append(fieldName); statements.append(maker.VarDef(maker.Modifiers(finalFlag), thisDollarFieldName, genJavaLangTypeRef(typeNode, "Object"), thisFieldAccessor)); statements.append(maker.VarDef(maker.Modifiers(finalFlag), otherDollarFieldName, genJavaLangTypeRef(typeNode, "Object"), otherFieldAccessor)); JCExpression thisEqualsNull = maker.Binary(CTC_EQUAL, maker.Ident(thisDollarFieldName), maker.Literal(CTC_BOT, null)); JCExpression otherNotEqualsNull = maker.Binary(CTC_NOT_EQUAL, maker.Ident(otherDollarFieldName), maker.Literal(CTC_BOT, null)); JCExpression thisEqualsThat = maker.Apply(List.nil(), maker.Select(maker.Ident(thisDollarFieldName), typeNode.toName("equals")), List.of(maker.Ident(otherDollarFieldName))); JCExpression fieldsAreNotEqual = maker.Conditional(thisEqualsNull, otherNotEqualsNull, maker.Unary(CTC_NOT, thisEqualsThat)); statements.append(maker.If(fieldsAreNotEqual, returnBool(maker, false), null)); } } /* return true; */ { statements.append(returnBool(maker, true)); } JCBlock body = maker.Block(0, statements.toList()); return recursiveSetGeneratedBy(maker.MethodDef(mods, typeNode.toName("equals"), returnType, List.nil(), params, List.nil(), body, null), source, typeNode.getContext()); } public JCMethodDecl createCanEqual(JavacNode typeNode, JCTree source, List onParam) { /* protected boolean canEqual(final java.lang.Object other) { * return other instanceof Outer.Inner.MyType; * } */ JavacTreeMaker maker = typeNode.getTreeMaker(); JCModifiers mods = maker.Modifiers(Flags.PROTECTED, List.nil()); JCExpression returnType = maker.TypeIdent(CTC_BOOLEAN); Name canEqualName = typeNode.toName("canEqual"); JCExpression objectType = genJavaLangTypeRef(typeNode, "Object"); Name otherName = typeNode.toName("other"); long flags = JavacHandlerUtil.addFinalIfNeeded(Flags.PARAMETER, typeNode.getContext()); List params = List.of(maker.VarDef(maker.Modifiers(flags, onParam), otherName, objectType, null)); JCBlock body = maker.Block(0, List.of( maker.Return(maker.TypeTest(maker.Ident(otherName), createTypeReference(typeNode, false))))); return recursiveSetGeneratedBy(maker.MethodDef(mods, canEqualName, returnType, List.nil(), params, List.nil(), body, null), source, typeNode.getContext()); } public JCStatement generateCompareFloatOrDouble(JCExpression thisDotField, JCExpression otherDotField, JavacTreeMaker maker, JavacNode node, boolean isDouble) { /* if (Float.compare(fieldName, other.fieldName) != 0) return false; */ JCExpression clazz = genJavaLangTypeRef(node, isDouble ? "Double" : "Float"); List args = List.of(thisDotField, otherDotField); JCBinary compareCallEquals0 = maker.Binary(CTC_NOT_EQUAL, maker.Apply( List.nil(), maker.Select(clazz, node.toName("compare")), args), maker.Literal(0)); return maker.If(compareCallEquals0, returnBool(maker, false), null); } public JCStatement returnBool(JavacTreeMaker maker, boolean bool) { return maker.Return(maker.Literal(CTC_BOOLEAN, bool ? 1 : 0)); } }