Mercurial > hg > graal-compiler
view graal/com.oracle.truffle.codegen.processor/src/com/oracle/truffle/codegen/processor/typesystem/TypeSystemParser.java @ 7504:d295ab2902fb
Removed debug log output.
author | Christian Humer <christian.humer@gmail.com> |
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date | Fri, 18 Jan 2013 13:39:04 +0100 |
parents | 6343a09b2ec1 |
children | 40133ce026c6 |
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/* * Copyright (c) 2012, 2012, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package com.oracle.truffle.codegen.processor.typesystem; import static com.oracle.truffle.codegen.processor.Utils.*; import java.lang.annotation.*; import java.util.*; import javax.lang.model.element.*; import javax.lang.model.type.*; import javax.lang.model.util.*; import com.oracle.truffle.api.codegen.*; import com.oracle.truffle.codegen.processor.*; import com.oracle.truffle.codegen.processor.template.*; public class TypeSystemParser extends TemplateParser<TypeSystemData> { public TypeSystemParser(ProcessorContext c) { super(c); } @Override public Class< ? extends Annotation> getAnnotationType() { return TypeSystem.class; } @Override protected TypeSystemData parse(Element element, AnnotationMirror mirror) { TypeElement templateType = (TypeElement) element; AnnotationMirror templateTypeAnnotation = mirror; if (!verifyTemplateType(templateType, templateTypeAnnotation)) { return null; } TypeData[] types = parseTypes(templateType, templateTypeAnnotation); if (types == null) { return null; } TypeMirror genericType = context.getType(Object.class); TypeData voidType = new TypeData(templateType, templateTypeAnnotation, context.getType(void.class), context.getType(Void.class)); TypeSystemData typeSystem = new TypeSystemData(templateType, templateTypeAnnotation, types, genericType, voidType); if (!verifyExclusiveMethodAnnotation(templateType, TypeCast.class, TypeCheck.class)) { return null; } List<Element> elements = new ArrayList<>(context.getEnvironment().getElementUtils().getAllMembers(templateType)); typeSystem.setExtensionElements(getExtensionParser().parseAll(templateType, elements)); if (typeSystem.getExtensionElements() != null) { elements.addAll(typeSystem.getExtensionElements()); } List<TypeCastData> casts = new TypeCastParser(context, typeSystem).parse(elements); List<TypeCheckData> checks = new TypeCheckParser(context, typeSystem).parse(elements); if (casts == null || checks == null) { return null; } for (TypeCheckData check : checks) { check.getCheckedType().addTypeCheck(check); } for (TypeCastData cast : casts) { cast.getTargetType().addTypeCast(cast); } if (!verifyGenericTypeChecksAndCasts(types)) { return null; } if (!verifyMethodSignatures(element, types)) { return null; } if (!verifyNamesUnique(templateType, templateTypeAnnotation, types)) { return null; } return typeSystem; } private boolean verifyGenericTypeChecksAndCasts(TypeData[] types) { boolean valid = true; for (TypeData type : types) { if (!type.getTypeChecks().isEmpty()) { boolean hasGeneric = false; for (TypeCheckData typeCheck : type.getTypeChecks()) { if (typeCheck.isGeneric()) { hasGeneric = true; break; } } if (!hasGeneric) { log.error(type.getTypeSystem().getTemplateType(), "No generic but specific @%s method %s for type %s specified. " + "Specify a generic @%s method with parameter type %s to resolve this.", TypeCheck.class.getSimpleName(), TypeSystemCodeGenerator.isTypeMethodName(type), Utils.getSimpleName(type.getBoxedType()), TypeCheck.class.getSimpleName(), Object.class.getSimpleName()); valid = false; } } if (!type.getTypeCasts().isEmpty()) { boolean hasGeneric = false; for (TypeCastData typeCast : type.getTypeCasts()) { if (typeCast.isGeneric()) { hasGeneric = true; break; } } if (!hasGeneric) { log.error(type.getTypeSystem().getTemplateType(), "No generic but specific @%s method %s for type %s specified. " + "Specify a generic @%s method with parameter type %s to resolve this.", TypeCast.class.getSimpleName(), TypeSystemCodeGenerator.asTypeMethodName(type), Utils.getSimpleName(type.getBoxedType()), TypeCast.class.getSimpleName(), Object.class.getSimpleName()); valid = false; } } } return valid; } private TypeData[] parseTypes(TypeElement templateType, AnnotationMirror templateTypeAnnotation) { List<TypeMirror> typeMirrors = Utils.getAnnotationValueList(templateTypeAnnotation, "value"); if (typeMirrors.size() == 0) { log.error(templateType, templateTypeAnnotation, "At least one type must be defined."); return null; } final AnnotationValue annotationValue = Utils.getAnnotationValue(templateTypeAnnotation, "value"); final TypeMirror objectType = context.getType(Object.class); List<TypeData> types = new ArrayList<>(); for (TypeMirror primitiveType : typeMirrors) { if (isPrimitiveWrapper(primitiveType)) { log.error(templateType, templateTypeAnnotation, annotationValue, "Types must not contain primitive wrapper types."); continue; } TypeMirror boxedType = primitiveType; if (boxedType.getKind().isPrimitive()) { boxedType = processingEnv.getTypeUtils().boxedClass((PrimitiveType) boxedType).asType(); } if (Utils.typeEquals(boxedType, objectType)) { log.error(templateType, templateTypeAnnotation, annotationValue, "Types must not contain the generic type java.lang.Object."); continue; } types.add(new TypeData(templateType, templateTypeAnnotation, primitiveType, boxedType)); } verifyTypeOrder(templateType, templateTypeAnnotation, annotationValue, types); types.add(new TypeData(templateType, templateTypeAnnotation, objectType, objectType)); return types.toArray(new TypeData[types.size()]); } private void verifyTypeOrder(TypeElement templateType, AnnotationMirror templateTypeAnnotation, AnnotationValue annotationValue, List<TypeData> types) { Map<String, List<String>> invalidTypes = new HashMap<>(); for (int i = types.size() - 1; i >= 0; i--) { TypeData typeData = types.get(i); TypeMirror type = typeData.getBoxedType(); if (invalidTypes.containsKey(Utils.getQualifiedName(type))) { log.error(templateType, templateTypeAnnotation, annotationValue, "Invalid type order. The type(s) %s are inherited from a earlier defined type %s.", invalidTypes.get(Utils.getQualifiedName(type)), Utils.getQualifiedName(type)); } List<String> nextInvalidTypes = Utils.getQualifiedSuperTypeNames(Utils.fromTypeMirror(type)); nextInvalidTypes.add(getQualifiedName(type)); for (String qualifiedName : nextInvalidTypes) { List<String> inheritedTypes = invalidTypes.get(qualifiedName); if (inheritedTypes == null) { inheritedTypes = new ArrayList<>(); invalidTypes.put(qualifiedName, inheritedTypes); } inheritedTypes.add(Utils.getQualifiedName(typeData.getBoxedType())); } } } private boolean isPrimitiveWrapper(TypeMirror type) { Types types = context.getEnvironment().getTypeUtils(); for (TypeKind kind : TypeKind.values()) { if (!kind.isPrimitive()) { continue; } if (Utils.typeEquals(type, types.boxedClass(types.getPrimitiveType(kind)).asType())) { return true; } } return false; } private boolean verifyMethodSignatures(Element element, TypeData[] types) { Set<String> generatedIsMethodNames = new HashSet<>(); Set<String> generatedAsMethodNames = new HashSet<>(); Set<String> generatedExpectMethodNames = new HashSet<>(); for (TypeData typeData : types) { generatedIsMethodNames.add(TypeSystemCodeGenerator.isTypeMethodName(typeData)); generatedAsMethodNames.add(TypeSystemCodeGenerator.asTypeMethodName(typeData)); generatedExpectMethodNames.add(TypeSystemCodeGenerator.expectTypeMethodName(typeData)); } boolean valid = true; List<ExecutableElement> methods = ElementFilter.methodsIn(element.getEnclosedElements()); for (ExecutableElement method : methods) { if (method.getModifiers().contains(Modifier.PRIVATE)) { // will not conflict overridden methods continue; } else if (method.getParameters().size() != 1) { continue; } String methodName = method.getSimpleName().toString(); if (generatedIsMethodNames.contains(methodName)) { valid &= verifyIsMethod(method); } else if (generatedAsMethodNames.contains(methodName)) { valid &= verifyAsMethod(method); } else if (generatedExpectMethodNames.contains(methodName)) { valid &= verifyExpectMethod(method); } } return valid; } private boolean verifyIsMethod(ExecutableElement method) { AnnotationMirror mirror = Utils.findAnnotationMirror(processingEnv, method, TypeCheck.class); if (mirror == null) { log.error(method, "Method starting with the pattern is${typeName} must be annotated with @%s.", TypeCheck.class.getSimpleName()); return false; } return true; } private boolean verifyAsMethod(ExecutableElement method) { AnnotationMirror mirror = Utils.findAnnotationMirror(processingEnv, method, TypeCast.class); if (mirror == null) { log.error(method, "Method starting with the pattern as${typeName} must be annotated with @%s.", TypeCast.class.getSimpleName()); return false; } return true; } private boolean verifyExpectMethod(ExecutableElement method) { log.error(method, "Method starting with the pattern expect${typeName} must not be declared manually."); return false; } private boolean verifyNamesUnique(TypeElement templateType, AnnotationMirror templateTypeAnnotation, TypeData[] types) { boolean valid = true; for (int i = 0; i < types.length; i++) { for (int j = i + 1; j < types.length; j++) { String name1 = Utils.getSimpleName(types[i].getBoxedType()); String name2 = Utils.getSimpleName(types[j].getBoxedType()); if (name1.equalsIgnoreCase(name2)) { log.error(templateType, templateTypeAnnotation, "Two types result in the same name: %s, %s.", name1, name2); valid = false; } } } return valid; } }