/* * Copyright (c) 2013, 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 jdk.vm.ci.options.processor; import java.io.*; import java.util.*; import javax.annotation.processing.*; import javax.lang.model.*; import javax.lang.model.element.*; import javax.lang.model.type.*; import javax.lang.model.util.*; import javax.tools.Diagnostic.Kind; import jdk.vm.ci.options.*; import javax.tools.*; /** * Processes static fields annotated with {@link Option}. An {@link OptionDescriptors} * implementation is generated for each top level class containing at least one such field. The name * of the generated class for top level class {@code com.foo.Bar} is * {@code com.foo.Bar_OptionDescriptors}. */ @SupportedAnnotationTypes({"jdk.vm.ci.options.Option"}) public class OptionProcessor extends AbstractProcessor { @Override public SourceVersion getSupportedSourceVersion() { return SourceVersion.latest(); } private final Set processed = new HashSet<>(); private void processElement(Element element, OptionsInfo info) { if (!element.getModifiers().contains(Modifier.STATIC)) { processingEnv.getMessager().printMessage(Kind.ERROR, "Option field must be static", element); return; } Option annotation = element.getAnnotation(Option.class); assert annotation != null; assert element instanceof VariableElement; assert element.getKind() == ElementKind.FIELD; VariableElement field = (VariableElement) element; String fieldName = field.getSimpleName().toString(); Elements elements = processingEnv.getElementUtils(); Types types = processingEnv.getTypeUtils(); TypeMirror fieldType = field.asType(); if (fieldType.getKind() != TypeKind.DECLARED) { processingEnv.getMessager().printMessage(Kind.ERROR, "Option field must be of type " + OptionValue.class.getName(), element); return; } DeclaredType declaredFieldType = (DeclaredType) fieldType; TypeMirror optionValueType = elements.getTypeElement(OptionValue.class.getName()).asType(); if (!types.isSubtype(fieldType, types.erasure(optionValueType))) { String msg = String.format("Option field type %s is not a subclass of %s", fieldType, optionValueType); processingEnv.getMessager().printMessage(Kind.ERROR, msg, element); return; } if (!field.getModifiers().contains(Modifier.STATIC)) { processingEnv.getMessager().printMessage(Kind.ERROR, "Option field must be static", element); return; } String help = annotation.help(); if (help.length() != 0) { char firstChar = help.charAt(0); if (!Character.isUpperCase(firstChar)) { processingEnv.getMessager().printMessage(Kind.ERROR, "Option help text must start with upper case letter", element); return; } } String optionName = annotation.name(); if (optionName.equals("")) { optionName = fieldName; } DeclaredType declaredOptionValueType = declaredFieldType; while (!types.isSameType(types.erasure(declaredOptionValueType), types.erasure(optionValueType))) { List directSupertypes = types.directSupertypes(declaredFieldType); assert!directSupertypes.isEmpty(); declaredOptionValueType = (DeclaredType) directSupertypes.get(0); } assert!declaredOptionValueType.getTypeArguments().isEmpty(); String optionType = declaredOptionValueType.getTypeArguments().get(0).toString(); if (optionType.startsWith("java.lang.")) { optionType = optionType.substring("java.lang.".length()); } Element enclosing = element.getEnclosingElement(); String declaringClass = ""; String separator = ""; Set originatingElementsList = info.originatingElements; originatingElementsList.add(field); while (enclosing != null) { if (enclosing.getKind() == ElementKind.CLASS || enclosing.getKind() == ElementKind.INTERFACE) { if (enclosing.getModifiers().contains(Modifier.PRIVATE)) { String msg = String.format("Option field cannot be declared in a private %s %s", enclosing.getKind().name().toLowerCase(), enclosing); processingEnv.getMessager().printMessage(Kind.ERROR, msg, element); return; } originatingElementsList.add(enclosing); declaringClass = enclosing.getSimpleName() + separator + declaringClass; separator = "."; } else { assert enclosing.getKind() == ElementKind.PACKAGE; } enclosing = enclosing.getEnclosingElement(); } info.options.add(new OptionInfo(optionName, help, optionType, declaringClass, field)); } private void createFiles(OptionsInfo info) { String pkg = ((PackageElement) info.topDeclaringType.getEnclosingElement()).getQualifiedName().toString(); Name topDeclaringClass = info.topDeclaringType.getSimpleName(); Element[] originatingElements = info.originatingElements.toArray(new Element[info.originatingElements.size()]); createOptionsDescriptorsFile(info, pkg, topDeclaringClass, originatingElements); } private void createOptionsDescriptorsFile(OptionsInfo info, String pkg, Name topDeclaringClass, Element[] originatingElements) { String optionsClassName = topDeclaringClass + "_" + OptionDescriptors.class.getSimpleName(); Filer filer = processingEnv.getFiler(); try (PrintWriter out = createSourceFile(pkg, optionsClassName, filer, originatingElements)) { out.println("// CheckStyle: stop header check"); out.println("// CheckStyle: stop line length check"); out.println("// GENERATED CONTENT - DO NOT EDIT"); out.println("// Source: " + topDeclaringClass + ".java"); out.println("package " + pkg + ";"); out.println(""); out.println("import java.util.*;"); out.println("import " + OptionDescriptors.class.getPackage().getName() + ".*;"); out.println(""); out.println("public class " + optionsClassName + " implements " + OptionDescriptors.class.getSimpleName() + " {"); String desc = OptionDescriptor.class.getSimpleName(); boolean needPrivateFieldAccessor = false; int i = 0; Collections.sort(info.options); out.println(" @Override"); out.println(" public OptionDescriptor get(String value) {"); out.println(" // CheckStyle: stop line length check"); if (info.options.size() == 1) { out.println(" if (value.equals(\"" + info.options.get(0).name + "\")) {"); } else { out.println(" switch (value) {"); } for (OptionInfo option : info.options) { String name = option.name; String optionValue; if (option.field.getModifiers().contains(Modifier.PRIVATE)) { needPrivateFieldAccessor = true; optionValue = "field(" + option.declaringClass + ".class, \"" + option.field.getSimpleName() + "\")"; } else { optionValue = option.declaringClass + "." + option.field.getSimpleName(); } String type = option.type; String help = option.help; String declaringClass = option.declaringClass; Name fieldName = option.field.getSimpleName(); if (info.options.size() == 1) { out.printf(" return %s.create(\"%s\", %s.class, \"%s\", %s.class, \"%s\", %s);\n", desc, name, type, help, declaringClass, fieldName, optionValue); } else { out.printf(" case \"" + name + "\": return %s.create(\"%s\", %s.class, \"%s\", %s.class, \"%s\", %s);\n", desc, name, type, help, declaringClass, fieldName, optionValue); } } out.println(" }"); out.println(" // CheckStyle: resume line length check"); out.println(" return null;"); out.println(" }"); out.println(); out.println(" @Override"); out.println(" public Iterator<" + desc + "> iterator() {"); out.println(" // CheckStyle: stop line length check"); out.println(" List<" + desc + "> options = Arrays.asList("); for (OptionInfo option : info.options) { String optionValue; if (option.field.getModifiers().contains(Modifier.PRIVATE)) { needPrivateFieldAccessor = true; optionValue = "field(" + option.declaringClass + ".class, \"" + option.field.getSimpleName() + "\")"; } else { optionValue = option.declaringClass + "." + option.field.getSimpleName(); } String name = option.name; String type = option.type; String help = option.help; String declaringClass = option.declaringClass; Name fieldName = option.field.getSimpleName(); String comma = i == info.options.size() - 1 ? "" : ","; out.printf(" %s.create(\"%s\", %s.class, \"%s\", %s.class, \"%s\", %s)%s\n", desc, name, type, help, declaringClass, fieldName, optionValue, comma); i++; } out.println(" );"); out.println(" // CheckStyle: resume line length check"); out.println(" return options.iterator();"); out.println(" }"); if (needPrivateFieldAccessor) { out.println(" private static " + OptionValue.class.getSimpleName() + " field(Class declaringClass, String fieldName) {"); out.println(" try {"); out.println(" java.lang.reflect.Field field = declaringClass.getDeclaredField(fieldName);"); out.println(" field.setAccessible(true);"); out.println(" return (" + OptionValue.class.getSimpleName() + ") field.get(null);"); out.println(" } catch (Exception e) {"); out.println(" throw (InternalError) new InternalError().initCause(e);"); out.println(" }"); out.println(" }"); } out.println("}"); } try { createOptionsFile(pkg, topDeclaringClass.toString(), originatingElements); } catch (IOException e) { processingEnv.getMessager().printMessage(Kind.ERROR, e.getMessage(), info.topDeclaringType); } } private void createOptionsFile(String pkg, String relativeName, Element... originatingElements) throws IOException { String filename = "META-INF/jvmci.options/" + pkg + "." + relativeName; FileObject file = processingEnv.getFiler().createResource(StandardLocation.CLASS_OUTPUT, "", filename, originatingElements); PrintWriter writer = new PrintWriter(new OutputStreamWriter(file.openOutputStream(), "UTF-8")); writer.close(); } protected PrintWriter createSourceFile(String pkg, String relativeName, Filer filer, Element... originatingElements) { try { // Ensure Unix line endings to comply with code style guide checked by Checkstyle JavaFileObject sourceFile = filer.createSourceFile(pkg + "." + relativeName, originatingElements); return new PrintWriter(sourceFile.openWriter()) { @Override public void println() { print("\n"); } }; } catch (IOException e) { throw new RuntimeException(e); } } static class OptionInfo implements Comparable { final String name; final String help; final String type; final String declaringClass; final VariableElement field; public OptionInfo(String name, String help, String type, String declaringClass, VariableElement field) { this.name = name; this.help = help; this.type = type; this.declaringClass = declaringClass; this.field = field; } @Override public int compareTo(OptionInfo other) { return name.compareTo(other.name); } @Override public String toString() { return declaringClass + "." + field; } } static class OptionsInfo { final Element topDeclaringType; final List options = new ArrayList<>(); final Set originatingElements = new HashSet<>(); public OptionsInfo(Element topDeclaringType) { this.topDeclaringType = topDeclaringType; } } private static Element topDeclaringType(Element element) { Element enclosing = element.getEnclosingElement(); if (enclosing == null || enclosing.getKind() == ElementKind.PACKAGE) { assert element.getKind() == ElementKind.CLASS || element.getKind() == ElementKind.INTERFACE; return element; } return topDeclaringType(enclosing); } @Override public boolean process(Set annotations, RoundEnvironment roundEnv) { if (roundEnv.processingOver()) { return true; } Map map = new HashMap<>(); for (Element element : roundEnv.getElementsAnnotatedWith(Option.class)) { if (!processed.contains(element)) { processed.add(element); Element topDeclaringType = topDeclaringType(element); OptionsInfo options = map.get(topDeclaringType); if (options == null) { options = new OptionsInfo(topDeclaringType); map.put(topDeclaringType, options); } processElement(element, options); } } boolean ok = true; Map uniqueness = new HashMap<>(); for (OptionsInfo info : map.values()) { for (OptionInfo option : info.options) { OptionInfo conflict = uniqueness.put(option.name, option); if (conflict != null) { processingEnv.getMessager().printMessage(Kind.ERROR, "Duplicate option names for " + option + " and " + conflict, option.field); ok = false; } } } if (ok) { for (OptionsInfo info : map.values()) { createFiles(info); } } return true; } }