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/*
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* Copyright 2000-2014 JetBrains s.r.o.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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package org.jetbrains.java.decompiler.main;
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import org.jetbrains.java.decompiler.code.CodeConstants;
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import org.jetbrains.java.decompiler.main.collectors.BytecodeSourceMapper;
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import org.jetbrains.java.decompiler.main.collectors.CounterContainer;
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import org.jetbrains.java.decompiler.main.collectors.ImportCollector;
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import org.jetbrains.java.decompiler.main.extern.IFernflowerLogger;
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import org.jetbrains.java.decompiler.main.extern.IFernflowerPreferences;
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import org.jetbrains.java.decompiler.main.extern.IIdentifierRenamer;
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import org.jetbrains.java.decompiler.main.rels.ClassWrapper;
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import org.jetbrains.java.decompiler.main.rels.LambdaProcessor;
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import org.jetbrains.java.decompiler.main.rels.NestedClassProcessor;
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import org.jetbrains.java.decompiler.main.rels.NestedMemberAccess;
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import org.jetbrains.java.decompiler.modules.decompiler.exps.InvocationExprent;
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import org.jetbrains.java.decompiler.modules.decompiler.vars.VarVersionPaar;
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import org.jetbrains.java.decompiler.struct.StructClass;
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import org.jetbrains.java.decompiler.struct.StructContext;
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import org.jetbrains.java.decompiler.struct.StructMethod;
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import org.jetbrains.java.decompiler.struct.attr.StructInnerClassesAttribute;
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import org.jetbrains.java.decompiler.struct.gen.VarType;
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import org.jetbrains.java.decompiler.util.InterpreterUtil;
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import java.io.IOException;
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import java.util.*;
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import java.util.Map.Entry;
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public class ClassesProcessor {
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public static final int AVERAGE_CLASS_SIZE = 16 * 1024;
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private Map<String, ClassNode> mapRootClasses = new HashMap<String, ClassNode>();
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public ClassesProcessor(StructContext context) {
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HashMap<String, Object[]> mapInnerClasses = new HashMap<String, Object[]>();
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HashMap<String, HashSet<String>> mapNestedClassReferences = new HashMap<String, HashSet<String>>();
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HashMap<String, HashSet<String>> mapEnclosingClassReferences = new HashMap<String, HashSet<String>>();
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HashMap<String, String> mapNewSimpleNames = new HashMap<String, String>();
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boolean bDecompileInner = DecompilerContext.getOption(IFernflowerPreferences.DECOMPILE_INNER);
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// create class nodes
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for (StructClass cl : context.getClasses().values()) {
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if (cl.isOwn() && !mapRootClasses.containsKey(cl.qualifiedName)) {
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if (bDecompileInner) {
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StructInnerClassesAttribute inner = (StructInnerClassesAttribute)cl.getAttributes().getWithKey("InnerClasses");
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if (inner != null) {
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for (int i = 0; i < inner.getClassEntries().size(); i++) {
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int[] entry = inner.getClassEntries().get(i);
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String[] strentry = inner.getStringEntries().get(i);
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Object[] arr = new Object[4]; // arr[0] not used
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String innername = strentry[0];
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// nested class type
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arr[2] = entry[1] == 0 ? (entry[2] == 0 ? ClassNode.CLASS_ANONYMOUS : ClassNode.CLASS_LOCAL) : ClassNode.CLASS_MEMBER;
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// original simple name
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String simpleName = strentry[2];
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String savedName = mapNewSimpleNames.get(innername);
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if (savedName != null) {
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simpleName = savedName;
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}
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else if (simpleName != null && DecompilerContext.getOption(IFernflowerPreferences.RENAME_ENTITIES)) {
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IIdentifierRenamer renamer = DecompilerContext.getPoolInterceptor().getHelper();
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if (renamer.toBeRenamed(IIdentifierRenamer.ELEMENT_CLASS, simpleName, null, null)) {
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simpleName = renamer.getNextClassname(innername, simpleName);
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mapNewSimpleNames.put(innername, simpleName);
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}
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}
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arr[1] = simpleName;
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// original access flags
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arr[3] = entry[3];
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// enclosing class
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String enclClassName;
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if (entry[1] != 0) {
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enclClassName = strentry[1];
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}
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else {
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enclClassName = cl.qualifiedName;
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}
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if (!innername.equals(enclClassName)) { // self reference
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StructClass enclosing_class = context.getClasses().get(enclClassName);
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if (enclosing_class != null && enclosing_class.isOwn()) { // own classes only
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Object[] arrold = mapInnerClasses.get(innername);
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if (arrold == null) {
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mapInnerClasses.put(innername, arr);
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}
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else if (!InterpreterUtil.equalObjectArrays(arrold, arr)) {
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String message = "Inconsistent inner class entries for " + innername + "!";
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DecompilerContext.getLogger().writeMessage(message, IFernflowerLogger.Severity.WARN);
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}
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// reference to the nested class
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HashSet<String> set = mapNestedClassReferences.get(enclClassName);
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if (set == null) {
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mapNestedClassReferences.put(enclClassName, set = new HashSet<String>());
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}
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set.add(innername);
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// reference to the enclosing class
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set = mapEnclosingClassReferences.get(innername);
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if (set == null) {
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mapEnclosingClassReferences.put(innername, set = new HashSet<String>());
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}
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set.add(enclClassName);
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}
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}
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}
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}
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}
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ClassNode node = new ClassNode(ClassNode.CLASS_ROOT, cl);
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node.access = cl.getAccessFlags();
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mapRootClasses.put(cl.qualifiedName, node);
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}
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}
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if (bDecompileInner) {
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// connect nested classes
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for (Entry<String, ClassNode> ent : mapRootClasses.entrySet()) {
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// root class?
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if (!mapInnerClasses.containsKey(ent.getKey())) {
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HashSet<String> setVisited = new HashSet<String>();
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LinkedList<String> stack = new LinkedList<String>();
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stack.add(ent.getKey());
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setVisited.add(ent.getKey());
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while (!stack.isEmpty()) {
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String superClass = stack.removeFirst();
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ClassNode supernode = mapRootClasses.get(superClass);
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HashSet<String> setNestedClasses = mapNestedClassReferences.get(superClass);
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if (setNestedClasses != null) {
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StructClass scl = supernode.classStruct;
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StructInnerClassesAttribute inner = (StructInnerClassesAttribute)scl.getAttributes().getWithKey("InnerClasses");
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for (int i = 0; i < inner.getStringEntries().size(); i++) {
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String nestedClass = inner.getStringEntries().get(i)[0];
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if (!setNestedClasses.contains(nestedClass)) {
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continue;
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}
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if (!setVisited.add(nestedClass)) {
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continue;
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}
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ClassNode nestednode = mapRootClasses.get(nestedClass);
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if (nestednode == null) {
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DecompilerContext.getLogger().writeMessage("Nested class " + nestedClass + " missing!", IFernflowerLogger.Severity.WARN);
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continue;
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}
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Object[] arr = mapInnerClasses.get(nestedClass);
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//if ((Integer)arr[2] == ClassNode.CLASS_MEMBER) {
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// FIXME: check for consistent naming
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//}
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nestednode.type = (Integer)arr[2];
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nestednode.simpleName = (String)arr[1];
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nestednode.access = (Integer)arr[3];
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if (nestednode.type == ClassNode.CLASS_ANONYMOUS) {
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StructClass cl = nestednode.classStruct;
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// remove static if anonymous class
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// a common compiler bug
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nestednode.access &= ~CodeConstants.ACC_STATIC;
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int[] interfaces = cl.getInterfaces();
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if (interfaces.length > 0) {
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if (interfaces.length > 1) {
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String message = "Inconsistent anonymous class definition: " + cl.qualifiedName;
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DecompilerContext.getLogger().writeMessage(message, IFernflowerLogger.Severity.WARN);
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}
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nestednode.anonymousClassType = new VarType(cl.getInterface(0), true);
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}
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else {
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nestednode.anonymousClassType = new VarType(cl.superClass.getString(), true);
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}
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}
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else if (nestednode.type == ClassNode.CLASS_LOCAL) {
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// only abstract and final are permitted
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// a common compiler bug
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nestednode.access &= (CodeConstants.ACC_ABSTRACT | CodeConstants.ACC_FINAL);
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}
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supernode.nested.add(nestednode);
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nestednode.parent = supernode;
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nestednode.enclosingClasses.addAll(mapEnclosingClassReferences.get(nestedClass));
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stack.add(nestedClass);
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}
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}
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}
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}
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}
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}
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}
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public void writeClass(StructClass cl, TextBuffer buffer) throws IOException {
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ClassNode root = mapRootClasses.get(cl.qualifiedName);
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if (root.type != ClassNode.CLASS_ROOT) {
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return;
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}
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DecompilerContext.getLogger().startReadingClass(cl.qualifiedName);
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try {
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ImportCollector importCollector = new ImportCollector(root);
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DecompilerContext.setImportCollector(importCollector);
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DecompilerContext.setCounterContainer(new CounterContainer());
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DecompilerContext.setBytecodeSourceMapper(new BytecodeSourceMapper());
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new LambdaProcessor().processClass(root);
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// add simple class names to implicit import
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addClassnameToImport(root, importCollector);
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// build wrappers for all nested classes (that's where actual processing takes place)
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initWrappers(root);
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new NestedClassProcessor().processClass(root, root);
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new NestedMemberAccess().propagateMemberAccess(root);
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TextBuffer classBuffer = new TextBuffer(AVERAGE_CLASS_SIZE);
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new ClassWriter().classToJava(root, classBuffer, 0);
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String lineSeparator = DecompilerContext.getNewLineSeparator();
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int total_offset_lines = 0;
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int index = cl.qualifiedName.lastIndexOf("/");
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if (index >= 0) {
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total_offset_lines+=2;
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String packageName = cl.qualifiedName.substring(0, index).replace('/', '.');
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buffer.append("package ");
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buffer.append(packageName);
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buffer.append(";");
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buffer.append(lineSeparator);
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buffer.append(lineSeparator);
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}
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int import_lines_written = importCollector.writeImports(buffer);
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if (import_lines_written > 0) {
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buffer.append(lineSeparator);
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total_offset_lines += import_lines_written + 1;
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}
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//buffer.append(lineSeparator);
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buffer.append(classBuffer);
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if(DecompilerContext.getOption(IFernflowerPreferences.BYTECODE_SOURCE_MAPPING)) {
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BytecodeSourceMapper mapper = DecompilerContext.getBytecodeSourceMapper();
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mapper.addTotalOffset(total_offset_lines);
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buffer.append(lineSeparator);
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mapper.dumpMapping(buffer);
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}
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}
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finally {
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destroyWrappers(root);
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DecompilerContext.getLogger().endReadingClass();
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}
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}
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private static void initWrappers(ClassNode node) throws IOException {
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if (node.type == ClassNode.CLASS_LAMBDA) {
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return;
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}
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ClassWrapper wrapper = new ClassWrapper(node.classStruct);
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wrapper.init();
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node.wrapper = wrapper;
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for (ClassNode nd : node.nested) {
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initWrappers(nd);
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}
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}
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private static void addClassnameToImport(ClassNode node, ImportCollector imp) {
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if (node.simpleName != null && node.simpleName.length() > 0) {
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imp.getShortName(node.type == ClassNode.CLASS_ROOT ? node.classStruct.qualifiedName : node.simpleName, false);
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}
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for (ClassNode nd : node.nested) {
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addClassnameToImport(nd, imp);
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}
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}
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private static void destroyWrappers(ClassNode node) {
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node.wrapper = null;
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node.classStruct.releaseResources();
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for (ClassNode nd : node.nested) {
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destroyWrappers(nd);
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}
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}
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public Map<String, ClassNode> getMapRootClasses() {
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return mapRootClasses;
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}
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public static class ClassNode {
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public static final int CLASS_ROOT = 0;
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public static final int CLASS_MEMBER = 1;
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public static final int CLASS_ANONYMOUS = 2;
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public static final int CLASS_LOCAL = 4;
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public static final int CLASS_LAMBDA = 8;
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public int type;
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public int access;
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public String simpleName;
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public StructClass classStruct;
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public ClassWrapper wrapper;
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public String enclosingMethod;
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public InvocationExprent superInvocation;
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public HashMap<String, VarVersionPaar> mapFieldsToVars = new HashMap<String, VarVersionPaar>();
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public VarType anonymousClassType;
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public List<ClassNode> nested = new ArrayList<ClassNode>();
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public Set<String> enclosingClasses = new HashSet<String>();
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public ClassNode parent;
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public LambdaInformation lambda_information;
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public ClassNode(String content_class_name,
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String content_method_name,
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String content_method_descriptor,
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int content_method_invocation_type,
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String lambda_class_name,
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String lambda_method_name,
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String lambda_method_descriptor,
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StructClass classStruct) { // lambda class constructor
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this.type = CLASS_LAMBDA;
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this.classStruct = classStruct; // 'parent' class containing the static function
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lambda_information = new LambdaInformation();
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lambda_information.class_name = lambda_class_name;
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lambda_information.method_name = lambda_method_name;
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lambda_information.method_descriptor = lambda_method_descriptor;
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lambda_information.content_class_name = content_class_name;
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lambda_information.content_method_name = content_method_name;
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lambda_information.content_method_descriptor = content_method_descriptor;
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lambda_information.content_method_invocation_type = content_method_invocation_type;
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lambda_information.content_method_key =
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InterpreterUtil.makeUniqueKey(lambda_information.content_method_name, lambda_information.content_method_descriptor);
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anonymousClassType = new VarType(lambda_class_name, true);
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boolean is_method_reference = (content_class_name != classStruct.qualifiedName);
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if (!is_method_reference) { // content method in the same class, check synthetic flag
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StructMethod mt = classStruct.getMethod(content_method_name, content_method_descriptor);
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is_method_reference = !mt.isSynthetic(); // if not synthetic -> method reference
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}
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lambda_information.is_method_reference = is_method_reference;
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lambda_information.is_content_method_static =
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(lambda_information.content_method_invocation_type == CodeConstants.CONSTANT_MethodHandle_REF_invokeStatic); // FIXME: redundant?
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}
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public ClassNode(int type, StructClass classStruct) {
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this.type = type;
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this.classStruct = classStruct;
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simpleName = classStruct.qualifiedName.substring(classStruct.qualifiedName.lastIndexOf('/') + 1);
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}
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public ClassNode getClassNode(String qualifiedName) {
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for (ClassNode node : nested) {
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if (qualifiedName.equals(node.classStruct.qualifiedName)) {
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return node;
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}
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}
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return null;
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}
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public static class LambdaInformation {
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public String class_name;
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public String method_name;
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public String method_descriptor;
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public String content_class_name;
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public String content_method_name;
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public String content_method_descriptor;
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public int content_method_invocation_type; // values from CONSTANT_MethodHandle_REF_*
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public String content_method_key;
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public boolean is_method_reference;
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public boolean is_content_method_static;
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}
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}
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}
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