duke@1: /* jjg@815: * Copyright (c) 1999, 2011, Oracle and/or its affiliates. All rights reserved. duke@1: * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. duke@1: * duke@1: * This code is free software; you can redistribute it and/or modify it duke@1: * under the terms of the GNU General Public License version 2 only, as ohair@554: * published by the Free Software Foundation. Oracle designates this duke@1: * particular file as subject to the "Classpath" exception as provided ohair@554: * by Oracle in the LICENSE file that accompanied this code. duke@1: * duke@1: * This code is distributed in the hope that it will be useful, but WITHOUT duke@1: * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or duke@1: * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License duke@1: * version 2 for more details (a copy is included in the LICENSE file that duke@1: * accompanied this code). duke@1: * duke@1: * You should have received a copy of the GNU General Public License version duke@1: * 2 along with this work; if not, write to the Free Software Foundation, duke@1: * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. duke@1: * ohair@554: * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA ohair@554: * or visit www.oracle.com if you need additional information or have any ohair@554: * questions. duke@1: */ duke@1: duke@1: package com.sun.tools.javac.jvm; duke@1: duke@1: import java.io.*; duke@1: import java.net.URI; jjg@400: import java.net.URISyntaxException; duke@1: import java.nio.CharBuffer; jjg@428: import java.util.Arrays; duke@1: import java.util.EnumSet; duke@1: import java.util.HashMap; jjg@776: import java.util.HashSet; duke@1: import java.util.Map; duke@1: import java.util.Set; duke@1: import javax.lang.model.SourceVersion; duke@1: import javax.tools.JavaFileObject; duke@1: import javax.tools.JavaFileManager; jjg@256: import javax.tools.JavaFileManager.Location; duke@1: import javax.tools.StandardJavaFileManager; duke@1: jjg@256: import static javax.tools.StandardLocation.*; jjg@256: duke@1: import com.sun.tools.javac.comp.Annotate; duke@1: import com.sun.tools.javac.code.*; jjg@776: import com.sun.tools.javac.code.Lint.LintCategory; duke@1: import com.sun.tools.javac.code.Type.*; duke@1: import com.sun.tools.javac.code.Symbol.*; duke@1: import com.sun.tools.javac.code.Symtab; jjg@50: import com.sun.tools.javac.file.BaseFileObject; duke@1: import com.sun.tools.javac.util.*; jjg@776: import com.sun.tools.javac.util.JCDiagnostic.DiagnosticPosition; duke@1: duke@1: import static com.sun.tools.javac.code.Flags.*; duke@1: import static com.sun.tools.javac.code.Kinds.*; duke@1: import static com.sun.tools.javac.code.TypeTags.*; jjg@256: import static com.sun.tools.javac.jvm.ClassFile.*; jjg@256: import static com.sun.tools.javac.jvm.ClassFile.Version.*; duke@1: jjg@700: import static com.sun.tools.javac.main.OptionName.*; jjg@700: duke@1: /** This class provides operations to read a classfile into an internal duke@1: * representation. The internal representation is anchored in a duke@1: * ClassSymbol which contains in its scope symbol representations duke@1: * for all other definitions in the classfile. Top-level Classes themselves duke@1: * appear as members of the scopes of PackageSymbols. duke@1: * jjg@581: *

This is NOT part of any supported API. jjg@581: * If you write code that depends on this, you do so at your own risk. duke@1: * This code and its internal interfaces are subject to change or duke@1: * deletion without notice. duke@1: */ jjg@256: public class ClassReader implements Completer { duke@1: /** The context key for the class reader. */ duke@1: protected static final Context.Key classReaderKey = duke@1: new Context.Key(); duke@1: ksrini@804: public static final int INITIAL_BUFFER_SIZE = 0x0fff0; ksrini@804: duke@1: Annotate annotate; duke@1: duke@1: /** Switch: verbose output. duke@1: */ duke@1: boolean verbose; duke@1: duke@1: /** Switch: check class file for correct minor version, unrecognized duke@1: * attributes. duke@1: */ duke@1: boolean checkClassFile; duke@1: duke@1: /** Switch: read constant pool and code sections. This switch is initially duke@1: * set to false but can be turned on from outside. duke@1: */ duke@1: public boolean readAllOfClassFile = false; duke@1: duke@1: /** Switch: read GJ signature information. duke@1: */ duke@1: boolean allowGenerics; duke@1: duke@1: /** Switch: read varargs attribute. duke@1: */ duke@1: boolean allowVarargs; duke@1: duke@1: /** Switch: allow annotations. duke@1: */ duke@1: boolean allowAnnotations; duke@1: mcimadamore@795: /** Switch: allow simplified varargs. mcimadamore@795: */ mcimadamore@795: boolean allowSimplifiedVarargs; mcimadamore@795: mcimadamore@795: /** Lint option: warn about classfile issues jjg@776: */ jjg@776: boolean lintClassfile; jjg@776: mcimadamore@795: duke@1: /** Switch: preserve parameter names from the variable table. duke@1: */ duke@1: public boolean saveParameterNames; duke@1: duke@1: /** duke@1: * Switch: cache completion failures unless -XDdev is used duke@1: */ duke@1: private boolean cacheCompletionFailure; duke@1: duke@1: /** duke@1: * Switch: prefer source files instead of newer when both source duke@1: * and class are available duke@1: **/ duke@1: public boolean preferSource; duke@1: duke@1: /** The log to use for verbose output duke@1: */ duke@1: final Log log; duke@1: duke@1: /** The symbol table. */ duke@1: Symtab syms; duke@1: duke@1: Types types; duke@1: duke@1: /** The name table. */ jjg@113: final Names names; duke@1: duke@1: /** Force a completion failure on this name duke@1: */ duke@1: final Name completionFailureName; duke@1: duke@1: /** Access to files duke@1: */ duke@1: private final JavaFileManager fileManager; duke@1: jjg@12: /** Factory for diagnostics jjg@12: */ jjg@12: JCDiagnostic.Factory diagFactory; jjg@12: duke@1: /** Can be reassigned from outside: duke@1: * the completer to be used for ".java" files. If this remains unassigned duke@1: * ".java" files will not be loaded. duke@1: */ duke@1: public SourceCompleter sourceCompleter = null; duke@1: duke@1: /** A hashtable containing the encountered top-level and member classes, duke@1: * indexed by flat names. The table does not contain local classes. duke@1: */ duke@1: private Map classes; duke@1: duke@1: /** A hashtable containing the encountered packages. duke@1: */ duke@1: private Map packages; duke@1: duke@1: /** The current scope where type variables are entered. duke@1: */ duke@1: protected Scope typevars; duke@1: duke@1: /** The path name of the class file currently being read. duke@1: */ duke@1: protected JavaFileObject currentClassFile = null; duke@1: duke@1: /** The class or method currently being read. duke@1: */ duke@1: protected Symbol currentOwner = null; duke@1: duke@1: /** The buffer containing the currently read class file. duke@1: */ ksrini@804: byte[] buf = new byte[INITIAL_BUFFER_SIZE]; duke@1: duke@1: /** The current input pointer. duke@1: */ duke@1: int bp; duke@1: duke@1: /** The objects of the constant pool. duke@1: */ duke@1: Object[] poolObj; duke@1: duke@1: /** For every constant pool entry, an index into buf where the duke@1: * defining section of the entry is found. duke@1: */ duke@1: int[] poolIdx; duke@1: jjg@256: /** The major version number of the class file being read. */ jjg@256: int majorVersion; jjg@256: /** The minor version number of the class file being read. */ jjg@256: int minorVersion; jjg@256: jjg@428: /** A table to hold the constant pool indices for method parameter jjg@428: * names, as given in LocalVariableTable attributes. jjg@428: */ jjg@428: int[] parameterNameIndices; jjg@428: jjg@428: /** jjg@428: * Whether or not any parameter names have been found. jjg@428: */ jjg@428: boolean haveParameterNameIndices; jjg@428: jjg@776: /** jjg@776: * The set of attribute names for which warnings have been generated for the current class jjg@776: */ jjg@776: Set warnedAttrs = new HashSet(); jjg@776: duke@1: /** Get the ClassReader instance for this invocation. */ duke@1: public static ClassReader instance(Context context) { duke@1: ClassReader instance = context.get(classReaderKey); duke@1: if (instance == null) duke@1: instance = new ClassReader(context, true); duke@1: return instance; duke@1: } duke@1: duke@1: /** Initialize classes and packages, treating this as the definitive classreader. */ duke@1: public void init(Symtab syms) { duke@1: init(syms, true); duke@1: } duke@1: duke@1: /** Initialize classes and packages, optionally treating this as duke@1: * the definitive classreader. duke@1: */ duke@1: private void init(Symtab syms, boolean definitive) { duke@1: if (classes != null) return; duke@1: duke@1: if (definitive) { jjg@816: Assert.check(packages == null || packages == syms.packages); duke@1: packages = syms.packages; jjg@816: Assert.check(classes == null || classes == syms.classes); duke@1: classes = syms.classes; duke@1: } else { duke@1: packages = new HashMap(); duke@1: classes = new HashMap(); duke@1: } duke@1: duke@1: packages.put(names.empty, syms.rootPackage); duke@1: syms.rootPackage.completer = this; duke@1: syms.unnamedPackage.completer = this; duke@1: } duke@1: duke@1: /** Construct a new class reader, optionally treated as the duke@1: * definitive classreader for this invocation. duke@1: */ duke@1: protected ClassReader(Context context, boolean definitive) { duke@1: if (definitive) context.put(classReaderKey, this); duke@1: jjg@113: names = Names.instance(context); duke@1: syms = Symtab.instance(context); duke@1: types = Types.instance(context); duke@1: fileManager = context.get(JavaFileManager.class); duke@1: if (fileManager == null) duke@1: throw new AssertionError("FileManager initialization error"); jjg@12: diagFactory = JCDiagnostic.Factory.instance(context); duke@1: duke@1: init(syms, definitive); duke@1: log = Log.instance(context); duke@1: duke@1: Options options = Options.instance(context); duke@1: annotate = Annotate.instance(context); jjg@700: verbose = options.isSet(VERBOSE); jjg@700: checkClassFile = options.isSet("-checkclassfile"); duke@1: Source source = Source.instance(context); duke@1: allowGenerics = source.allowGenerics(); duke@1: allowVarargs = source.allowVarargs(); duke@1: allowAnnotations = source.allowAnnotations(); mcimadamore@795: allowSimplifiedVarargs = source.allowSimplifiedVarargs(); jjg@700: saveParameterNames = options.isSet("save-parameter-names"); jjg@700: cacheCompletionFailure = options.isUnset("dev"); duke@1: preferSource = "source".equals(options.get("-Xprefer")); duke@1: duke@1: completionFailureName = jjg@700: options.isSet("failcomplete") duke@1: ? names.fromString(options.get("failcomplete")) duke@1: : null; duke@1: duke@1: typevars = new Scope(syms.noSymbol); jjg@256: jjg@776: lintClassfile = Lint.instance(context).isEnabled(LintCategory.CLASSFILE); jjg@776: jjg@256: initAttributeReaders(); duke@1: } duke@1: duke@1: /** Add member to class unless it is synthetic. duke@1: */ duke@1: private void enterMember(ClassSymbol c, Symbol sym) { duke@1: if ((sym.flags_field & (SYNTHETIC|BRIDGE)) != SYNTHETIC) duke@1: c.members_field.enter(sym); duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Error Diagnoses duke@1: ***********************************************************************/ duke@1: jjg@12: jjg@12: public class BadClassFile extends CompletionFailure { duke@1: private static final long serialVersionUID = 0; duke@1: jjg@12: public BadClassFile(TypeSymbol sym, JavaFileObject file, JCDiagnostic diag) { jjg@12: super(sym, createBadClassFileDiagnostic(file, diag)); duke@1: } duke@1: } jjg@12: // where jjg@12: private JCDiagnostic createBadClassFileDiagnostic(JavaFileObject file, JCDiagnostic diag) { jjg@12: String key = (file.getKind() == JavaFileObject.Kind.SOURCE jjg@12: ? "bad.source.file.header" : "bad.class.file.header"); jjg@12: return diagFactory.fragment(key, file, diag); jjg@12: } duke@1: duke@1: public BadClassFile badClassFile(String key, Object... args) { duke@1: return new BadClassFile ( duke@1: currentOwner.enclClass(), duke@1: currentClassFile, jjg@12: diagFactory.fragment(key, args)); duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Buffer Access duke@1: ***********************************************************************/ duke@1: duke@1: /** Read a character. duke@1: */ duke@1: char nextChar() { duke@1: return (char)(((buf[bp++] & 0xFF) << 8) + (buf[bp++] & 0xFF)); duke@1: } duke@1: jjg@308: /** Read a byte. jjg@308: */ jjg@308: byte nextByte() { jjg@308: return buf[bp++]; jjg@308: } jjg@308: duke@1: /** Read an integer. duke@1: */ duke@1: int nextInt() { duke@1: return duke@1: ((buf[bp++] & 0xFF) << 24) + duke@1: ((buf[bp++] & 0xFF) << 16) + duke@1: ((buf[bp++] & 0xFF) << 8) + duke@1: (buf[bp++] & 0xFF); duke@1: } duke@1: duke@1: /** Extract a character at position bp from buf. duke@1: */ duke@1: char getChar(int bp) { duke@1: return duke@1: (char)(((buf[bp] & 0xFF) << 8) + (buf[bp+1] & 0xFF)); duke@1: } duke@1: duke@1: /** Extract an integer at position bp from buf. duke@1: */ duke@1: int getInt(int bp) { duke@1: return duke@1: ((buf[bp] & 0xFF) << 24) + duke@1: ((buf[bp+1] & 0xFF) << 16) + duke@1: ((buf[bp+2] & 0xFF) << 8) + duke@1: (buf[bp+3] & 0xFF); duke@1: } duke@1: duke@1: duke@1: /** Extract a long integer at position bp from buf. duke@1: */ duke@1: long getLong(int bp) { duke@1: DataInputStream bufin = duke@1: new DataInputStream(new ByteArrayInputStream(buf, bp, 8)); duke@1: try { duke@1: return bufin.readLong(); duke@1: } catch (IOException e) { duke@1: throw new AssertionError(e); duke@1: } duke@1: } duke@1: duke@1: /** Extract a float at position bp from buf. duke@1: */ duke@1: float getFloat(int bp) { duke@1: DataInputStream bufin = duke@1: new DataInputStream(new ByteArrayInputStream(buf, bp, 4)); duke@1: try { duke@1: return bufin.readFloat(); duke@1: } catch (IOException e) { duke@1: throw new AssertionError(e); duke@1: } duke@1: } duke@1: duke@1: /** Extract a double at position bp from buf. duke@1: */ duke@1: double getDouble(int bp) { duke@1: DataInputStream bufin = duke@1: new DataInputStream(new ByteArrayInputStream(buf, bp, 8)); duke@1: try { duke@1: return bufin.readDouble(); duke@1: } catch (IOException e) { duke@1: throw new AssertionError(e); duke@1: } duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Constant Pool Access duke@1: ***********************************************************************/ duke@1: duke@1: /** Index all constant pool entries, writing their start addresses into duke@1: * poolIdx. duke@1: */ duke@1: void indexPool() { duke@1: poolIdx = new int[nextChar()]; duke@1: poolObj = new Object[poolIdx.length]; duke@1: int i = 1; duke@1: while (i < poolIdx.length) { duke@1: poolIdx[i++] = bp; duke@1: byte tag = buf[bp++]; duke@1: switch (tag) { duke@1: case CONSTANT_Utf8: case CONSTANT_Unicode: { duke@1: int len = nextChar(); duke@1: bp = bp + len; duke@1: break; duke@1: } duke@1: case CONSTANT_Class: duke@1: case CONSTANT_String: ksrini@826: case CONSTANT_MethodType: duke@1: bp = bp + 2; duke@1: break; ksrini@826: case CONSTANT_MethodHandle: ksrini@826: bp = bp + 3; ksrini@826: break; duke@1: case CONSTANT_Fieldref: duke@1: case CONSTANT_Methodref: duke@1: case CONSTANT_InterfaceMethodref: duke@1: case CONSTANT_NameandType: duke@1: case CONSTANT_Integer: duke@1: case CONSTANT_Float: ksrini@826: case CONSTANT_InvokeDynamic: duke@1: bp = bp + 4; duke@1: break; duke@1: case CONSTANT_Long: duke@1: case CONSTANT_Double: duke@1: bp = bp + 8; duke@1: i++; duke@1: break; duke@1: default: duke@1: throw badClassFile("bad.const.pool.tag.at", duke@1: Byte.toString(tag), duke@1: Integer.toString(bp -1)); duke@1: } duke@1: } duke@1: } duke@1: duke@1: /** Read constant pool entry at start address i, use pool as a cache. duke@1: */ duke@1: Object readPool(int i) { duke@1: Object result = poolObj[i]; duke@1: if (result != null) return result; duke@1: duke@1: int index = poolIdx[i]; duke@1: if (index == 0) return null; duke@1: duke@1: byte tag = buf[index]; duke@1: switch (tag) { duke@1: case CONSTANT_Utf8: duke@1: poolObj[i] = names.fromUtf(buf, index + 3, getChar(index + 1)); duke@1: break; duke@1: case CONSTANT_Unicode: duke@1: throw badClassFile("unicode.str.not.supported"); duke@1: case CONSTANT_Class: duke@1: poolObj[i] = readClassOrType(getChar(index + 1)); duke@1: break; duke@1: case CONSTANT_String: duke@1: // FIXME: (footprint) do not use toString here duke@1: poolObj[i] = readName(getChar(index + 1)).toString(); duke@1: break; duke@1: case CONSTANT_Fieldref: { duke@1: ClassSymbol owner = readClassSymbol(getChar(index + 1)); duke@1: NameAndType nt = (NameAndType)readPool(getChar(index + 3)); duke@1: poolObj[i] = new VarSymbol(0, nt.name, nt.type, owner); duke@1: break; duke@1: } duke@1: case CONSTANT_Methodref: duke@1: case CONSTANT_InterfaceMethodref: { duke@1: ClassSymbol owner = readClassSymbol(getChar(index + 1)); duke@1: NameAndType nt = (NameAndType)readPool(getChar(index + 3)); duke@1: poolObj[i] = new MethodSymbol(0, nt.name, nt.type, owner); duke@1: break; duke@1: } duke@1: case CONSTANT_NameandType: duke@1: poolObj[i] = new NameAndType( duke@1: readName(getChar(index + 1)), duke@1: readType(getChar(index + 3))); duke@1: break; duke@1: case CONSTANT_Integer: duke@1: poolObj[i] = getInt(index + 1); duke@1: break; duke@1: case CONSTANT_Float: duke@1: poolObj[i] = new Float(getFloat(index + 1)); duke@1: break; duke@1: case CONSTANT_Long: duke@1: poolObj[i] = new Long(getLong(index + 1)); duke@1: break; duke@1: case CONSTANT_Double: duke@1: poolObj[i] = new Double(getDouble(index + 1)); duke@1: break; ksrini@826: case CONSTANT_MethodHandle: ksrini@826: skipBytes(4); ksrini@826: break; ksrini@826: case CONSTANT_MethodType: ksrini@826: skipBytes(3); ksrini@826: break; ksrini@826: case CONSTANT_InvokeDynamic: ksrini@826: skipBytes(5); ksrini@826: break; duke@1: default: duke@1: throw badClassFile("bad.const.pool.tag", Byte.toString(tag)); duke@1: } duke@1: return poolObj[i]; duke@1: } duke@1: duke@1: /** Read signature and convert to type. duke@1: */ duke@1: Type readType(int i) { duke@1: int index = poolIdx[i]; duke@1: return sigToType(buf, index + 3, getChar(index + 1)); duke@1: } duke@1: duke@1: /** If name is an array type or class signature, return the duke@1: * corresponding type; otherwise return a ClassSymbol with given name. duke@1: */ duke@1: Object readClassOrType(int i) { duke@1: int index = poolIdx[i]; duke@1: int len = getChar(index + 1); duke@1: int start = index + 3; jjg@816: Assert.check(buf[start] == '[' || buf[start + len - 1] != ';'); duke@1: // by the above assertion, the following test can be duke@1: // simplified to (buf[start] == '[') duke@1: return (buf[start] == '[' || buf[start + len - 1] == ';') duke@1: ? (Object)sigToType(buf, start, len) duke@1: : (Object)enterClass(names.fromUtf(internalize(buf, start, duke@1: len))); duke@1: } duke@1: duke@1: /** Read signature and convert to type parameters. duke@1: */ duke@1: List readTypeParams(int i) { duke@1: int index = poolIdx[i]; duke@1: return sigToTypeParams(buf, index + 3, getChar(index + 1)); duke@1: } duke@1: duke@1: /** Read class entry. duke@1: */ duke@1: ClassSymbol readClassSymbol(int i) { duke@1: return (ClassSymbol) (readPool(i)); duke@1: } duke@1: duke@1: /** Read name. duke@1: */ duke@1: Name readName(int i) { duke@1: return (Name) (readPool(i)); duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Reading Types duke@1: ***********************************************************************/ duke@1: duke@1: /** The unread portion of the currently read type is duke@1: * signature[sigp..siglimit-1]. duke@1: */ duke@1: byte[] signature; duke@1: int sigp; duke@1: int siglimit; duke@1: boolean sigEnterPhase = false; duke@1: duke@1: /** Convert signature to type, where signature is a byte array segment. duke@1: */ duke@1: Type sigToType(byte[] sig, int offset, int len) { duke@1: signature = sig; duke@1: sigp = offset; duke@1: siglimit = offset + len; duke@1: return sigToType(); duke@1: } duke@1: duke@1: /** Convert signature to type, where signature is implicit. duke@1: */ duke@1: Type sigToType() { duke@1: switch ((char) signature[sigp]) { duke@1: case 'T': duke@1: sigp++; duke@1: int start = sigp; duke@1: while (signature[sigp] != ';') sigp++; duke@1: sigp++; duke@1: return sigEnterPhase duke@1: ? Type.noType duke@1: : findTypeVar(names.fromUtf(signature, start, sigp - 1 - start)); duke@1: case '+': { duke@1: sigp++; duke@1: Type t = sigToType(); duke@1: return new WildcardType(t, BoundKind.EXTENDS, duke@1: syms.boundClass); duke@1: } duke@1: case '*': duke@1: sigp++; duke@1: return new WildcardType(syms.objectType, BoundKind.UNBOUND, duke@1: syms.boundClass); duke@1: case '-': { duke@1: sigp++; duke@1: Type t = sigToType(); duke@1: return new WildcardType(t, BoundKind.SUPER, duke@1: syms.boundClass); duke@1: } duke@1: case 'B': duke@1: sigp++; duke@1: return syms.byteType; duke@1: case 'C': duke@1: sigp++; duke@1: return syms.charType; duke@1: case 'D': duke@1: sigp++; duke@1: return syms.doubleType; duke@1: case 'F': duke@1: sigp++; duke@1: return syms.floatType; duke@1: case 'I': duke@1: sigp++; duke@1: return syms.intType; duke@1: case 'J': duke@1: sigp++; duke@1: return syms.longType; duke@1: case 'L': duke@1: { duke@1: // int oldsigp = sigp; duke@1: Type t = classSigToType(); duke@1: if (sigp < siglimit && signature[sigp] == '.') duke@1: throw badClassFile("deprecated inner class signature syntax " + duke@1: "(please recompile from source)"); duke@1: /* duke@1: System.err.println(" decoded " + duke@1: new String(signature, oldsigp, sigp-oldsigp) + duke@1: " => " + t + " outer " + t.outer()); duke@1: */ duke@1: return t; duke@1: } duke@1: case 'S': duke@1: sigp++; duke@1: return syms.shortType; duke@1: case 'V': duke@1: sigp++; duke@1: return syms.voidType; duke@1: case 'Z': duke@1: sigp++; duke@1: return syms.booleanType; duke@1: case '[': duke@1: sigp++; duke@1: return new ArrayType(sigToType(), syms.arrayClass); duke@1: case '(': duke@1: sigp++; duke@1: List argtypes = sigToTypes(')'); duke@1: Type restype = sigToType(); duke@1: List thrown = List.nil(); duke@1: while (signature[sigp] == '^') { duke@1: sigp++; duke@1: thrown = thrown.prepend(sigToType()); duke@1: } duke@1: return new MethodType(argtypes, duke@1: restype, duke@1: thrown.reverse(), duke@1: syms.methodClass); duke@1: case '<': duke@1: typevars = typevars.dup(currentOwner); duke@1: Type poly = new ForAll(sigToTypeParams(), sigToType()); duke@1: typevars = typevars.leave(); duke@1: return poly; duke@1: default: duke@1: throw badClassFile("bad.signature", duke@1: Convert.utf2string(signature, sigp, 10)); duke@1: } duke@1: } duke@1: duke@1: byte[] signatureBuffer = new byte[0]; duke@1: int sbp = 0; duke@1: /** Convert class signature to type, where signature is implicit. duke@1: */ duke@1: Type classSigToType() { duke@1: if (signature[sigp] != 'L') duke@1: throw badClassFile("bad.class.signature", duke@1: Convert.utf2string(signature, sigp, 10)); duke@1: sigp++; duke@1: Type outer = Type.noType; duke@1: int startSbp = sbp; duke@1: duke@1: while (true) { duke@1: final byte c = signature[sigp++]; duke@1: switch (c) { duke@1: duke@1: case ';': { // end duke@1: ClassSymbol t = enterClass(names.fromUtf(signatureBuffer, duke@1: startSbp, duke@1: sbp - startSbp)); duke@1: if (outer == Type.noType) duke@1: outer = t.erasure(types); duke@1: else duke@1: outer = new ClassType(outer, List.nil(), t); duke@1: sbp = startSbp; duke@1: return outer; duke@1: } duke@1: duke@1: case '<': // generic arguments duke@1: ClassSymbol t = enterClass(names.fromUtf(signatureBuffer, duke@1: startSbp, duke@1: sbp - startSbp)); duke@1: outer = new ClassType(outer, sigToTypes('>'), t) { duke@1: boolean completed = false; jjg@256: @Override duke@1: public Type getEnclosingType() { duke@1: if (!completed) { duke@1: completed = true; duke@1: tsym.complete(); duke@1: Type enclosingType = tsym.type.getEnclosingType(); duke@1: if (enclosingType != Type.noType) { duke@1: List typeArgs = duke@1: super.getEnclosingType().allparams(); duke@1: List typeParams = duke@1: enclosingType.allparams(); duke@1: if (typeParams.length() != typeArgs.length()) { duke@1: // no "rare" types duke@1: super.setEnclosingType(types.erasure(enclosingType)); duke@1: } else { duke@1: super.setEnclosingType(types.subst(enclosingType, duke@1: typeParams, duke@1: typeArgs)); duke@1: } duke@1: } else { duke@1: super.setEnclosingType(Type.noType); duke@1: } duke@1: } duke@1: return super.getEnclosingType(); duke@1: } jjg@256: @Override duke@1: public void setEnclosingType(Type outer) { duke@1: throw new UnsupportedOperationException(); duke@1: } duke@1: }; duke@1: switch (signature[sigp++]) { duke@1: case ';': duke@1: if (sigp < signature.length && signature[sigp] == '.') { duke@1: // support old-style GJC signatures duke@1: // The signature produced was duke@1: // Lfoo/Outer;.Lfoo/Outer$Inner; duke@1: // rather than say duke@1: // Lfoo/Outer.Inner; duke@1: // so we skip past ".Lfoo/Outer$" duke@1: sigp += (sbp - startSbp) + // "foo/Outer" duke@1: 3; // ".L" and "$" duke@1: signatureBuffer[sbp++] = (byte)'$'; duke@1: break; duke@1: } else { duke@1: sbp = startSbp; duke@1: return outer; duke@1: } duke@1: case '.': duke@1: signatureBuffer[sbp++] = (byte)'$'; duke@1: break; duke@1: default: duke@1: throw new AssertionError(signature[sigp-1]); duke@1: } duke@1: continue; duke@1: duke@1: case '.': duke@1: signatureBuffer[sbp++] = (byte)'$'; duke@1: continue; duke@1: case '/': duke@1: signatureBuffer[sbp++] = (byte)'.'; duke@1: continue; duke@1: default: duke@1: signatureBuffer[sbp++] = c; duke@1: continue; duke@1: } duke@1: } duke@1: } duke@1: duke@1: /** Convert (implicit) signature to list of types duke@1: * until `terminator' is encountered. duke@1: */ duke@1: List sigToTypes(char terminator) { duke@1: List head = List.of(null); duke@1: List tail = head; duke@1: while (signature[sigp] != terminator) duke@1: tail = tail.setTail(List.of(sigToType())); duke@1: sigp++; duke@1: return head.tail; duke@1: } duke@1: duke@1: /** Convert signature to type parameters, where signature is a byte duke@1: * array segment. duke@1: */ duke@1: List sigToTypeParams(byte[] sig, int offset, int len) { duke@1: signature = sig; duke@1: sigp = offset; duke@1: siglimit = offset + len; duke@1: return sigToTypeParams(); duke@1: } duke@1: duke@1: /** Convert signature to type parameters, where signature is implicit. duke@1: */ duke@1: List sigToTypeParams() { duke@1: List tvars = List.nil(); duke@1: if (signature[sigp] == '<') { duke@1: sigp++; duke@1: int start = sigp; duke@1: sigEnterPhase = true; duke@1: while (signature[sigp] != '>') duke@1: tvars = tvars.prepend(sigToTypeParam()); duke@1: sigEnterPhase = false; duke@1: sigp = start; duke@1: while (signature[sigp] != '>') duke@1: sigToTypeParam(); duke@1: sigp++; duke@1: } duke@1: return tvars.reverse(); duke@1: } duke@1: duke@1: /** Convert (implicit) signature to type parameter. duke@1: */ duke@1: Type sigToTypeParam() { duke@1: int start = sigp; duke@1: while (signature[sigp] != ':') sigp++; duke@1: Name name = names.fromUtf(signature, start, sigp - start); duke@1: TypeVar tvar; duke@1: if (sigEnterPhase) { duke@1: tvar = new TypeVar(name, currentOwner, syms.botType); duke@1: typevars.enter(tvar.tsym); duke@1: } else { duke@1: tvar = (TypeVar)findTypeVar(name); duke@1: } duke@1: List bounds = List.nil(); duke@1: Type st = null; duke@1: if (signature[sigp] == ':' && signature[sigp+1] == ':') { duke@1: sigp++; duke@1: st = syms.objectType; duke@1: } duke@1: while (signature[sigp] == ':') { duke@1: sigp++; duke@1: bounds = bounds.prepend(sigToType()); duke@1: } duke@1: if (!sigEnterPhase) { duke@1: types.setBounds(tvar, bounds.reverse(), st); duke@1: } duke@1: return tvar; duke@1: } duke@1: duke@1: /** Find type variable with given name in `typevars' scope. duke@1: */ duke@1: Type findTypeVar(Name name) { duke@1: Scope.Entry e = typevars.lookup(name); duke@1: if (e.scope != null) { duke@1: return e.sym.type; duke@1: } else { duke@1: if (readingClassAttr) { duke@1: // While reading the class attribute, the supertypes duke@1: // might refer to a type variable from an enclosing element duke@1: // (method or class). duke@1: // If the type variable is defined in the enclosing class, duke@1: // we can actually find it in duke@1: // currentOwner.owner.type.getTypeArguments() duke@1: // However, until we have read the enclosing method attribute duke@1: // we don't know for sure if this owner is correct. It could duke@1: // be a method and there is no way to tell before reading the duke@1: // enclosing method attribute. duke@1: TypeVar t = new TypeVar(name, currentOwner, syms.botType); duke@1: missingTypeVariables = missingTypeVariables.prepend(t); duke@1: // System.err.println("Missing type var " + name); duke@1: return t; duke@1: } duke@1: throw badClassFile("undecl.type.var", name); duke@1: } duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Reading Attributes duke@1: ***********************************************************************/ duke@1: jjg@256: protected enum AttributeKind { CLASS, MEMBER }; jjg@256: protected abstract class AttributeReader { jjg@784: AttributeReader(Name name, ClassFile.Version version, Set kinds) { jjg@256: this.name = name; jjg@256: this.version = version; jjg@256: this.kinds = kinds; jjg@256: } jjg@256: jjg@256: boolean accepts(AttributeKind kind) { jjg@776: if (kinds.contains(kind)) { jjg@776: if (majorVersion > version.major || (majorVersion == version.major && minorVersion >= version.minor)) jjg@776: return true; jjg@776: jjg@776: if (lintClassfile && !warnedAttrs.contains(name)) { jjg@776: JavaFileObject prev = log.useSource(currentClassFile); jjg@776: try { jjg@776: log.warning(LintCategory.CLASSFILE, (DiagnosticPosition) null, "future.attr", jjg@776: name, version.major, version.minor, majorVersion, minorVersion); jjg@776: } finally { jjg@776: log.useSource(prev); jjg@776: } jjg@776: warnedAttrs.add(name); jjg@776: } jjg@776: } jjg@776: return false; jjg@256: } jjg@256: jjg@256: abstract void read(Symbol sym, int attrLen); jjg@256: jjg@256: final Name name; jjg@784: final ClassFile.Version version; jjg@256: final Set kinds; jjg@256: } jjg@256: jjg@256: protected Set CLASS_ATTRIBUTE = jjg@256: EnumSet.of(AttributeKind.CLASS); jjg@256: protected Set MEMBER_ATTRIBUTE = jjg@256: EnumSet.of(AttributeKind.MEMBER); jjg@256: protected Set CLASS_OR_MEMBER_ATTRIBUTE = jjg@256: EnumSet.of(AttributeKind.CLASS, AttributeKind.MEMBER); jjg@256: jjg@256: protected Map attributeReaders = new HashMap(); jjg@256: jjg@776: private void initAttributeReaders() { jjg@256: AttributeReader[] readers = { jjg@256: // v45.3 attributes jjg@256: jjg@256: new AttributeReader(names.Code, V45_3, MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: if (readAllOfClassFile || saveParameterNames) jjg@256: ((MethodSymbol)sym).code = readCode(sym); jjg@256: else jjg@256: bp = bp + attrLen; jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.ConstantValue, V45_3, MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: Object v = readPool(nextChar()); jjg@256: // Ignore ConstantValue attribute if field not final. jjg@256: if ((sym.flags() & FINAL) != 0) jjg@256: ((VarSymbol) sym).setData(v); jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.Deprecated, V45_3, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: sym.flags_field |= DEPRECATED; jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.Exceptions, V45_3, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: int nexceptions = nextChar(); jjg@256: List thrown = List.nil(); jjg@256: for (int j = 0; j < nexceptions; j++) jjg@256: thrown = thrown.prepend(readClassSymbol(nextChar()).type); jjg@256: if (sym.type.getThrownTypes().isEmpty()) jjg@256: sym.type.asMethodType().thrown = thrown.reverse(); jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.InnerClasses, V45_3, CLASS_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: ClassSymbol c = (ClassSymbol) sym; jjg@256: readInnerClasses(c); jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.LocalVariableTable, V45_3, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: int newbp = bp + attrLen; jjg@256: if (saveParameterNames) { jjg@428: // Pick up parameter names from the variable table. jjg@428: // Parameter names are not explicitly identified as such, jjg@428: // but all parameter name entries in the LocalVariableTable jjg@428: // have a start_pc of 0. Therefore, we record the name jjg@428: // indicies of all slots with a start_pc of zero in the jjg@428: // parameterNameIndicies array. jjg@428: // Note that this implicitly honors the JVMS spec that jjg@428: // there may be more than one LocalVariableTable, and that jjg@428: // there is no specified ordering for the entries. jjg@256: int numEntries = nextChar(); jjg@428: for (int i = 0; i < numEntries; i++) { jjg@256: int start_pc = nextChar(); jjg@256: int length = nextChar(); jjg@256: int nameIndex = nextChar(); jjg@256: int sigIndex = nextChar(); jjg@256: int register = nextChar(); jjg@428: if (start_pc == 0) { jjg@428: // ensure array large enough jjg@428: if (register >= parameterNameIndices.length) { jjg@428: int newSize = Math.max(register, parameterNameIndices.length + 8); jjg@428: parameterNameIndices = jjg@428: Arrays.copyOf(parameterNameIndices, newSize); jjg@256: } jjg@428: parameterNameIndices[register] = nameIndex; jjg@428: haveParameterNameIndices = true; jjg@256: } jjg@256: } jjg@256: } jjg@256: bp = newbp; jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.SourceFile, V45_3, CLASS_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: ClassSymbol c = (ClassSymbol) sym; jjg@256: Name n = readName(nextChar()); jjg@256: c.sourcefile = new SourceFileObject(n, c.flatname); jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.Synthetic, V45_3, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: // bridge methods are visible when generics not enabled jjg@256: if (allowGenerics || (sym.flags_field & BRIDGE) == 0) jjg@256: sym.flags_field |= SYNTHETIC; jjg@256: } jjg@256: }, jjg@256: jjg@256: // standard v49 attributes jjg@256: jjg@256: new AttributeReader(names.EnclosingMethod, V49, CLASS_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: int newbp = bp + attrLen; jjg@256: readEnclosingMethodAttr(sym); jjg@256: bp = newbp; jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.Signature, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: @Override jjg@256: boolean accepts(AttributeKind kind) { jjg@256: return super.accepts(kind) && allowGenerics; jjg@256: } jjg@256: jjg@256: void read(Symbol sym, int attrLen) { jjg@256: if (sym.kind == TYP) { jjg@256: ClassSymbol c = (ClassSymbol) sym; jjg@256: readingClassAttr = true; jjg@256: try { jjg@256: ClassType ct1 = (ClassType)c.type; jjg@816: Assert.check(c == currentOwner); jjg@256: ct1.typarams_field = readTypeParams(nextChar()); jjg@256: ct1.supertype_field = sigToType(); jjg@256: ListBuffer is = new ListBuffer(); jjg@256: while (sigp != siglimit) is.append(sigToType()); jjg@256: ct1.interfaces_field = is.toList(); jjg@256: } finally { jjg@256: readingClassAttr = false; jjg@256: } jjg@256: } else { jjg@256: List thrown = sym.type.getThrownTypes(); jjg@256: sym.type = readType(nextChar()); jjg@256: //- System.err.println(" # " + sym.type); jjg@256: if (sym.kind == MTH && sym.type.getThrownTypes().isEmpty()) jjg@256: sym.type.asMethodType().thrown = thrown; jjg@256: jjg@256: } jjg@256: } jjg@256: }, jjg@256: jjg@256: // v49 annotation attributes jjg@256: jjg@256: new AttributeReader(names.AnnotationDefault, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: attachAnnotationDefault(sym); jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.RuntimeInvisibleAnnotations, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: attachAnnotations(sym); jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.RuntimeInvisibleParameterAnnotations, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: attachParameterAnnotations(sym); jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.RuntimeVisibleAnnotations, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: attachAnnotations(sym); jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.RuntimeVisibleParameterAnnotations, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: attachParameterAnnotations(sym); jjg@256: } jjg@256: }, jjg@256: jjg@256: // additional "legacy" v49 attributes, superceded by flags jjg@256: jjg@256: new AttributeReader(names.Annotation, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: if (allowAnnotations) jjg@256: sym.flags_field |= ANNOTATION; jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.Bridge, V49, MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: sym.flags_field |= BRIDGE; jjg@256: if (!allowGenerics) jjg@256: sym.flags_field &= ~SYNTHETIC; jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.Enum, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: sym.flags_field |= ENUM; jjg@256: } jjg@256: }, jjg@256: jjg@256: new AttributeReader(names.Varargs, V49, CLASS_OR_MEMBER_ATTRIBUTE) { jjg@256: void read(Symbol sym, int attrLen) { jjg@256: if (allowVarargs) jjg@256: sym.flags_field |= VARARGS; jjg@256: } jjg@308: }, jjg@308: jjg@256: // The following attributes for a Code attribute are not currently handled jjg@256: // StackMapTable jjg@256: // SourceDebugExtension jjg@256: // LineNumberTable jjg@256: // LocalVariableTypeTable jjg@256: }; jjg@256: jjg@256: for (AttributeReader r: readers) jjg@256: attributeReaders.put(r.name, r); jjg@256: } jjg@256: duke@1: /** Report unrecognized attribute. duke@1: */ duke@1: void unrecognized(Name attrName) { duke@1: if (checkClassFile) duke@1: printCCF("ccf.unrecognized.attribute", attrName); duke@1: } duke@1: jjg@256: duke@1: duke@1: void readEnclosingMethodAttr(Symbol sym) { duke@1: // sym is a nested class with an "Enclosing Method" attribute duke@1: // remove sym from it's current owners scope and place it in duke@1: // the scope specified by the attribute duke@1: sym.owner.members().remove(sym); duke@1: ClassSymbol self = (ClassSymbol)sym; duke@1: ClassSymbol c = readClassSymbol(nextChar()); duke@1: NameAndType nt = (NameAndType)readPool(nextChar()); duke@1: jjg@952: if (c.members_field == null) jjg@952: throw badClassFile("bad.enclosing.class", self, c); jjg@952: duke@1: MethodSymbol m = findMethod(nt, c.members_field, self.flags()); duke@1: if (nt != null && m == null) duke@1: throw badClassFile("bad.enclosing.method", self); duke@1: duke@1: self.name = simpleBinaryName(self.flatname, c.flatname) ; duke@1: self.owner = m != null ? m : c; jjg@113: if (self.name.isEmpty()) darcy@515: self.fullname = names.empty; duke@1: else duke@1: self.fullname = ClassSymbol.formFullName(self.name, self.owner); duke@1: duke@1: if (m != null) { duke@1: ((ClassType)sym.type).setEnclosingType(m.type); duke@1: } else if ((self.flags_field & STATIC) == 0) { duke@1: ((ClassType)sym.type).setEnclosingType(c.type); duke@1: } else { duke@1: ((ClassType)sym.type).setEnclosingType(Type.noType); duke@1: } duke@1: enterTypevars(self); duke@1: if (!missingTypeVariables.isEmpty()) { duke@1: ListBuffer typeVars = new ListBuffer(); duke@1: for (Type typevar : missingTypeVariables) { duke@1: typeVars.append(findTypeVar(typevar.tsym.name)); duke@1: } duke@1: foundTypeVariables = typeVars.toList(); duke@1: } else { duke@1: foundTypeVariables = List.nil(); duke@1: } duke@1: } duke@1: duke@1: // See java.lang.Class duke@1: private Name simpleBinaryName(Name self, Name enclosing) { duke@1: String simpleBinaryName = self.toString().substring(enclosing.toString().length()); duke@1: if (simpleBinaryName.length() < 1 || simpleBinaryName.charAt(0) != '$') duke@1: throw badClassFile("bad.enclosing.method", self); duke@1: int index = 1; duke@1: while (index < simpleBinaryName.length() && duke@1: isAsciiDigit(simpleBinaryName.charAt(index))) duke@1: index++; duke@1: return names.fromString(simpleBinaryName.substring(index)); duke@1: } duke@1: duke@1: private MethodSymbol findMethod(NameAndType nt, Scope scope, long flags) { duke@1: if (nt == null) duke@1: return null; duke@1: duke@1: MethodType type = nt.type.asMethodType(); duke@1: duke@1: for (Scope.Entry e = scope.lookup(nt.name); e.scope != null; e = e.next()) duke@1: if (e.sym.kind == MTH && isSameBinaryType(e.sym.type.asMethodType(), type)) duke@1: return (MethodSymbol)e.sym; duke@1: duke@1: if (nt.name != names.init) duke@1: // not a constructor duke@1: return null; duke@1: if ((flags & INTERFACE) != 0) duke@1: // no enclosing instance duke@1: return null; duke@1: if (nt.type.getParameterTypes().isEmpty()) duke@1: // no parameters duke@1: return null; duke@1: duke@1: // A constructor of an inner class. duke@1: // Remove the first argument (the enclosing instance) duke@1: nt.type = new MethodType(nt.type.getParameterTypes().tail, duke@1: nt.type.getReturnType(), duke@1: nt.type.getThrownTypes(), duke@1: syms.methodClass); duke@1: // Try searching again duke@1: return findMethod(nt, scope, flags); duke@1: } duke@1: duke@1: /** Similar to Types.isSameType but avoids completion */ duke@1: private boolean isSameBinaryType(MethodType mt1, MethodType mt2) { duke@1: List types1 = types.erasure(mt1.getParameterTypes()) duke@1: .prepend(types.erasure(mt1.getReturnType())); duke@1: List types2 = mt2.getParameterTypes().prepend(mt2.getReturnType()); duke@1: while (!types1.isEmpty() && !types2.isEmpty()) { duke@1: if (types1.head.tsym != types2.head.tsym) duke@1: return false; duke@1: types1 = types1.tail; duke@1: types2 = types2.tail; duke@1: } duke@1: return types1.isEmpty() && types2.isEmpty(); duke@1: } duke@1: duke@1: /** duke@1: * Character.isDigit answers true to some non-ascii duke@1: * digits. This one does not. copied from java.lang.Class duke@1: */ duke@1: private static boolean isAsciiDigit(char c) { duke@1: return '0' <= c && c <= '9'; duke@1: } duke@1: duke@1: /** Read member attributes. duke@1: */ duke@1: void readMemberAttrs(Symbol sym) { jjg@256: readAttrs(sym, AttributeKind.MEMBER); jjg@256: } jjg@256: jjg@256: void readAttrs(Symbol sym, AttributeKind kind) { duke@1: char ac = nextChar(); duke@1: for (int i = 0; i < ac; i++) { duke@1: Name attrName = readName(nextChar()); duke@1: int attrLen = nextInt(); jjg@256: AttributeReader r = attributeReaders.get(attrName); jjg@256: if (r != null && r.accepts(kind)) jjg@256: r.read(sym, attrLen); jjg@256: else { jjg@256: unrecognized(attrName); jjg@256: bp = bp + attrLen; jjg@256: } duke@1: } duke@1: } duke@1: duke@1: private boolean readingClassAttr = false; duke@1: private List missingTypeVariables = List.nil(); duke@1: private List foundTypeVariables = List.nil(); duke@1: duke@1: /** Read class attributes. duke@1: */ duke@1: void readClassAttrs(ClassSymbol c) { jjg@256: readAttrs(c, AttributeKind.CLASS); duke@1: } duke@1: duke@1: /** Read code block. duke@1: */ duke@1: Code readCode(Symbol owner) { duke@1: nextChar(); // max_stack duke@1: nextChar(); // max_locals duke@1: final int code_length = nextInt(); duke@1: bp += code_length; duke@1: final char exception_table_length = nextChar(); duke@1: bp += exception_table_length * 8; duke@1: readMemberAttrs(owner); duke@1: return null; duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Reading Java-language annotations duke@1: ***********************************************************************/ duke@1: duke@1: /** Attach annotations. duke@1: */ duke@1: void attachAnnotations(final Symbol sym) { duke@1: int numAttributes = nextChar(); duke@1: if (numAttributes != 0) { duke@1: ListBuffer proxies = duke@1: new ListBuffer(); duke@1: for (int i = 0; i= V51.major && ksrini@957: proxy.type.tsym == syms.polymorphicSignatureType.tsym) { mcimadamore@674: sym.flags_field |= POLYMORPHIC_SIGNATURE; mcimadamore@674: } duke@1: } duke@1: annotate.later(new AnnotationCompleter(sym, proxies.toList())); duke@1: } duke@1: } duke@1: duke@1: /** Attach parameter annotations. duke@1: */ duke@1: void attachParameterAnnotations(final Symbol method) { duke@1: final MethodSymbol meth = (MethodSymbol)method; duke@1: int numParameters = buf[bp++] & 0xFF; duke@1: List parameters = meth.params(); duke@1: int pnum = 0; duke@1: while (parameters.tail != null) { duke@1: attachAnnotations(parameters.head); duke@1: parameters = parameters.tail; duke@1: pnum++; duke@1: } duke@1: if (pnum != numParameters) { duke@1: throw badClassFile("bad.runtime.invisible.param.annotations", meth); duke@1: } duke@1: } duke@1: duke@1: /** Attach the default value for an annotation element. duke@1: */ duke@1: void attachAnnotationDefault(final Symbol sym) { duke@1: final MethodSymbol meth = (MethodSymbol)sym; // only on methods duke@1: final Attribute value = readAttributeValue(); duke@1: annotate.later(new AnnotationDefaultCompleter(meth, value)); duke@1: } duke@1: duke@1: Type readTypeOrClassSymbol(int i) { duke@1: // support preliminary jsr175-format class files duke@1: if (buf[poolIdx[i]] == CONSTANT_Class) duke@1: return readClassSymbol(i).type; duke@1: return readType(i); duke@1: } duke@1: Type readEnumType(int i) { duke@1: // support preliminary jsr175-format class files duke@1: int index = poolIdx[i]; duke@1: int length = getChar(index + 1); duke@1: if (buf[index + length + 2] != ';') duke@1: return enterClass(readName(i)).type; duke@1: return readType(i); duke@1: } duke@1: duke@1: CompoundAnnotationProxy readCompoundAnnotation() { duke@1: Type t = readTypeOrClassSymbol(nextChar()); duke@1: int numFields = nextChar(); duke@1: ListBuffer> pairs = duke@1: new ListBuffer>(); duke@1: for (int i=0; i(name, value)); duke@1: } duke@1: return new CompoundAnnotationProxy(t, pairs.toList()); duke@1: } duke@1: duke@1: Attribute readAttributeValue() { duke@1: char c = (char) buf[bp++]; duke@1: switch (c) { duke@1: case 'B': duke@1: return new Attribute.Constant(syms.byteType, readPool(nextChar())); duke@1: case 'C': duke@1: return new Attribute.Constant(syms.charType, readPool(nextChar())); duke@1: case 'D': duke@1: return new Attribute.Constant(syms.doubleType, readPool(nextChar())); duke@1: case 'F': duke@1: return new Attribute.Constant(syms.floatType, readPool(nextChar())); duke@1: case 'I': duke@1: return new Attribute.Constant(syms.intType, readPool(nextChar())); duke@1: case 'J': duke@1: return new Attribute.Constant(syms.longType, readPool(nextChar())); duke@1: case 'S': duke@1: return new Attribute.Constant(syms.shortType, readPool(nextChar())); duke@1: case 'Z': duke@1: return new Attribute.Constant(syms.booleanType, readPool(nextChar())); duke@1: case 's': duke@1: return new Attribute.Constant(syms.stringType, readPool(nextChar()).toString()); duke@1: case 'e': duke@1: return new EnumAttributeProxy(readEnumType(nextChar()), readName(nextChar())); duke@1: case 'c': duke@1: return new Attribute.Class(types, readTypeOrClassSymbol(nextChar())); duke@1: case '[': { duke@1: int n = nextChar(); duke@1: ListBuffer l = new ListBuffer(); duke@1: for (int i=0; i values; duke@1: ArrayAttributeProxy(List values) { duke@1: super(null); duke@1: this.values = values; duke@1: } duke@1: public void accept(Visitor v) { ((ProxyVisitor)v).visitArrayAttributeProxy(this); } jjg@256: @Override duke@1: public String toString() { duke@1: return "{" + values + "}"; duke@1: } duke@1: } duke@1: duke@1: /** A temporary proxy representing a compound attribute. duke@1: */ duke@1: static class CompoundAnnotationProxy extends Attribute { duke@1: final List> values; duke@1: public CompoundAnnotationProxy(Type type, duke@1: List> values) { duke@1: super(type); duke@1: this.values = values; duke@1: } duke@1: public void accept(Visitor v) { ((ProxyVisitor)v).visitCompoundAnnotationProxy(this); } jjg@256: @Override duke@1: public String toString() { jjg@776: StringBuilder buf = new StringBuilder(); duke@1: buf.append("@"); duke@1: buf.append(type.tsym.getQualifiedName()); duke@1: buf.append("/*proxy*/{"); duke@1: boolean first = true; duke@1: for (List> v = values; duke@1: v.nonEmpty(); v = v.tail) { duke@1: Pair value = v.head; duke@1: if (!first) buf.append(","); duke@1: first = false; duke@1: buf.append(value.fst); duke@1: buf.append("="); duke@1: buf.append(value.snd); duke@1: } duke@1: buf.append("}"); duke@1: return buf.toString(); duke@1: } duke@1: } duke@1: jjg@308: /** A temporary proxy representing a type annotation. jjg@308: */ jjg@308: static class TypeAnnotationProxy { jjg@308: final CompoundAnnotationProxy compound; jjg@308: final TypeAnnotationPosition position; jjg@308: public TypeAnnotationProxy(CompoundAnnotationProxy compound, jjg@308: TypeAnnotationPosition position) { jjg@308: this.compound = compound; jjg@308: this.position = position; jjg@308: } jjg@308: } jjg@308: duke@1: class AnnotationDeproxy implements ProxyVisitor { duke@1: private ClassSymbol requestingOwner = currentOwner.kind == MTH duke@1: ? currentOwner.enclClass() : (ClassSymbol)currentOwner; duke@1: duke@1: List deproxyCompoundList(List pl) { duke@1: // also must fill in types!!!! duke@1: ListBuffer buf = duke@1: new ListBuffer(); duke@1: for (List l = pl; l.nonEmpty(); l=l.tail) { duke@1: buf.append(deproxyCompound(l.head)); duke@1: } duke@1: return buf.toList(); duke@1: } duke@1: duke@1: Attribute.Compound deproxyCompound(CompoundAnnotationProxy a) { duke@1: ListBuffer> buf = duke@1: new ListBuffer>(); duke@1: for (List> l = a.values; duke@1: l.nonEmpty(); duke@1: l = l.tail) { duke@1: MethodSymbol meth = findAccessMethod(a.type, l.head.fst); duke@1: buf.append(new Pair duke@1: (meth, deproxy(meth.type.getReturnType(), l.head.snd))); duke@1: } duke@1: return new Attribute.Compound(a.type, buf.toList()); duke@1: } duke@1: duke@1: MethodSymbol findAccessMethod(Type container, Name name) { duke@1: CompletionFailure failure = null; duke@1: try { duke@1: for (Scope.Entry e = container.tsym.members().lookup(name); duke@1: e.scope != null; duke@1: e = e.next()) { duke@1: Symbol sym = e.sym; duke@1: if (sym.kind == MTH && sym.type.getParameterTypes().length() == 0) duke@1: return (MethodSymbol) sym; duke@1: } duke@1: } catch (CompletionFailure ex) { duke@1: failure = ex; duke@1: } duke@1: // The method wasn't found: emit a warning and recover duke@1: JavaFileObject prevSource = log.useSource(requestingOwner.classfile); duke@1: try { duke@1: if (failure == null) { duke@1: log.warning("annotation.method.not.found", duke@1: container, duke@1: name); duke@1: } else { duke@1: log.warning("annotation.method.not.found.reason", duke@1: container, duke@1: name, mcimadamore@80: failure.getDetailValue());//diagnostic, if present duke@1: } duke@1: } finally { duke@1: log.useSource(prevSource); duke@1: } duke@1: // Construct a new method type and symbol. Use bottom duke@1: // type (typeof null) as return type because this type is duke@1: // a subtype of all reference types and can be converted duke@1: // to primitive types by unboxing. duke@1: MethodType mt = new MethodType(List.nil(), duke@1: syms.botType, duke@1: List.nil(), duke@1: syms.methodClass); duke@1: return new MethodSymbol(PUBLIC | ABSTRACT, name, mt, container.tsym); duke@1: } duke@1: duke@1: Attribute result; duke@1: Type type; duke@1: Attribute deproxy(Type t, Attribute a) { duke@1: Type oldType = type; duke@1: try { duke@1: type = t; duke@1: a.accept(this); duke@1: return result; duke@1: } finally { duke@1: type = oldType; duke@1: } duke@1: } duke@1: duke@1: // implement Attribute.Visitor below duke@1: duke@1: public void visitConstant(Attribute.Constant value) { duke@1: // assert value.type == type; duke@1: result = value; duke@1: } duke@1: duke@1: public void visitClass(Attribute.Class clazz) { duke@1: result = clazz; duke@1: } duke@1: duke@1: public void visitEnum(Attribute.Enum e) { duke@1: throw new AssertionError(); // shouldn't happen duke@1: } duke@1: duke@1: public void visitCompound(Attribute.Compound compound) { duke@1: throw new AssertionError(); // shouldn't happen duke@1: } duke@1: duke@1: public void visitArray(Attribute.Array array) { duke@1: throw new AssertionError(); // shouldn't happen duke@1: } duke@1: duke@1: public void visitError(Attribute.Error e) { duke@1: throw new AssertionError(); // shouldn't happen duke@1: } duke@1: duke@1: public void visitEnumAttributeProxy(EnumAttributeProxy proxy) { duke@1: // type.tsym.flatName() should == proxy.enumFlatName duke@1: TypeSymbol enumTypeSym = proxy.enumType.tsym; duke@1: VarSymbol enumerator = null; mcimadamore@992: CompletionFailure failure = null; mcimadamore@992: try { mcimadamore@992: for (Scope.Entry e = enumTypeSym.members().lookup(proxy.enumerator); mcimadamore@992: e.scope != null; mcimadamore@992: e = e.next()) { mcimadamore@992: if (e.sym.kind == VAR) { mcimadamore@992: enumerator = (VarSymbol)e.sym; mcimadamore@992: break; mcimadamore@992: } duke@1: } duke@1: } mcimadamore@992: catch (CompletionFailure ex) { mcimadamore@992: failure = ex; mcimadamore@992: } duke@1: if (enumerator == null) { mcimadamore@992: if (failure != null) { mcimadamore@992: log.warning("unknown.enum.constant.reason", mcimadamore@992: currentClassFile, enumTypeSym, proxy.enumerator, mcimadamore@992: failure.getDiagnostic()); mcimadamore@992: } else { mcimadamore@992: log.warning("unknown.enum.constant", mcimadamore@992: currentClassFile, enumTypeSym, proxy.enumerator); mcimadamore@992: } mcimadamore@992: result = new Attribute.Enum(enumTypeSym.type, mcimadamore@992: new VarSymbol(0, proxy.enumerator, syms.botType, enumTypeSym)); duke@1: } else { duke@1: result = new Attribute.Enum(enumTypeSym.type, enumerator); duke@1: } duke@1: } duke@1: duke@1: public void visitArrayAttributeProxy(ArrayAttributeProxy proxy) { duke@1: int length = proxy.values.length(); duke@1: Attribute[] ats = new Attribute[length]; duke@1: Type elemtype = types.elemtype(type); duke@1: int i = 0; duke@1: for (List p = proxy.values; p.nonEmpty(); p = p.tail) { duke@1: ats[i++] = deproxy(elemtype, p.head); duke@1: } duke@1: result = new Attribute.Array(type, ats); duke@1: } duke@1: duke@1: public void visitCompoundAnnotationProxy(CompoundAnnotationProxy proxy) { duke@1: result = deproxyCompound(proxy); duke@1: } duke@1: } duke@1: duke@1: class AnnotationDefaultCompleter extends AnnotationDeproxy implements Annotate.Annotator { duke@1: final MethodSymbol sym; duke@1: final Attribute value; duke@1: final JavaFileObject classFile = currentClassFile; jjg@256: @Override duke@1: public String toString() { duke@1: return " ClassReader store default for " + sym.owner + "." + sym + " is " + value; duke@1: } duke@1: AnnotationDefaultCompleter(MethodSymbol sym, Attribute value) { duke@1: this.sym = sym; duke@1: this.value = value; duke@1: } duke@1: // implement Annotate.Annotator.enterAnnotation() duke@1: public void enterAnnotation() { duke@1: JavaFileObject previousClassFile = currentClassFile; duke@1: try { duke@1: currentClassFile = classFile; duke@1: sym.defaultValue = deproxy(sym.type.getReturnType(), value); duke@1: } finally { duke@1: currentClassFile = previousClassFile; duke@1: } duke@1: } duke@1: } duke@1: duke@1: class AnnotationCompleter extends AnnotationDeproxy implements Annotate.Annotator { duke@1: final Symbol sym; duke@1: final List l; duke@1: final JavaFileObject classFile; jjg@256: @Override duke@1: public String toString() { duke@1: return " ClassReader annotate " + sym.owner + "." + sym + " with " + l; duke@1: } duke@1: AnnotationCompleter(Symbol sym, List l) { duke@1: this.sym = sym; duke@1: this.l = l; duke@1: this.classFile = currentClassFile; duke@1: } duke@1: // implement Annotate.Annotator.enterAnnotation() duke@1: public void enterAnnotation() { duke@1: JavaFileObject previousClassFile = currentClassFile; duke@1: try { duke@1: currentClassFile = classFile; duke@1: List newList = deproxyCompoundList(l); duke@1: sym.attributes_field = ((sym.attributes_field == null) duke@1: ? newList duke@1: : newList.prependList(sym.attributes_field)); duke@1: } finally { duke@1: currentClassFile = previousClassFile; duke@1: } duke@1: } duke@1: } duke@1: duke@1: duke@1: /************************************************************************ duke@1: * Reading Symbols duke@1: ***********************************************************************/ duke@1: duke@1: /** Read a field. duke@1: */ duke@1: VarSymbol readField() { duke@1: long flags = adjustFieldFlags(nextChar()); duke@1: Name name = readName(nextChar()); duke@1: Type type = readType(nextChar()); duke@1: VarSymbol v = new VarSymbol(flags, name, type, currentOwner); duke@1: readMemberAttrs(v); duke@1: return v; duke@1: } duke@1: duke@1: /** Read a method. duke@1: */ duke@1: MethodSymbol readMethod() { duke@1: long flags = adjustMethodFlags(nextChar()); duke@1: Name name = readName(nextChar()); duke@1: Type type = readType(nextChar()); duke@1: if (name == names.init && currentOwner.hasOuterInstance()) { duke@1: // Sometimes anonymous classes don't have an outer duke@1: // instance, however, there is no reliable way to tell so duke@1: // we never strip this$n jjg@113: if (!currentOwner.name.isEmpty()) mcimadamore@795: type = new MethodType(adjustMethodParams(flags, type.getParameterTypes()), duke@1: type.getReturnType(), duke@1: type.getThrownTypes(), duke@1: syms.methodClass); duke@1: } duke@1: MethodSymbol m = new MethodSymbol(flags, name, type, currentOwner); jjg@428: if (saveParameterNames) jjg@428: initParameterNames(m); duke@1: Symbol prevOwner = currentOwner; duke@1: currentOwner = m; duke@1: try { duke@1: readMemberAttrs(m); duke@1: } finally { duke@1: currentOwner = prevOwner; duke@1: } jjg@428: if (saveParameterNames) jjg@428: setParameterNames(m, type); duke@1: return m; duke@1: } duke@1: mcimadamore@795: private List adjustMethodParams(long flags, List args) { mcimadamore@795: boolean isVarargs = (flags & VARARGS) != 0; mcimadamore@795: if (isVarargs) { mcimadamore@795: Type varargsElem = args.last(); mcimadamore@795: ListBuffer adjustedArgs = ListBuffer.lb(); mcimadamore@795: for (Type t : args) { mcimadamore@795: adjustedArgs.append(t != varargsElem ? mcimadamore@795: t : mcimadamore@795: ((ArrayType)t).makeVarargs()); mcimadamore@795: } mcimadamore@795: args = adjustedArgs.toList(); mcimadamore@795: } mcimadamore@795: return args.tail; mcimadamore@795: } mcimadamore@795: jjg@428: /** jjg@428: * Init the parameter names array. jjg@428: * Parameter names are currently inferred from the names in the jjg@428: * LocalVariableTable attributes of a Code attribute. jjg@428: * (Note: this means parameter names are currently not available for jjg@428: * methods without a Code attribute.) jjg@428: * This method initializes an array in which to store the name indexes jjg@428: * of parameter names found in LocalVariableTable attributes. It is jjg@428: * slightly supersized to allow for additional slots with a start_pc of 0. jjg@428: */ jjg@428: void initParameterNames(MethodSymbol sym) { jjg@428: // make allowance for synthetic parameters. jjg@428: final int excessSlots = 4; jjg@428: int expectedParameterSlots = jjg@428: Code.width(sym.type.getParameterTypes()) + excessSlots; jjg@428: if (parameterNameIndices == null jjg@428: || parameterNameIndices.length < expectedParameterSlots) { jjg@428: parameterNameIndices = new int[expectedParameterSlots]; jjg@428: } else jjg@428: Arrays.fill(parameterNameIndices, 0); jjg@428: haveParameterNameIndices = false; jjg@428: } jjg@428: jjg@428: /** jjg@428: * Set the parameter names for a symbol from the name index in the jjg@428: * parameterNameIndicies array. The type of the symbol may have changed jjg@428: * while reading the method attributes (see the Signature attribute). jjg@428: * This may be because of generic information or because anonymous jjg@428: * synthetic parameters were added. The original type (as read from jjg@428: * the method descriptor) is used to help guess the existence of jjg@428: * anonymous synthetic parameters. jjg@428: * On completion, sym.savedParameter names will either be null (if jjg@428: * no parameter names were found in the class file) or will be set to a jjg@428: * list of names, one per entry in sym.type.getParameterTypes, with jjg@428: * any missing names represented by the empty name. jjg@428: */ jjg@428: void setParameterNames(MethodSymbol sym, Type jvmType) { jjg@428: // if no names were found in the class file, there's nothing more to do jjg@428: if (!haveParameterNameIndices) jjg@428: return; jjg@428: jjg@428: int firstParam = ((sym.flags() & STATIC) == 0) ? 1 : 0; jjg@428: // the code in readMethod may have skipped the first parameter when jjg@428: // setting up the MethodType. If so, we make a corresponding allowance jjg@428: // here for the position of the first parameter. Note that this jjg@428: // assumes the skipped parameter has a width of 1 -- i.e. it is not jjg@428: // a double width type (long or double.) jjg@428: if (sym.name == names.init && currentOwner.hasOuterInstance()) { jjg@428: // Sometimes anonymous classes don't have an outer jjg@428: // instance, however, there is no reliable way to tell so jjg@428: // we never strip this$n jjg@428: if (!currentOwner.name.isEmpty()) jjg@428: firstParam += 1; jjg@428: } jjg@428: jjg@428: if (sym.type != jvmType) { jjg@428: // reading the method attributes has caused the symbol's type to jjg@428: // be changed. (i.e. the Signature attribute.) This may happen if jjg@428: // there are hidden (synthetic) parameters in the descriptor, but jjg@428: // not in the Signature. The position of these hidden parameters jjg@428: // is unspecified; for now, assume they are at the beginning, and jjg@428: // so skip over them. The primary case for this is two hidden jjg@428: // parameters passed into Enum constructors. jjg@428: int skip = Code.width(jvmType.getParameterTypes()) jjg@428: - Code.width(sym.type.getParameterTypes()); jjg@428: firstParam += skip; jjg@428: } jjg@428: List paramNames = List.nil(); jjg@428: int index = firstParam; jjg@428: for (Type t: sym.type.getParameterTypes()) { jjg@428: int nameIdx = (index < parameterNameIndices.length jjg@428: ? parameterNameIndices[index] : 0); jjg@428: Name name = nameIdx == 0 ? names.empty : readName(nameIdx); jjg@428: paramNames = paramNames.prepend(name); jjg@428: index += Code.width(t); jjg@428: } jjg@428: sym.savedParameterNames = paramNames.reverse(); jjg@428: } jjg@428: ksrini@826: /** ksrini@826: * skip n bytes ksrini@826: */ ksrini@826: void skipBytes(int n) { ksrini@826: bp = bp + n; ksrini@826: } ksrini@826: duke@1: /** Skip a field or method duke@1: */ duke@1: void skipMember() { duke@1: bp = bp + 6; duke@1: char ac = nextChar(); duke@1: for (int i = 0; i < ac; i++) { duke@1: bp = bp + 2; duke@1: int attrLen = nextInt(); duke@1: bp = bp + attrLen; duke@1: } duke@1: } duke@1: duke@1: /** Enter type variables of this classtype and all enclosing ones in duke@1: * `typevars'. duke@1: */ duke@1: protected void enterTypevars(Type t) { duke@1: if (t.getEnclosingType() != null && t.getEnclosingType().tag == CLASS) duke@1: enterTypevars(t.getEnclosingType()); duke@1: for (List xs = t.getTypeArguments(); xs.nonEmpty(); xs = xs.tail) duke@1: typevars.enter(xs.head.tsym); duke@1: } duke@1: duke@1: protected void enterTypevars(Symbol sym) { duke@1: if (sym.owner.kind == MTH) { duke@1: enterTypevars(sym.owner); duke@1: enterTypevars(sym.owner.owner); duke@1: } duke@1: enterTypevars(sym.type); duke@1: } duke@1: duke@1: /** Read contents of a given class symbol `c'. Both external and internal duke@1: * versions of an inner class are read. duke@1: */ duke@1: void readClass(ClassSymbol c) { duke@1: ClassType ct = (ClassType)c.type; duke@1: duke@1: // allocate scope for members mcimadamore@858: c.members_field = new Scope(c); duke@1: duke@1: // prepare type variable table duke@1: typevars = typevars.dup(currentOwner); jjg@256: if (ct.getEnclosingType().tag == CLASS) jjg@256: enterTypevars(ct.getEnclosingType()); duke@1: duke@1: // read flags, or skip if this is an inner class duke@1: long flags = adjustClassFlags(nextChar()); duke@1: if (c.owner.kind == PCK) c.flags_field = flags; duke@1: duke@1: // read own class name and check that it matches duke@1: ClassSymbol self = readClassSymbol(nextChar()); duke@1: if (c != self) duke@1: throw badClassFile("class.file.wrong.class", duke@1: self.flatname); duke@1: duke@1: // class attributes must be read before class duke@1: // skip ahead to read class attributes duke@1: int startbp = bp; duke@1: nextChar(); duke@1: char interfaceCount = nextChar(); duke@1: bp += interfaceCount * 2; duke@1: char fieldCount = nextChar(); duke@1: for (int i = 0; i < fieldCount; i++) skipMember(); duke@1: char methodCount = nextChar(); duke@1: for (int i = 0; i < methodCount; i++) skipMember(); duke@1: readClassAttrs(c); duke@1: duke@1: if (readAllOfClassFile) { duke@1: for (int i = 1; i < poolObj.length; i++) readPool(i); duke@1: c.pool = new Pool(poolObj.length, poolObj); duke@1: } duke@1: duke@1: // reset and read rest of classinfo duke@1: bp = startbp; duke@1: int n = nextChar(); duke@1: if (ct.supertype_field == null) duke@1: ct.supertype_field = (n == 0) duke@1: ? Type.noType duke@1: : readClassSymbol(n).erasure(types); duke@1: n = nextChar(); duke@1: List is = List.nil(); duke@1: for (int i = 0; i < n; i++) { duke@1: Type _inter = readClassSymbol(nextChar()).erasure(types); duke@1: is = is.prepend(_inter); duke@1: } duke@1: if (ct.interfaces_field == null) duke@1: ct.interfaces_field = is.reverse(); duke@1: jjg@816: Assert.check(fieldCount == nextChar()); duke@1: for (int i = 0; i < fieldCount; i++) enterMember(c, readField()); jjg@816: Assert.check(methodCount == nextChar()); duke@1: for (int i = 0; i < methodCount; i++) enterMember(c, readMethod()); duke@1: duke@1: typevars = typevars.leave(); duke@1: } duke@1: duke@1: /** Read inner class info. For each inner/outer pair allocate a duke@1: * member class. duke@1: */ duke@1: void readInnerClasses(ClassSymbol c) { duke@1: int n = nextChar(); duke@1: for (int i = 0; i < n; i++) { duke@1: nextChar(); // skip inner class symbol duke@1: ClassSymbol outer = readClassSymbol(nextChar()); duke@1: Name name = readName(nextChar()); duke@1: if (name == null) name = names.empty; duke@1: long flags = adjustClassFlags(nextChar()); duke@1: if (outer != null) { // we have a member class duke@1: if (name == names.empty) duke@1: name = names.one; duke@1: ClassSymbol member = enterClass(name, outer); duke@1: if ((flags & STATIC) == 0) { duke@1: ((ClassType)member.type).setEnclosingType(outer.type); duke@1: if (member.erasure_field != null) duke@1: ((ClassType)member.erasure_field).setEnclosingType(types.erasure(outer.type)); duke@1: } duke@1: if (c == outer) { duke@1: member.flags_field = flags; duke@1: enterMember(c, member); duke@1: } duke@1: } duke@1: } duke@1: } duke@1: duke@1: /** Read a class file. duke@1: */ duke@1: private void readClassFile(ClassSymbol c) throws IOException { duke@1: int magic = nextInt(); duke@1: if (magic != JAVA_MAGIC) duke@1: throw badClassFile("illegal.start.of.class.file"); duke@1: jjg@256: minorVersion = nextChar(); jjg@256: majorVersion = nextChar(); duke@1: int maxMajor = Target.MAX().majorVersion; duke@1: int maxMinor = Target.MAX().minorVersion; duke@1: if (majorVersion > maxMajor || duke@1: majorVersion * 1000 + minorVersion < duke@1: Target.MIN().majorVersion * 1000 + Target.MIN().minorVersion) duke@1: { duke@1: if (majorVersion == (maxMajor + 1)) duke@1: log.warning("big.major.version", duke@1: currentClassFile, duke@1: majorVersion, duke@1: maxMajor); duke@1: else duke@1: throw badClassFile("wrong.version", duke@1: Integer.toString(majorVersion), duke@1: Integer.toString(minorVersion), duke@1: Integer.toString(maxMajor), duke@1: Integer.toString(maxMinor)); duke@1: } duke@1: else if (checkClassFile && duke@1: majorVersion == maxMajor && duke@1: minorVersion > maxMinor) duke@1: { duke@1: printCCF("found.later.version", duke@1: Integer.toString(minorVersion)); duke@1: } duke@1: indexPool(); duke@1: if (signatureBuffer.length < bp) { duke@1: int ns = Integer.highestOneBit(bp) << 1; duke@1: signatureBuffer = new byte[ns]; duke@1: } duke@1: readClass(c); duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Adjusting flags duke@1: ***********************************************************************/ duke@1: duke@1: long adjustFieldFlags(long flags) { duke@1: return flags; duke@1: } duke@1: long adjustMethodFlags(long flags) { duke@1: if ((flags & ACC_BRIDGE) != 0) { duke@1: flags &= ~ACC_BRIDGE; duke@1: flags |= BRIDGE; duke@1: if (!allowGenerics) duke@1: flags &= ~SYNTHETIC; duke@1: } duke@1: if ((flags & ACC_VARARGS) != 0) { duke@1: flags &= ~ACC_VARARGS; duke@1: flags |= VARARGS; duke@1: } duke@1: return flags; duke@1: } duke@1: long adjustClassFlags(long flags) { duke@1: return flags & ~ACC_SUPER; // SUPER and SYNCHRONIZED bits overloaded duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Loading Classes duke@1: ***********************************************************************/ duke@1: duke@1: /** Define a new class given its name and owner. duke@1: */ duke@1: public ClassSymbol defineClass(Name name, Symbol owner) { duke@1: ClassSymbol c = new ClassSymbol(0, name, owner); duke@1: if (owner.kind == PCK) jjg@816: Assert.checkNull(classes.get(c.flatname), c); duke@1: c.completer = this; duke@1: return c; duke@1: } duke@1: duke@1: /** Create a new toplevel or member class symbol with given name duke@1: * and owner and enter in `classes' unless already there. duke@1: */ duke@1: public ClassSymbol enterClass(Name name, TypeSymbol owner) { duke@1: Name flatname = TypeSymbol.formFlatName(name, owner); duke@1: ClassSymbol c = classes.get(flatname); duke@1: if (c == null) { duke@1: c = defineClass(name, owner); duke@1: classes.put(flatname, c); duke@1: } else if ((c.name != name || c.owner != owner) && owner.kind == TYP && c.owner.kind == PCK) { duke@1: // reassign fields of classes that might have been loaded with duke@1: // their flat names. duke@1: c.owner.members().remove(c); duke@1: c.name = name; duke@1: c.owner = owner; duke@1: c.fullname = ClassSymbol.formFullName(name, owner); duke@1: } duke@1: return c; duke@1: } duke@1: duke@1: /** duke@1: * Creates a new toplevel class symbol with given flat name and duke@1: * given class (or source) file. duke@1: * duke@1: * @param flatName a fully qualified binary class name duke@1: * @param classFile the class file or compilation unit defining duke@1: * the class (may be {@code null}) duke@1: * @return a newly created class symbol duke@1: * @throws AssertionError if the class symbol already exists duke@1: */ duke@1: public ClassSymbol enterClass(Name flatName, JavaFileObject classFile) { duke@1: ClassSymbol cs = classes.get(flatName); duke@1: if (cs != null) { duke@1: String msg = Log.format("%s: completer = %s; class file = %s; source file = %s", duke@1: cs.fullname, duke@1: cs.completer, duke@1: cs.classfile, duke@1: cs.sourcefile); duke@1: throw new AssertionError(msg); duke@1: } duke@1: Name packageName = Convert.packagePart(flatName); duke@1: PackageSymbol owner = packageName.isEmpty() duke@1: ? syms.unnamedPackage duke@1: : enterPackage(packageName); duke@1: cs = defineClass(Convert.shortName(flatName), owner); duke@1: cs.classfile = classFile; duke@1: classes.put(flatName, cs); duke@1: return cs; duke@1: } duke@1: duke@1: /** Create a new member or toplevel class symbol with given flat name duke@1: * and enter in `classes' unless already there. duke@1: */ duke@1: public ClassSymbol enterClass(Name flatname) { duke@1: ClassSymbol c = classes.get(flatname); duke@1: if (c == null) duke@1: return enterClass(flatname, (JavaFileObject)null); duke@1: else duke@1: return c; duke@1: } duke@1: duke@1: private boolean suppressFlush = false; duke@1: duke@1: /** Completion for classes to be loaded. Before a class is loaded duke@1: * we make sure its enclosing class (if any) is loaded. duke@1: */ duke@1: public void complete(Symbol sym) throws CompletionFailure { duke@1: if (sym.kind == TYP) { duke@1: ClassSymbol c = (ClassSymbol)sym; duke@1: c.members_field = new Scope.ErrorScope(c); // make sure it's always defined jjg@256: boolean saveSuppressFlush = suppressFlush; jjg@256: suppressFlush = true; duke@1: try { duke@1: completeOwners(c.owner); duke@1: completeEnclosing(c); duke@1: } finally { jjg@256: suppressFlush = saveSuppressFlush; duke@1: } duke@1: fillIn(c); duke@1: } else if (sym.kind == PCK) { duke@1: PackageSymbol p = (PackageSymbol)sym; duke@1: try { duke@1: fillIn(p); duke@1: } catch (IOException ex) { duke@1: throw new CompletionFailure(sym, ex.getLocalizedMessage()).initCause(ex); duke@1: } duke@1: } duke@1: if (!filling && !suppressFlush) duke@1: annotate.flush(); // finish attaching annotations duke@1: } duke@1: duke@1: /** complete up through the enclosing package. */ duke@1: private void completeOwners(Symbol o) { duke@1: if (o.kind != PCK) completeOwners(o.owner); duke@1: o.complete(); duke@1: } duke@1: duke@1: /** duke@1: * Tries to complete lexically enclosing classes if c looks like a duke@1: * nested class. This is similar to completeOwners but handles duke@1: * the situation when a nested class is accessed directly as it is duke@1: * possible with the Tree API or javax.lang.model.*. duke@1: */ duke@1: private void completeEnclosing(ClassSymbol c) { duke@1: if (c.owner.kind == PCK) { duke@1: Symbol owner = c.owner; duke@1: for (Name name : Convert.enclosingCandidates(Convert.shortName(c.name))) { duke@1: Symbol encl = owner.members().lookup(name).sym; duke@1: if (encl == null) duke@1: encl = classes.get(TypeSymbol.formFlatName(name, owner)); duke@1: if (encl != null) duke@1: encl.complete(); duke@1: } duke@1: } duke@1: } duke@1: duke@1: /** We can only read a single class file at a time; this duke@1: * flag keeps track of when we are currently reading a class duke@1: * file. duke@1: */ duke@1: private boolean filling = false; duke@1: duke@1: /** Fill in definition of class `c' from corresponding class or duke@1: * source file. duke@1: */ duke@1: private void fillIn(ClassSymbol c) { duke@1: if (completionFailureName == c.fullname) { duke@1: throw new CompletionFailure(c, "user-selected completion failure by class name"); duke@1: } duke@1: currentOwner = c; jjg@776: warnedAttrs.clear(); duke@1: JavaFileObject classfile = c.classfile; duke@1: if (classfile != null) { duke@1: JavaFileObject previousClassFile = currentClassFile; duke@1: try { jjg@816: if (filling) { jjg@816: Assert.error("Filling " + classfile.toUri() + " during " + previousClassFile); jjg@816: } duke@1: currentClassFile = classfile; duke@1: if (verbose) { jjg@909: log.printVerbose("loading", currentClassFile.toString()); duke@1: } duke@1: if (classfile.getKind() == JavaFileObject.Kind.CLASS) { duke@1: filling = true; duke@1: try { duke@1: bp = 0; duke@1: buf = readInputStream(buf, classfile.openInputStream()); duke@1: readClassFile(c); duke@1: if (!missingTypeVariables.isEmpty() && !foundTypeVariables.isEmpty()) { duke@1: List missing = missingTypeVariables; duke@1: List found = foundTypeVariables; duke@1: missingTypeVariables = List.nil(); duke@1: foundTypeVariables = List.nil(); duke@1: filling = false; duke@1: ClassType ct = (ClassType)currentOwner.type; duke@1: ct.supertype_field = duke@1: types.subst(ct.supertype_field, missing, found); duke@1: ct.interfaces_field = duke@1: types.subst(ct.interfaces_field, missing, found); duke@1: } else if (missingTypeVariables.isEmpty() != duke@1: foundTypeVariables.isEmpty()) { duke@1: Name name = missingTypeVariables.head.tsym.name; duke@1: throw badClassFile("undecl.type.var", name); duke@1: } duke@1: } finally { duke@1: missingTypeVariables = List.nil(); duke@1: foundTypeVariables = List.nil(); duke@1: filling = false; duke@1: } duke@1: } else { duke@1: if (sourceCompleter != null) { duke@1: sourceCompleter.complete(c); duke@1: } else { duke@1: throw new IllegalStateException("Source completer required to read " duke@1: + classfile.toUri()); duke@1: } duke@1: } duke@1: return; duke@1: } catch (IOException ex) { duke@1: throw badClassFile("unable.to.access.file", ex.getMessage()); duke@1: } finally { duke@1: currentClassFile = previousClassFile; duke@1: } duke@1: } else { jjg@12: JCDiagnostic diag = jjg@12: diagFactory.fragment("class.file.not.found", c.flatname); duke@1: throw jjg@12: newCompletionFailure(c, diag); duke@1: } duke@1: } duke@1: // where duke@1: private static byte[] readInputStream(byte[] buf, InputStream s) throws IOException { duke@1: try { duke@1: buf = ensureCapacity(buf, s.available()); duke@1: int r = s.read(buf); duke@1: int bp = 0; duke@1: while (r != -1) { duke@1: bp += r; duke@1: buf = ensureCapacity(buf, bp); duke@1: r = s.read(buf, bp, buf.length - bp); duke@1: } duke@1: return buf; duke@1: } finally { duke@1: try { duke@1: s.close(); duke@1: } catch (IOException e) { duke@1: /* Ignore any errors, as this stream may have already duke@1: * thrown a related exception which is the one that duke@1: * should be reported. duke@1: */ duke@1: } duke@1: } duke@1: } ksrini@804: /* ksrini@804: * ensureCapacity will increase the buffer as needed, taking note that ksrini@804: * the new buffer will always be greater than the needed and never ksrini@804: * exactly equal to the needed size or bp. If equal then the read (above) ksrini@804: * will infinitely loop as buf.length - bp == 0. ksrini@804: */ duke@1: private static byte[] ensureCapacity(byte[] buf, int needed) { ksrini@804: if (buf.length <= needed) { duke@1: byte[] old = buf; duke@1: buf = new byte[Integer.highestOneBit(needed) << 1]; duke@1: System.arraycopy(old, 0, buf, 0, old.length); duke@1: } duke@1: return buf; duke@1: } duke@1: /** Static factory for CompletionFailure objects. duke@1: * In practice, only one can be used at a time, so we share one duke@1: * to reduce the expense of allocating new exception objects. duke@1: */ jjg@12: private CompletionFailure newCompletionFailure(TypeSymbol c, jjg@12: JCDiagnostic diag) { duke@1: if (!cacheCompletionFailure) { duke@1: // log.warning("proc.messager", duke@1: // Log.getLocalizedString("class.file.not.found", c.flatname)); duke@1: // c.debug.printStackTrace(); jjg@12: return new CompletionFailure(c, diag); duke@1: } else { duke@1: CompletionFailure result = cachedCompletionFailure; duke@1: result.sym = c; jjg@12: result.diag = diag; duke@1: return result; duke@1: } duke@1: } duke@1: private CompletionFailure cachedCompletionFailure = jjg@12: new CompletionFailure(null, (JCDiagnostic) null); duke@1: { duke@1: cachedCompletionFailure.setStackTrace(new StackTraceElement[0]); duke@1: } duke@1: duke@1: /** Load a toplevel class with given fully qualified name duke@1: * The class is entered into `classes' only if load was successful. duke@1: */ duke@1: public ClassSymbol loadClass(Name flatname) throws CompletionFailure { duke@1: boolean absent = classes.get(flatname) == null; duke@1: ClassSymbol c = enterClass(flatname); duke@1: if (c.members_field == null && c.completer != null) { duke@1: try { duke@1: c.complete(); duke@1: } catch (CompletionFailure ex) { duke@1: if (absent) classes.remove(flatname); duke@1: throw ex; duke@1: } duke@1: } duke@1: return c; duke@1: } duke@1: duke@1: /************************************************************************ duke@1: * Loading Packages duke@1: ***********************************************************************/ duke@1: duke@1: /** Check to see if a package exists, given its fully qualified name. duke@1: */ duke@1: public boolean packageExists(Name fullname) { duke@1: return enterPackage(fullname).exists(); duke@1: } duke@1: duke@1: /** Make a package, given its fully qualified name. duke@1: */ duke@1: public PackageSymbol enterPackage(Name fullname) { duke@1: PackageSymbol p = packages.get(fullname); duke@1: if (p == null) { jjg@816: Assert.check(!fullname.isEmpty(), "rootPackage missing!"); duke@1: p = new PackageSymbol( duke@1: Convert.shortName(fullname), duke@1: enterPackage(Convert.packagePart(fullname))); duke@1: p.completer = this; duke@1: packages.put(fullname, p); duke@1: } duke@1: return p; duke@1: } duke@1: duke@1: /** Make a package, given its unqualified name and enclosing package. duke@1: */ duke@1: public PackageSymbol enterPackage(Name name, PackageSymbol owner) { duke@1: return enterPackage(TypeSymbol.formFullName(name, owner)); duke@1: } duke@1: duke@1: /** Include class corresponding to given class file in package, duke@1: * unless (1) we already have one the same kind (.class or .java), or duke@1: * (2) we have one of the other kind, and the given class file duke@1: * is older. duke@1: */ duke@1: protected void includeClassFile(PackageSymbol p, JavaFileObject file) { duke@1: if ((p.flags_field & EXISTS) == 0) duke@1: for (Symbol q = p; q != null && q.kind == PCK; q = q.owner) duke@1: q.flags_field |= EXISTS; duke@1: JavaFileObject.Kind kind = file.getKind(); duke@1: int seen; duke@1: if (kind == JavaFileObject.Kind.CLASS) duke@1: seen = CLASS_SEEN; duke@1: else duke@1: seen = SOURCE_SEEN; duke@1: String binaryName = fileManager.inferBinaryName(currentLoc, file); duke@1: int lastDot = binaryName.lastIndexOf("."); duke@1: Name classname = names.fromString(binaryName.substring(lastDot + 1)); duke@1: boolean isPkgInfo = classname == names.package_info; duke@1: ClassSymbol c = isPkgInfo duke@1: ? p.package_info duke@1: : (ClassSymbol) p.members_field.lookup(classname).sym; duke@1: if (c == null) { duke@1: c = enterClass(classname, p); duke@1: if (c.classfile == null) // only update the file if's it's newly created duke@1: c.classfile = file; duke@1: if (isPkgInfo) { duke@1: p.package_info = c; duke@1: } else { duke@1: if (c.owner == p) // it might be an inner class duke@1: p.members_field.enter(c); duke@1: } duke@1: } else if (c.classfile != null && (c.flags_field & seen) == 0) { duke@1: // if c.classfile == null, we are currently compiling this class duke@1: // and no further action is necessary. duke@1: // if (c.flags_field & seen) != 0, we have already encountered duke@1: // a file of the same kind; again no further action is necessary. duke@1: if ((c.flags_field & (CLASS_SEEN | SOURCE_SEEN)) != 0) duke@1: c.classfile = preferredFileObject(file, c.classfile); duke@1: } duke@1: c.flags_field |= seen; duke@1: } duke@1: duke@1: /** Implement policy to choose to derive information from a source duke@1: * file or a class file when both are present. May be overridden duke@1: * by subclasses. duke@1: */ duke@1: protected JavaFileObject preferredFileObject(JavaFileObject a, duke@1: JavaFileObject b) { duke@1: duke@1: if (preferSource) duke@1: return (a.getKind() == JavaFileObject.Kind.SOURCE) ? a : b; duke@1: else { duke@1: long adate = a.getLastModified(); duke@1: long bdate = b.getLastModified(); duke@1: // 6449326: policy for bad lastModifiedTime in ClassReader duke@1: //assert adate >= 0 && bdate >= 0; duke@1: return (adate > bdate) ? a : b; duke@1: } duke@1: } duke@1: duke@1: /** duke@1: * specifies types of files to be read when filling in a package symbol duke@1: */ duke@1: protected EnumSet getPackageFileKinds() { duke@1: return EnumSet.of(JavaFileObject.Kind.CLASS, JavaFileObject.Kind.SOURCE); duke@1: } duke@1: duke@1: /** duke@1: * this is used to support javadoc duke@1: */ duke@1: protected void extraFileActions(PackageSymbol pack, JavaFileObject fe) { duke@1: } duke@1: duke@1: protected Location currentLoc; // FIXME duke@1: duke@1: private boolean verbosePath = true; duke@1: duke@1: /** Load directory of package into members scope. duke@1: */ duke@1: private void fillIn(PackageSymbol p) throws IOException { duke@1: if (p.members_field == null) p.members_field = new Scope(p); duke@1: String packageName = p.fullname.toString(); duke@1: duke@1: Set kinds = getPackageFileKinds(); duke@1: duke@1: fillIn(p, PLATFORM_CLASS_PATH, duke@1: fileManager.list(PLATFORM_CLASS_PATH, duke@1: packageName, duke@1: EnumSet.of(JavaFileObject.Kind.CLASS), duke@1: false)); duke@1: duke@1: Set classKinds = EnumSet.copyOf(kinds); duke@1: classKinds.remove(JavaFileObject.Kind.SOURCE); duke@1: boolean wantClassFiles = !classKinds.isEmpty(); duke@1: duke@1: Set sourceKinds = EnumSet.copyOf(kinds); duke@1: sourceKinds.remove(JavaFileObject.Kind.CLASS); duke@1: boolean wantSourceFiles = !sourceKinds.isEmpty(); duke@1: duke@1: boolean haveSourcePath = fileManager.hasLocation(SOURCE_PATH); duke@1: duke@1: if (verbose && verbosePath) { duke@1: if (fileManager instanceof StandardJavaFileManager) { duke@1: StandardJavaFileManager fm = (StandardJavaFileManager)fileManager; duke@1: if (haveSourcePath && wantSourceFiles) { duke@1: List path = List.nil(); duke@1: for (File file : fm.getLocation(SOURCE_PATH)) { duke@1: path = path.prepend(file); duke@1: } jjg@909: log.printVerbose("sourcepath", path.reverse().toString()); duke@1: } else if (wantSourceFiles) { duke@1: List path = List.nil(); duke@1: for (File file : fm.getLocation(CLASS_PATH)) { duke@1: path = path.prepend(file); duke@1: } jjg@909: log.printVerbose("sourcepath", path.reverse().toString()); duke@1: } duke@1: if (wantClassFiles) { duke@1: List path = List.nil(); duke@1: for (File file : fm.getLocation(PLATFORM_CLASS_PATH)) { duke@1: path = path.prepend(file); duke@1: } duke@1: for (File file : fm.getLocation(CLASS_PATH)) { duke@1: path = path.prepend(file); duke@1: } jjg@909: log.printVerbose("classpath", path.reverse().toString()); duke@1: } duke@1: } duke@1: } duke@1: duke@1: if (wantSourceFiles && !haveSourcePath) { duke@1: fillIn(p, CLASS_PATH, duke@1: fileManager.list(CLASS_PATH, duke@1: packageName, duke@1: kinds, duke@1: false)); duke@1: } else { duke@1: if (wantClassFiles) duke@1: fillIn(p, CLASS_PATH, duke@1: fileManager.list(CLASS_PATH, duke@1: packageName, duke@1: classKinds, duke@1: false)); duke@1: if (wantSourceFiles) duke@1: fillIn(p, SOURCE_PATH, duke@1: fileManager.list(SOURCE_PATH, duke@1: packageName, duke@1: sourceKinds, duke@1: false)); duke@1: } duke@1: verbosePath = false; duke@1: } duke@1: // where duke@1: private void fillIn(PackageSymbol p, duke@1: Location location, duke@1: Iterable files) duke@1: { duke@1: currentLoc = location; duke@1: for (JavaFileObject fo : files) { duke@1: switch (fo.getKind()) { duke@1: case CLASS: duke@1: case SOURCE: { duke@1: // TODO pass binaryName to includeClassFile duke@1: String binaryName = fileManager.inferBinaryName(currentLoc, fo); duke@1: String simpleName = binaryName.substring(binaryName.lastIndexOf(".") + 1); duke@1: if (SourceVersion.isIdentifier(simpleName) || duke@1: simpleName.equals("package-info")) duke@1: includeClassFile(p, fo); duke@1: break; duke@1: } duke@1: default: duke@1: extraFileActions(p, fo); duke@1: } duke@1: } duke@1: } duke@1: duke@1: /** Output for "-checkclassfile" option. duke@1: * @param key The key to look up the correct internationalized string. duke@1: * @param arg An argument for substitution into the output string. duke@1: */ duke@1: private void printCCF(String key, Object arg) { jjg@604: log.printNoteLines(key, arg); duke@1: } duke@1: duke@1: duke@1: public interface SourceCompleter { duke@1: void complete(ClassSymbol sym) duke@1: throws CompletionFailure; duke@1: } duke@1: duke@1: /** duke@1: * A subclass of JavaFileObject for the sourcefile attribute found in a classfile. duke@1: * The attribute is only the last component of the original filename, so is unlikely duke@1: * to be valid as is, so operations other than those to access the name throw duke@1: * UnsupportedOperationException duke@1: */ duke@1: private static class SourceFileObject extends BaseFileObject { duke@1: duke@1: /** The file's name. duke@1: */ duke@1: private Name name; jjg@57: private Name flatname; duke@1: jjg@57: public SourceFileObject(Name name, Name flatname) { jjg@57: super(null); // no file manager; never referenced for this file object duke@1: this.name = name; jjg@57: this.flatname = flatname; duke@1: } duke@1: jjg@415: @Override jjg@415: public URI toUri() { jjg@415: try { jjg@415: return new URI(null, name.toString(), null); jjg@415: } catch (URISyntaxException e) { jjg@415: throw new CannotCreateUriError(name.toString(), e); jjg@415: } jjg@415: } jjg@415: jjg@415: @Override jjg@415: public String getName() { jjg@415: return name.toString(); jjg@415: } jjg@415: jjg@415: @Override jjg@415: public String getShortName() { jjg@415: return getName(); jjg@415: } jjg@415: jjg@415: @Override jjg@415: public JavaFileObject.Kind getKind() { jjg@415: return getKind(getName()); jjg@415: } jjg@415: jjg@415: @Override duke@1: public InputStream openInputStream() { duke@1: throw new UnsupportedOperationException(); duke@1: } duke@1: jjg@415: @Override duke@1: public OutputStream openOutputStream() { duke@1: throw new UnsupportedOperationException(); duke@1: } duke@1: jjg@415: @Override jjg@415: public CharBuffer getCharContent(boolean ignoreEncodingErrors) { duke@1: throw new UnsupportedOperationException(); duke@1: } duke@1: jjg@415: @Override jjg@415: public Reader openReader(boolean ignoreEncodingErrors) { jjg@415: throw new UnsupportedOperationException(); jjg@415: } jjg@415: jjg@415: @Override duke@1: public Writer openWriter() { duke@1: throw new UnsupportedOperationException(); duke@1: } duke@1: jjg@415: @Override duke@1: public long getLastModified() { duke@1: throw new UnsupportedOperationException(); duke@1: } duke@1: jjg@415: @Override duke@1: public boolean delete() { duke@1: throw new UnsupportedOperationException(); duke@1: } duke@1: jjg@415: @Override jjg@415: protected String inferBinaryName(Iterable path) { jjg@415: return flatname.toString(); jjg@415: } jjg@415: jjg@415: @Override jjg@415: public boolean isNameCompatible(String simpleName, JavaFileObject.Kind kind) { jjg@415: return true; // fail-safe mode duke@1: } duke@1: jjg@424: /** jjg@424: * Check if two file objects are equal. jjg@424: * SourceFileObjects are just placeholder objects for the value of a jjg@424: * SourceFile attribute, and do not directly represent specific files. jjg@424: * Two SourceFileObjects are equal if their names are equal. jjg@424: */ duke@1: @Override duke@1: public boolean equals(Object other) { jjg@424: if (this == other) jjg@424: return true; jjg@424: duke@1: if (!(other instanceof SourceFileObject)) duke@1: return false; jjg@424: duke@1: SourceFileObject o = (SourceFileObject) other; duke@1: return name.equals(o.name); duke@1: } duke@1: duke@1: @Override duke@1: public int hashCode() { duke@1: return name.hashCode(); duke@1: } duke@1: } duke@1: }