Mercurial > hg > jdk9-shenandoah > langtools
view src/jdk.compiler/share/classes/com/sun/tools/javac/jvm/ClassWriter.java @ 3011:24d08e405e5b
8129547: Excess entries in BootstrapMethods with the same (bsm, bsmKind, bsmStaticArgs), but different dynamicArgs
Summary: Pool.DynamicMethod implementation for hash/equals leads to duplicate BSM entries.
Reviewed-by: jlahoda
Contributed-by: aleksey.shipilev@oracle.com
| author | mcimadamore |
|---|---|
| date | Mon, 24 Aug 2015 13:15:12 +0100 |
| parents | e77eb6b8977e |
| children | 45897784a998 |
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/* * Copyright (c) 1999, 2015, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package com.sun.tools.javac.jvm; import java.io.*; import java.util.LinkedHashMap; import java.util.Map; import java.util.Set; import java.util.HashSet; import javax.tools.JavaFileManager; import javax.tools.FileObject; import javax.tools.JavaFileObject; import com.sun.tools.javac.code.*; import com.sun.tools.javac.code.Attribute.RetentionPolicy; import com.sun.tools.javac.code.Symbol.*; import com.sun.tools.javac.code.Type.*; import com.sun.tools.javac.code.Types.UniqueType; import com.sun.tools.javac.file.BaseFileObject; import com.sun.tools.javac.jvm.Pool.DynamicMethod; import com.sun.tools.javac.jvm.Pool.Method; import com.sun.tools.javac.jvm.Pool.MethodHandle; import com.sun.tools.javac.jvm.Pool.Variable; import com.sun.tools.javac.util.*; import static com.sun.tools.javac.code.Flags.*; import static com.sun.tools.javac.code.Kinds.Kind.*; import static com.sun.tools.javac.code.Scope.LookupKind.NON_RECURSIVE; import static com.sun.tools.javac.code.TypeTag.*; import static com.sun.tools.javac.main.Option.*; import static javax.tools.StandardLocation.CLASS_OUTPUT; /** This class provides operations to map an internal symbol table graph * rooted in a ClassSymbol into a classfile. * * <p><b>This is NOT part of any supported API. * If you write code that depends on this, you do so at your own risk. * This code and its internal interfaces are subject to change or * deletion without notice.</b> */ public class ClassWriter extends ClassFile { protected static final Context.Key<ClassWriter> classWriterKey = new Context.Key<>(); private final Options options; /** Switch: verbose output. */ private boolean verbose; /** Switch: scramble private field names. */ private boolean scramble; /** Switch: scramble all field names. */ private boolean scrambleAll; /** Switch: retrofit mode. */ private boolean retrofit; /** Switch: emit source file attribute. */ private boolean emitSourceFile; /** Switch: generate CharacterRangeTable attribute. */ private boolean genCrt; /** Switch: describe the generated stackmap. */ boolean debugstackmap; /** * Target class version. */ private Target target; /** * Source language version. */ private Source source; /** Type utilities. */ private Types types; /** The initial sizes of the data and constant pool buffers. * Sizes are increased when buffers get full. */ static final int DATA_BUF_SIZE = 0x0fff0; static final int POOL_BUF_SIZE = 0x1fff0; /** An output buffer for member info. */ ByteBuffer databuf = new ByteBuffer(DATA_BUF_SIZE); /** An output buffer for the constant pool. */ ByteBuffer poolbuf = new ByteBuffer(POOL_BUF_SIZE); /** The constant pool. */ Pool pool; /** The inner classes to be written, as a set. */ Set<ClassSymbol> innerClasses; /** The inner classes to be written, as a queue where * enclosing classes come first. */ ListBuffer<ClassSymbol> innerClassesQueue; /** The bootstrap methods to be written in the corresponding class attribute * (one for each invokedynamic) */ Map<DynamicMethod.BootstrapMethodsKey, MethodHandle> bootstrapMethods; /** The log to use for verbose output. */ private final Log log; /** The name table. */ private final Names names; /** Access to files. */ private final JavaFileManager fileManager; /** Sole signature generator */ private final CWSignatureGenerator signatureGen; /** The tags and constants used in compressed stackmap. */ static final int SAME_FRAME_SIZE = 64; static final int SAME_LOCALS_1_STACK_ITEM_EXTENDED = 247; static final int SAME_FRAME_EXTENDED = 251; static final int FULL_FRAME = 255; static final int MAX_LOCAL_LENGTH_DIFF = 4; /** Get the ClassWriter instance for this context. */ public static ClassWriter instance(Context context) { ClassWriter instance = context.get(classWriterKey); if (instance == null) instance = new ClassWriter(context); return instance; } /** Construct a class writer, given an options table. */ protected ClassWriter(Context context) { context.put(classWriterKey, this); log = Log.instance(context); names = Names.instance(context); options = Options.instance(context); target = Target.instance(context); source = Source.instance(context); types = Types.instance(context); fileManager = context.get(JavaFileManager.class); signatureGen = new CWSignatureGenerator(types); verbose = options.isSet(VERBOSE); scramble = options.isSet("-scramble"); scrambleAll = options.isSet("-scrambleAll"); retrofit = options.isSet("-retrofit"); genCrt = options.isSet(XJCOV); debugstackmap = options.isSet("debugstackmap"); emitSourceFile = options.isUnset(G_CUSTOM) || options.isSet(G_CUSTOM, "source"); String dumpModFlags = options.get("dumpmodifiers"); dumpClassModifiers = (dumpModFlags != null && dumpModFlags.indexOf('c') != -1); dumpFieldModifiers = (dumpModFlags != null && dumpModFlags.indexOf('f') != -1); dumpInnerClassModifiers = (dumpModFlags != null && dumpModFlags.indexOf('i') != -1); dumpMethodModifiers = (dumpModFlags != null && dumpModFlags.indexOf('m') != -1); } /****************************************************************** * Diagnostics: dump generated class names and modifiers ******************************************************************/ /** Value of option 'dumpmodifiers' is a string * indicating which modifiers should be dumped for debugging: * 'c' -- classes * 'f' -- fields * 'i' -- innerclass attributes * 'm' -- methods * For example, to dump everything: * javac -XDdumpmodifiers=cifm MyProg.java */ private final boolean dumpClassModifiers; // -XDdumpmodifiers=c private final boolean dumpFieldModifiers; // -XDdumpmodifiers=f private final boolean dumpInnerClassModifiers; // -XDdumpmodifiers=i private final boolean dumpMethodModifiers; // -XDdumpmodifiers=m /** Return flags as a string, separated by " ". */ public static String flagNames(long flags) { StringBuilder sbuf = new StringBuilder(); int i = 0; long f = flags & StandardFlags; while (f != 0) { if ((f & 1) != 0) { sbuf.append(" "); sbuf.append(flagName[i]); } f = f >> 1; i++; } return sbuf.toString(); } //where private final static String[] flagName = { "PUBLIC", "PRIVATE", "PROTECTED", "STATIC", "FINAL", "SUPER", "VOLATILE", "TRANSIENT", "NATIVE", "INTERFACE", "ABSTRACT", "STRICTFP"}; /****************************************************************** * Output routines ******************************************************************/ /** Write a character into given byte buffer; * byte buffer will not be grown. */ void putChar(ByteBuffer buf, int op, int x) { buf.elems[op ] = (byte)((x >> 8) & 0xFF); buf.elems[op+1] = (byte)((x ) & 0xFF); } /** Write an integer into given byte buffer; * byte buffer will not be grown. */ void putInt(ByteBuffer buf, int adr, int x) { buf.elems[adr ] = (byte)((x >> 24) & 0xFF); buf.elems[adr+1] = (byte)((x >> 16) & 0xFF); buf.elems[adr+2] = (byte)((x >> 8) & 0xFF); buf.elems[adr+3] = (byte)((x ) & 0xFF); } /** * Signature Generation */ private class CWSignatureGenerator extends Types.SignatureGenerator { /** * An output buffer for type signatures. */ ByteBuffer sigbuf = new ByteBuffer(); CWSignatureGenerator(Types types) { super(types); } /** * Assemble signature of given type in string buffer. * Check for uninitialized types before calling the general case. */ @Override public void assembleSig(Type type) { switch (type.getTag()) { case UNINITIALIZED_THIS: case UNINITIALIZED_OBJECT: // we don't yet have a spec for uninitialized types in the // local variable table assembleSig(types.erasure(((UninitializedType)type).qtype)); break; default: super.assembleSig(type); } } @Override protected void append(char ch) { sigbuf.appendByte(ch); } @Override protected void append(byte[] ba) { sigbuf.appendBytes(ba); } @Override protected void append(Name name) { sigbuf.appendName(name); } @Override protected void classReference(ClassSymbol c) { enterInner(c); } private void reset() { sigbuf.reset(); } private Name toName() { return sigbuf.toName(names); } private boolean isEmpty() { return sigbuf.length == 0; } } /** * Return signature of given type */ Name typeSig(Type type) { Assert.check(signatureGen.isEmpty()); //- System.out.println(" ? " + type); signatureGen.assembleSig(type); Name n = signatureGen.toName(); signatureGen.reset(); //- System.out.println(" " + n); return n; } /** Given a type t, return the extended class name of its erasure in * external representation. */ public Name xClassName(Type t) { if (t.hasTag(CLASS)) { return names.fromUtf(externalize(t.tsym.flatName())); } else if (t.hasTag(ARRAY)) { return typeSig(types.erasure(t)); } else { throw new AssertionError("xClassName expects class or array type, got " + t); } } /****************************************************************** * Writing the Constant Pool ******************************************************************/ /** Thrown when the constant pool is over full. */ public static class PoolOverflow extends Exception { private static final long serialVersionUID = 0; public PoolOverflow() {} } public static class StringOverflow extends Exception { private static final long serialVersionUID = 0; public final String value; public StringOverflow(String s) { value = s; } } /** Write constant pool to pool buffer. * Note: during writing, constant pool * might grow since some parts of constants still need to be entered. */ void writePool(Pool pool) throws PoolOverflow, StringOverflow { int poolCountIdx = poolbuf.length; poolbuf.appendChar(0); int i = 1; while (i < pool.pp) { Object value = pool.pool[i]; Assert.checkNonNull(value); if (value instanceof Method || value instanceof Variable) value = ((DelegatedSymbol)value).getUnderlyingSymbol(); if (value instanceof MethodSymbol) { MethodSymbol m = (MethodSymbol)value; if (!m.isDynamic()) { poolbuf.appendByte((m.owner.flags() & INTERFACE) != 0 ? CONSTANT_InterfaceMethodref : CONSTANT_Methodref); poolbuf.appendChar(pool.put(m.owner)); poolbuf.appendChar(pool.put(nameType(m))); } else { //invokedynamic DynamicMethodSymbol dynSym = (DynamicMethodSymbol)m; MethodHandle handle = new MethodHandle(dynSym.bsmKind, dynSym.bsm, types); DynamicMethod.BootstrapMethodsKey key = new DynamicMethod.BootstrapMethodsKey(dynSym, types); bootstrapMethods.put(key, handle); //init cp entries pool.put(names.BootstrapMethods); pool.put(handle); for (Object staticArg : dynSym.staticArgs) { pool.put(staticArg); } poolbuf.appendByte(CONSTANT_InvokeDynamic); poolbuf.appendChar(bootstrapMethods.size() - 1); poolbuf.appendChar(pool.put(nameType(dynSym))); } } else if (value instanceof VarSymbol) { VarSymbol v = (VarSymbol)value; poolbuf.appendByte(CONSTANT_Fieldref); poolbuf.appendChar(pool.put(v.owner)); poolbuf.appendChar(pool.put(nameType(v))); } else if (value instanceof Name) { poolbuf.appendByte(CONSTANT_Utf8); byte[] bs = ((Name)value).toUtf(); poolbuf.appendChar(bs.length); poolbuf.appendBytes(bs, 0, bs.length); if (bs.length > Pool.MAX_STRING_LENGTH) throw new StringOverflow(value.toString()); } else if (value instanceof ClassSymbol) { ClassSymbol c = (ClassSymbol)value; if (c.owner.kind == TYP) pool.put(c.owner); poolbuf.appendByte(CONSTANT_Class); if (c.type.hasTag(ARRAY)) { poolbuf.appendChar(pool.put(typeSig(c.type))); } else { poolbuf.appendChar(pool.put(names.fromUtf(externalize(c.flatname)))); enterInner(c); } } else if (value instanceof NameAndType) { NameAndType nt = (NameAndType)value; poolbuf.appendByte(CONSTANT_NameandType); poolbuf.appendChar(pool.put(nt.name)); poolbuf.appendChar(pool.put(typeSig(nt.uniqueType.type))); } else if (value instanceof Integer) { poolbuf.appendByte(CONSTANT_Integer); poolbuf.appendInt(((Integer)value).intValue()); } else if (value instanceof Long) { poolbuf.appendByte(CONSTANT_Long); poolbuf.appendLong(((Long)value).longValue()); i++; } else if (value instanceof Float) { poolbuf.appendByte(CONSTANT_Float); poolbuf.appendFloat(((Float)value).floatValue()); } else if (value instanceof Double) { poolbuf.appendByte(CONSTANT_Double); poolbuf.appendDouble(((Double)value).doubleValue()); i++; } else if (value instanceof String) { poolbuf.appendByte(CONSTANT_String); poolbuf.appendChar(pool.put(names.fromString((String)value))); } else if (value instanceof UniqueType) { Type type = ((UniqueType)value).type; if (type.hasTag(METHOD)) { poolbuf.appendByte(CONSTANT_MethodType); poolbuf.appendChar(pool.put(typeSig((MethodType)type))); } else { Assert.check(type.hasTag(ARRAY)); poolbuf.appendByte(CONSTANT_Class); poolbuf.appendChar(pool.put(xClassName(type))); } } else if (value instanceof MethodHandle) { MethodHandle ref = (MethodHandle)value; poolbuf.appendByte(CONSTANT_MethodHandle); poolbuf.appendByte(ref.refKind); poolbuf.appendChar(pool.put(ref.refSym)); } else { Assert.error("writePool " + value); } i++; } if (pool.pp > Pool.MAX_ENTRIES) throw new PoolOverflow(); putChar(poolbuf, poolCountIdx, pool.pp); } /** Given a field, return its name. */ Name fieldName(Symbol sym) { if (scramble && (sym.flags() & PRIVATE) != 0 || scrambleAll && (sym.flags() & (PROTECTED | PUBLIC)) == 0) return names.fromString("_$" + sym.name.getIndex()); else return sym.name; } /** Given a symbol, return its name-and-type. */ NameAndType nameType(Symbol sym) { return new NameAndType(fieldName(sym), retrofit ? sym.erasure(types) : sym.externalType(types), types); // if we retrofit, then the NameAndType has been read in as is // and no change is necessary. If we compile normally, the // NameAndType is generated from a symbol reference, and the // adjustment of adding an additional this$n parameter needs to be made. } /****************************************************************** * Writing Attributes ******************************************************************/ /** Write header for an attribute to data buffer and return * position past attribute length index. */ int writeAttr(Name attrName) { databuf.appendChar(pool.put(attrName)); databuf.appendInt(0); return databuf.length; } /** Fill in attribute length. */ void endAttr(int index) { putInt(databuf, index - 4, databuf.length - index); } /** Leave space for attribute count and return index for * number of attributes field. */ int beginAttrs() { databuf.appendChar(0); return databuf.length; } /** Fill in number of attributes. */ void endAttrs(int index, int count) { putChar(databuf, index - 2, count); } /** Write the EnclosingMethod attribute if needed. * Returns the number of attributes written (0 or 1). */ int writeEnclosingMethodAttribute(ClassSymbol c) { return writeEnclosingMethodAttribute(names.EnclosingMethod, c); } /** Write the EnclosingMethod attribute with a specified name. * Returns the number of attributes written (0 or 1). */ protected int writeEnclosingMethodAttribute(Name attributeName, ClassSymbol c) { if (c.owner.kind != MTH && // neither a local class c.name != names.empty) // nor anonymous return 0; int alenIdx = writeAttr(attributeName); ClassSymbol enclClass = c.owner.enclClass(); MethodSymbol enclMethod = (c.owner.type == null // local to init block || c.owner.kind != MTH) // or member init ? null : (MethodSymbol)c.owner; databuf.appendChar(pool.put(enclClass)); databuf.appendChar(enclMethod == null ? 0 : pool.put(nameType(c.owner))); endAttr(alenIdx); return 1; } /** Write flag attributes; return number of attributes written. */ int writeFlagAttrs(long flags) { int acount = 0; if ((flags & DEPRECATED) != 0) { int alenIdx = writeAttr(names.Deprecated); endAttr(alenIdx); acount++; } return acount; } /** Write member (field or method) attributes; * return number of attributes written. */ int writeMemberAttrs(Symbol sym) { int acount = writeFlagAttrs(sym.flags()); long flags = sym.flags(); if ((flags & (SYNTHETIC | BRIDGE)) != SYNTHETIC && (flags & ANONCONSTR) == 0 && (!types.isSameType(sym.type, sym.erasure(types)) || signatureGen.hasTypeVar(sym.type.getThrownTypes()))) { // note that a local class with captured variables // will get a signature attribute int alenIdx = writeAttr(names.Signature); databuf.appendChar(pool.put(typeSig(sym.type))); endAttr(alenIdx); acount++; } acount += writeJavaAnnotations(sym.getRawAttributes()); acount += writeTypeAnnotations(sym.getRawTypeAttributes(), false); return acount; } /** * Write method parameter names attribute. */ int writeMethodParametersAttr(MethodSymbol m) { MethodType ty = m.externalType(types).asMethodType(); final int allparams = ty.argtypes.size(); if (m.params != null && allparams != 0) { final int attrIndex = writeAttr(names.MethodParameters); databuf.appendByte(allparams); // Write extra parameters first for (VarSymbol s : m.extraParams) { final int flags = ((int) s.flags() & (FINAL | SYNTHETIC | MANDATED)) | ((int) m.flags() & SYNTHETIC); databuf.appendChar(pool.put(s.name)); databuf.appendChar(flags); } // Now write the real parameters for (VarSymbol s : m.params) { final int flags = ((int) s.flags() & (FINAL | SYNTHETIC | MANDATED)) | ((int) m.flags() & SYNTHETIC); databuf.appendChar(pool.put(s.name)); databuf.appendChar(flags); } // Now write the captured locals for (VarSymbol s : m.capturedLocals) { final int flags = ((int) s.flags() & (FINAL | SYNTHETIC | MANDATED)) | ((int) m.flags() & SYNTHETIC); databuf.appendChar(pool.put(s.name)); databuf.appendChar(flags); } endAttr(attrIndex); return 1; } else return 0; } private void writeParamAnnotations(List<VarSymbol> params, RetentionPolicy retention) { for (VarSymbol s : params) { ListBuffer<Attribute.Compound> buf = new ListBuffer<>(); for (Attribute.Compound a : s.getRawAttributes()) if (types.getRetention(a) == retention) buf.append(a); databuf.appendChar(buf.length()); for (Attribute.Compound a : buf) writeCompoundAttribute(a); } } private void writeParamAnnotations(MethodSymbol m, RetentionPolicy retention) { databuf.appendByte(m.params.length()); writeParamAnnotations(m.params, retention); } /** Write method parameter annotations; * return number of attributes written. */ int writeParameterAttrs(MethodSymbol m) { boolean hasVisible = false; boolean hasInvisible = false; if (m.params != null) { for (VarSymbol s : m.params) { for (Attribute.Compound a : s.getRawAttributes()) { switch (types.getRetention(a)) { case SOURCE: break; case CLASS: hasInvisible = true; break; case RUNTIME: hasVisible = true; break; default: // /* fail soft */ throw new AssertionError(vis); } } } } int attrCount = 0; if (hasVisible) { int attrIndex = writeAttr(names.RuntimeVisibleParameterAnnotations); writeParamAnnotations(m, RetentionPolicy.RUNTIME); endAttr(attrIndex); attrCount++; } if (hasInvisible) { int attrIndex = writeAttr(names.RuntimeInvisibleParameterAnnotations); writeParamAnnotations(m, RetentionPolicy.CLASS); endAttr(attrIndex); attrCount++; } return attrCount; } /********************************************************************** * Writing Java-language annotations (aka metadata, attributes) **********************************************************************/ /** Write Java-language annotations; return number of JVM * attributes written (zero or one). */ int writeJavaAnnotations(List<Attribute.Compound> attrs) { if (attrs.isEmpty()) return 0; ListBuffer<Attribute.Compound> visibles = new ListBuffer<>(); ListBuffer<Attribute.Compound> invisibles = new ListBuffer<>(); for (Attribute.Compound a : attrs) { switch (types.getRetention(a)) { case SOURCE: break; case CLASS: invisibles.append(a); break; case RUNTIME: visibles.append(a); break; default: // /* fail soft */ throw new AssertionError(vis); } } int attrCount = 0; if (visibles.length() != 0) { int attrIndex = writeAttr(names.RuntimeVisibleAnnotations); databuf.appendChar(visibles.length()); for (Attribute.Compound a : visibles) writeCompoundAttribute(a); endAttr(attrIndex); attrCount++; } if (invisibles.length() != 0) { int attrIndex = writeAttr(names.RuntimeInvisibleAnnotations); databuf.appendChar(invisibles.length()); for (Attribute.Compound a : invisibles) writeCompoundAttribute(a); endAttr(attrIndex); attrCount++; } return attrCount; } int writeTypeAnnotations(List<Attribute.TypeCompound> typeAnnos, boolean inCode) { if (typeAnnos.isEmpty()) return 0; ListBuffer<Attribute.TypeCompound> visibles = new ListBuffer<>(); ListBuffer<Attribute.TypeCompound> invisibles = new ListBuffer<>(); for (Attribute.TypeCompound tc : typeAnnos) { if (tc.hasUnknownPosition()) { boolean fixed = tc.tryFixPosition(); // Could we fix it? if (!fixed) { // This happens for nested types like @A Outer. @B Inner. // For method parameters we get the annotation twice! Once with // a valid position, once unknown. // TODO: find a cleaner solution. PrintWriter pw = log.getWriter(Log.WriterKind.ERROR); pw.println("ClassWriter: Position UNKNOWN in type annotation: " + tc); continue; } } if (tc.position.type.isLocal() != inCode) continue; if (!tc.position.emitToClassfile()) continue; switch (types.getRetention(tc)) { case SOURCE: break; case CLASS: invisibles.append(tc); break; case RUNTIME: visibles.append(tc); break; default: // /* fail soft */ throw new AssertionError(vis); } } int attrCount = 0; if (visibles.length() != 0) { int attrIndex = writeAttr(names.RuntimeVisibleTypeAnnotations); databuf.appendChar(visibles.length()); for (Attribute.TypeCompound p : visibles) writeTypeAnnotation(p); endAttr(attrIndex); attrCount++; } if (invisibles.length() != 0) { int attrIndex = writeAttr(names.RuntimeInvisibleTypeAnnotations); databuf.appendChar(invisibles.length()); for (Attribute.TypeCompound p : invisibles) writeTypeAnnotation(p); endAttr(attrIndex); attrCount++; } return attrCount; } /** A visitor to write an attribute including its leading * single-character marker. */ class AttributeWriter implements Attribute.Visitor { public void visitConstant(Attribute.Constant _value) { Object value = _value.value; switch (_value.type.getTag()) { case BYTE: databuf.appendByte('B'); break; case CHAR: databuf.appendByte('C'); break; case SHORT: databuf.appendByte('S'); break; case INT: databuf.appendByte('I'); break; case LONG: databuf.appendByte('J'); break; case FLOAT: databuf.appendByte('F'); break; case DOUBLE: databuf.appendByte('D'); break; case BOOLEAN: databuf.appendByte('Z'); break; case CLASS: Assert.check(value instanceof String); databuf.appendByte('s'); value = names.fromString(value.toString()); // CONSTANT_Utf8 break; default: throw new AssertionError(_value.type); } databuf.appendChar(pool.put(value)); } public void visitEnum(Attribute.Enum e) { databuf.appendByte('e'); databuf.appendChar(pool.put(typeSig(e.value.type))); databuf.appendChar(pool.put(e.value.name)); } public void visitClass(Attribute.Class clazz) { databuf.appendByte('c'); databuf.appendChar(pool.put(typeSig(clazz.classType))); } public void visitCompound(Attribute.Compound compound) { databuf.appendByte('@'); writeCompoundAttribute(compound); } public void visitError(Attribute.Error x) { throw new AssertionError(x); } public void visitArray(Attribute.Array array) { databuf.appendByte('['); databuf.appendChar(array.values.length); for (Attribute a : array.values) { a.accept(this); } } } AttributeWriter awriter = new AttributeWriter(); /** Write a compound attribute excluding the '@' marker. */ void writeCompoundAttribute(Attribute.Compound c) { databuf.appendChar(pool.put(typeSig(c.type))); databuf.appendChar(c.values.length()); for (Pair<Symbol.MethodSymbol,Attribute> p : c.values) { databuf.appendChar(pool.put(p.fst.name)); p.snd.accept(awriter); } } void writeTypeAnnotation(Attribute.TypeCompound c) { writePosition(c.position); writeCompoundAttribute(c); } void writePosition(TypeAnnotationPosition p) { databuf.appendByte(p.type.targetTypeValue()); // TargetType tag is a byte switch (p.type) { // instanceof case INSTANCEOF: // new expression case NEW: // constructor/method reference receiver case CONSTRUCTOR_REFERENCE: case METHOD_REFERENCE: databuf.appendChar(p.offset); break; // local variable case LOCAL_VARIABLE: // resource variable case RESOURCE_VARIABLE: databuf.appendChar(p.lvarOffset.length); // for table length for (int i = 0; i < p.lvarOffset.length; ++i) { databuf.appendChar(p.lvarOffset[i]); databuf.appendChar(p.lvarLength[i]); databuf.appendChar(p.lvarIndex[i]); } break; // exception parameter case EXCEPTION_PARAMETER: databuf.appendChar(p.getExceptionIndex()); break; // method receiver case METHOD_RECEIVER: // Do nothing break; // type parameter case CLASS_TYPE_PARAMETER: case METHOD_TYPE_PARAMETER: databuf.appendByte(p.parameter_index); break; // type parameter bound case CLASS_TYPE_PARAMETER_BOUND: case METHOD_TYPE_PARAMETER_BOUND: databuf.appendByte(p.parameter_index); databuf.appendByte(p.bound_index); break; // class extends or implements clause case CLASS_EXTENDS: databuf.appendChar(p.type_index); break; // throws case THROWS: databuf.appendChar(p.type_index); break; // method parameter case METHOD_FORMAL_PARAMETER: databuf.appendByte(p.parameter_index); break; // type cast case CAST: // method/constructor/reference type argument case CONSTRUCTOR_INVOCATION_TYPE_ARGUMENT: case METHOD_INVOCATION_TYPE_ARGUMENT: case CONSTRUCTOR_REFERENCE_TYPE_ARGUMENT: case METHOD_REFERENCE_TYPE_ARGUMENT: databuf.appendChar(p.offset); databuf.appendByte(p.type_index); break; // We don't need to worry about these case METHOD_RETURN: case FIELD: break; case UNKNOWN: throw new AssertionError("jvm.ClassWriter: UNKNOWN target type should never occur!"); default: throw new AssertionError("jvm.ClassWriter: Unknown target type for position: " + p); } { // Append location data for generics/arrays. databuf.appendByte(p.location.size()); java.util.List<Integer> loc = TypeAnnotationPosition.getBinaryFromTypePath(p.location); for (int i : loc) databuf.appendByte((byte)i); } } /********************************************************************** * Writing Objects **********************************************************************/ /** Enter an inner class into the `innerClasses' set/queue. */ void enterInner(ClassSymbol c) { if (c.type.isCompound()) { throw new AssertionError("Unexpected intersection type: " + c.type); } try { c.complete(); } catch (CompletionFailure ex) { System.err.println("error: " + c + ": " + ex.getMessage()); throw ex; } if (!c.type.hasTag(CLASS)) return; // arrays if (pool != null && // pool might be null if called from xClassName c.owner.enclClass() != null && (innerClasses == null || !innerClasses.contains(c))) { // log.errWriter.println("enter inner " + c);//DEBUG enterInner(c.owner.enclClass()); pool.put(c); if (c.name != names.empty) pool.put(c.name); if (innerClasses == null) { innerClasses = new HashSet<>(); innerClassesQueue = new ListBuffer<>(); pool.put(names.InnerClasses); } innerClasses.add(c); innerClassesQueue.append(c); } } /** Write "inner classes" attribute. */ void writeInnerClasses() { int alenIdx = writeAttr(names.InnerClasses); databuf.appendChar(innerClassesQueue.length()); for (List<ClassSymbol> l = innerClassesQueue.toList(); l.nonEmpty(); l = l.tail) { ClassSymbol inner = l.head; inner.markAbstractIfNeeded(types); char flags = (char) adjustFlags(inner.flags_field); if ((flags & INTERFACE) != 0) flags |= ABSTRACT; // Interfaces are always ABSTRACT if (inner.name.isEmpty()) flags &= ~FINAL; // Anonymous class: unset FINAL flag flags &= ~STRICTFP; //inner classes should not have the strictfp flag set. if (dumpInnerClassModifiers) { PrintWriter pw = log.getWriter(Log.WriterKind.ERROR); pw.println("INNERCLASS " + inner.name); pw.println("---" + flagNames(flags)); } databuf.appendChar(pool.get(inner)); databuf.appendChar( inner.owner.kind == TYP && !inner.name.isEmpty() ? pool.get(inner.owner) : 0); databuf.appendChar( !inner.name.isEmpty() ? pool.get(inner.name) : 0); databuf.appendChar(flags); } endAttr(alenIdx); } /** Write "bootstrapMethods" attribute. */ void writeBootstrapMethods() { int alenIdx = writeAttr(names.BootstrapMethods); databuf.appendChar(bootstrapMethods.size()); for (Map.Entry<DynamicMethod.BootstrapMethodsKey, MethodHandle> entry : bootstrapMethods.entrySet()) { DynamicMethod.BootstrapMethodsKey bsmKey = entry.getKey(); //write BSM handle databuf.appendChar(pool.get(entry.getValue())); Object[] uniqueArgs = bsmKey.getUniqueArgs(); //write static args length databuf.appendChar(uniqueArgs.length); //write static args array for (Object o : uniqueArgs) { databuf.appendChar(pool.get(o)); } } endAttr(alenIdx); } /** Write field symbol, entering all references into constant pool. */ void writeField(VarSymbol v) { int flags = adjustFlags(v.flags()); databuf.appendChar(flags); if (dumpFieldModifiers) { PrintWriter pw = log.getWriter(Log.WriterKind.ERROR); pw.println("FIELD " + fieldName(v)); pw.println("---" + flagNames(v.flags())); } databuf.appendChar(pool.put(fieldName(v))); databuf.appendChar(pool.put(typeSig(v.erasure(types)))); int acountIdx = beginAttrs(); int acount = 0; if (v.getConstValue() != null) { int alenIdx = writeAttr(names.ConstantValue); databuf.appendChar(pool.put(v.getConstValue())); endAttr(alenIdx); acount++; } acount += writeMemberAttrs(v); endAttrs(acountIdx, acount); } /** Write method symbol, entering all references into constant pool. */ void writeMethod(MethodSymbol m) { int flags = adjustFlags(m.flags()); databuf.appendChar(flags); if (dumpMethodModifiers) { PrintWriter pw = log.getWriter(Log.WriterKind.ERROR); pw.println("METHOD " + fieldName(m)); pw.println("---" + flagNames(m.flags())); } databuf.appendChar(pool.put(fieldName(m))); databuf.appendChar(pool.put(typeSig(m.externalType(types)))); int acountIdx = beginAttrs(); int acount = 0; if (m.code != null) { int alenIdx = writeAttr(names.Code); writeCode(m.code); m.code = null; // to conserve space endAttr(alenIdx); acount++; } List<Type> thrown = m.erasure(types).getThrownTypes(); if (thrown.nonEmpty()) { int alenIdx = writeAttr(names.Exceptions); databuf.appendChar(thrown.length()); for (List<Type> l = thrown; l.nonEmpty(); l = l.tail) databuf.appendChar(pool.put(l.head.tsym)); endAttr(alenIdx); acount++; } if (m.defaultValue != null) { int alenIdx = writeAttr(names.AnnotationDefault); m.defaultValue.accept(awriter); endAttr(alenIdx); acount++; } if (options.isSet(PARAMETERS)) acount += writeMethodParametersAttr(m); acount += writeMemberAttrs(m); acount += writeParameterAttrs(m); endAttrs(acountIdx, acount); } /** Write code attribute of method. */ void writeCode(Code code) { databuf.appendChar(code.max_stack); databuf.appendChar(code.max_locals); databuf.appendInt(code.cp); databuf.appendBytes(code.code, 0, code.cp); databuf.appendChar(code.catchInfo.length()); for (List<char[]> l = code.catchInfo.toList(); l.nonEmpty(); l = l.tail) { for (int i = 0; i < l.head.length; i++) databuf.appendChar(l.head[i]); } int acountIdx = beginAttrs(); int acount = 0; if (code.lineInfo.nonEmpty()) { int alenIdx = writeAttr(names.LineNumberTable); databuf.appendChar(code.lineInfo.length()); for (List<char[]> l = code.lineInfo.reverse(); l.nonEmpty(); l = l.tail) for (int i = 0; i < l.head.length; i++) databuf.appendChar(l.head[i]); endAttr(alenIdx); acount++; } if (genCrt && (code.crt != null)) { CRTable crt = code.crt; int alenIdx = writeAttr(names.CharacterRangeTable); int crtIdx = beginAttrs(); int crtEntries = crt.writeCRT(databuf, code.lineMap, log); endAttrs(crtIdx, crtEntries); endAttr(alenIdx); acount++; } // counter for number of generic local variables if (code.varDebugInfo && code.varBufferSize > 0) { int nGenericVars = 0; int alenIdx = writeAttr(names.LocalVariableTable); databuf.appendChar(code.getLVTSize()); for (int i=0; i<code.varBufferSize; i++) { Code.LocalVar var = code.varBuffer[i]; for (Code.LocalVar.Range r: var.aliveRanges) { // write variable info Assert.check(r.start_pc >= 0 && r.start_pc <= code.cp); databuf.appendChar(r.start_pc); Assert.check(r.length > 0 && (r.start_pc + r.length) <= code.cp); databuf.appendChar(r.length); VarSymbol sym = var.sym; databuf.appendChar(pool.put(sym.name)); Type vartype = sym.erasure(types); databuf.appendChar(pool.put(typeSig(vartype))); databuf.appendChar(var.reg); if (needsLocalVariableTypeEntry(var.sym.type)) { nGenericVars++; } } } endAttr(alenIdx); acount++; if (nGenericVars > 0) { alenIdx = writeAttr(names.LocalVariableTypeTable); databuf.appendChar(nGenericVars); int count = 0; for (int i=0; i<code.varBufferSize; i++) { Code.LocalVar var = code.varBuffer[i]; VarSymbol sym = var.sym; if (!needsLocalVariableTypeEntry(sym.type)) continue; for (Code.LocalVar.Range r : var.aliveRanges) { // write variable info databuf.appendChar(r.start_pc); databuf.appendChar(r.length); databuf.appendChar(pool.put(sym.name)); databuf.appendChar(pool.put(typeSig(sym.type))); databuf.appendChar(var.reg); count++; } } Assert.check(count == nGenericVars); endAttr(alenIdx); acount++; } } if (code.stackMapBufferSize > 0) { if (debugstackmap) System.out.println("Stack map for " + code.meth); int alenIdx = writeAttr(code.stackMap.getAttributeName(names)); writeStackMap(code); endAttr(alenIdx); acount++; } acount += writeTypeAnnotations(code.meth.getRawTypeAttributes(), true); endAttrs(acountIdx, acount); } //where private boolean needsLocalVariableTypeEntry(Type t) { //a local variable needs a type-entry if its type T is generic //(i.e. |T| != T) and if it's not an intersection type (not supported //in signature attribute grammar) return (!types.isSameType(t, types.erasure(t)) && !t.isCompound()); } void writeStackMap(Code code) { int nframes = code.stackMapBufferSize; if (debugstackmap) System.out.println(" nframes = " + nframes); databuf.appendChar(nframes); switch (code.stackMap) { case CLDC: for (int i=0; i<nframes; i++) { if (debugstackmap) System.out.print(" " + i + ":"); Code.StackMapFrame frame = code.stackMapBuffer[i]; // output PC if (debugstackmap) System.out.print(" pc=" + frame.pc); databuf.appendChar(frame.pc); // output locals int localCount = 0; for (int j=0; j<frame.locals.length; j += Code.width(frame.locals[j])) { localCount++; } if (debugstackmap) System.out.print(" nlocals=" + localCount); databuf.appendChar(localCount); for (int j=0; j<frame.locals.length; j += Code.width(frame.locals[j])) { if (debugstackmap) System.out.print(" local[" + j + "]="); writeStackMapType(frame.locals[j]); } // output stack int stackCount = 0; for (int j=0; j<frame.stack.length; j += Code.width(frame.stack[j])) { stackCount++; } if (debugstackmap) System.out.print(" nstack=" + stackCount); databuf.appendChar(stackCount); for (int j=0; j<frame.stack.length; j += Code.width(frame.stack[j])) { if (debugstackmap) System.out.print(" stack[" + j + "]="); writeStackMapType(frame.stack[j]); } if (debugstackmap) System.out.println(); } break; case JSR202: { Assert.checkNull(code.stackMapBuffer); for (int i=0; i<nframes; i++) { if (debugstackmap) System.out.print(" " + i + ":"); StackMapTableFrame frame = code.stackMapTableBuffer[i]; frame.write(this); if (debugstackmap) System.out.println(); } break; } default: throw new AssertionError("Unexpected stackmap format value"); } } //where void writeStackMapType(Type t) { if (t == null) { if (debugstackmap) System.out.print("empty"); databuf.appendByte(0); } else switch(t.getTag()) { case BYTE: case CHAR: case SHORT: case INT: case BOOLEAN: if (debugstackmap) System.out.print("int"); databuf.appendByte(1); break; case FLOAT: if (debugstackmap) System.out.print("float"); databuf.appendByte(2); break; case DOUBLE: if (debugstackmap) System.out.print("double"); databuf.appendByte(3); break; case LONG: if (debugstackmap) System.out.print("long"); databuf.appendByte(4); break; case BOT: // null if (debugstackmap) System.out.print("null"); databuf.appendByte(5); break; case CLASS: case ARRAY: if (debugstackmap) System.out.print("object(" + t + ")"); databuf.appendByte(7); databuf.appendChar(pool.put(t)); break; case TYPEVAR: if (debugstackmap) System.out.print("object(" + types.erasure(t).tsym + ")"); databuf.appendByte(7); databuf.appendChar(pool.put(types.erasure(t).tsym)); break; case UNINITIALIZED_THIS: if (debugstackmap) System.out.print("uninit_this"); databuf.appendByte(6); break; case UNINITIALIZED_OBJECT: { UninitializedType uninitType = (UninitializedType)t; databuf.appendByte(8); if (debugstackmap) System.out.print("uninit_object@" + uninitType.offset); databuf.appendChar(uninitType.offset); } break; default: throw new AssertionError(); } } /** An entry in the JSR202 StackMapTable */ abstract static class StackMapTableFrame { abstract int getFrameType(); void write(ClassWriter writer) { int frameType = getFrameType(); writer.databuf.appendByte(frameType); if (writer.debugstackmap) System.out.print(" frame_type=" + frameType); } static class SameFrame extends StackMapTableFrame { final int offsetDelta; SameFrame(int offsetDelta) { this.offsetDelta = offsetDelta; } int getFrameType() { return (offsetDelta < SAME_FRAME_SIZE) ? offsetDelta : SAME_FRAME_EXTENDED; } @Override void write(ClassWriter writer) { super.write(writer); if (getFrameType() == SAME_FRAME_EXTENDED) { writer.databuf.appendChar(offsetDelta); if (writer.debugstackmap){ System.out.print(" offset_delta=" + offsetDelta); } } } } static class SameLocals1StackItemFrame extends StackMapTableFrame { final int offsetDelta; final Type stack; SameLocals1StackItemFrame(int offsetDelta, Type stack) { this.offsetDelta = offsetDelta; this.stack = stack; } int getFrameType() { return (offsetDelta < SAME_FRAME_SIZE) ? (SAME_FRAME_SIZE + offsetDelta) : SAME_LOCALS_1_STACK_ITEM_EXTENDED; } @Override void write(ClassWriter writer) { super.write(writer); if (getFrameType() == SAME_LOCALS_1_STACK_ITEM_EXTENDED) { writer.databuf.appendChar(offsetDelta); if (writer.debugstackmap) { System.out.print(" offset_delta=" + offsetDelta); } } if (writer.debugstackmap) { System.out.print(" stack[" + 0 + "]="); } writer.writeStackMapType(stack); } } static class ChopFrame extends StackMapTableFrame { final int frameType; final int offsetDelta; ChopFrame(int frameType, int offsetDelta) { this.frameType = frameType; this.offsetDelta = offsetDelta; } int getFrameType() { return frameType; } @Override void write(ClassWriter writer) { super.write(writer); writer.databuf.appendChar(offsetDelta); if (writer.debugstackmap) { System.out.print(" offset_delta=" + offsetDelta); } } } static class AppendFrame extends StackMapTableFrame { final int frameType; final int offsetDelta; final Type[] locals; AppendFrame(int frameType, int offsetDelta, Type[] locals) { this.frameType = frameType; this.offsetDelta = offsetDelta; this.locals = locals; } int getFrameType() { return frameType; } @Override void write(ClassWriter writer) { super.write(writer); writer.databuf.appendChar(offsetDelta); if (writer.debugstackmap) { System.out.print(" offset_delta=" + offsetDelta); } for (int i=0; i<locals.length; i++) { if (writer.debugstackmap) System.out.print(" locals[" + i + "]="); writer.writeStackMapType(locals[i]); } } } static class FullFrame extends StackMapTableFrame { final int offsetDelta; final Type[] locals; final Type[] stack; FullFrame(int offsetDelta, Type[] locals, Type[] stack) { this.offsetDelta = offsetDelta; this.locals = locals; this.stack = stack; } int getFrameType() { return FULL_FRAME; } @Override void write(ClassWriter writer) { super.write(writer); writer.databuf.appendChar(offsetDelta); writer.databuf.appendChar(locals.length); if (writer.debugstackmap) { System.out.print(" offset_delta=" + offsetDelta); System.out.print(" nlocals=" + locals.length); } for (int i=0; i<locals.length; i++) { if (writer.debugstackmap) System.out.print(" locals[" + i + "]="); writer.writeStackMapType(locals[i]); } writer.databuf.appendChar(stack.length); if (writer.debugstackmap) { System.out.print(" nstack=" + stack.length); } for (int i=0; i<stack.length; i++) { if (writer.debugstackmap) System.out.print(" stack[" + i + "]="); writer.writeStackMapType(stack[i]); } } } /** Compare this frame with the previous frame and produce * an entry of compressed stack map frame. */ static StackMapTableFrame getInstance(Code.StackMapFrame this_frame, int prev_pc, Type[] prev_locals, Types types) { Type[] locals = this_frame.locals; Type[] stack = this_frame.stack; int offset_delta = this_frame.pc - prev_pc - 1; if (stack.length == 1) { if (locals.length == prev_locals.length && compare(prev_locals, locals, types) == 0) { return new SameLocals1StackItemFrame(offset_delta, stack[0]); } } else if (stack.length == 0) { int diff_length = compare(prev_locals, locals, types); if (diff_length == 0) { return new SameFrame(offset_delta); } else if (-MAX_LOCAL_LENGTH_DIFF < diff_length && diff_length < 0) { // APPEND Type[] local_diff = new Type[-diff_length]; for (int i=prev_locals.length, j=0; i<locals.length; i++,j++) { local_diff[j] = locals[i]; } return new AppendFrame(SAME_FRAME_EXTENDED - diff_length, offset_delta, local_diff); } else if (0 < diff_length && diff_length < MAX_LOCAL_LENGTH_DIFF) { // CHOP return new ChopFrame(SAME_FRAME_EXTENDED - diff_length, offset_delta); } } // FULL_FRAME return new FullFrame(offset_delta, locals, stack); } static boolean isInt(Type t) { return (t.getTag().isStrictSubRangeOf(INT) || t.hasTag(BOOLEAN)); } static boolean isSameType(Type t1, Type t2, Types types) { if (t1 == null) { return t2 == null; } if (t2 == null) { return false; } if (isInt(t1) && isInt(t2)) { return true; } if (t1.hasTag(UNINITIALIZED_THIS)) { return t2.hasTag(UNINITIALIZED_THIS); } else if (t1.hasTag(UNINITIALIZED_OBJECT)) { if (t2.hasTag(UNINITIALIZED_OBJECT)) { return ((UninitializedType)t1).offset == ((UninitializedType)t2).offset; } else { return false; } } else if (t2.hasTag(UNINITIALIZED_THIS) || t2.hasTag(UNINITIALIZED_OBJECT)) { return false; } return types.isSameType(t1, t2); } static int compare(Type[] arr1, Type[] arr2, Types types) { int diff_length = arr1.length - arr2.length; if (diff_length > MAX_LOCAL_LENGTH_DIFF || diff_length < -MAX_LOCAL_LENGTH_DIFF) { return Integer.MAX_VALUE; } int len = (diff_length > 0) ? arr2.length : arr1.length; for (int i=0; i<len; i++) { if (!isSameType(arr1[i], arr2[i], types)) { return Integer.MAX_VALUE; } } return diff_length; } } void writeFields(Scope s) { // process them in reverse sibling order; // i.e., process them in declaration order. List<VarSymbol> vars = List.nil(); for (Symbol sym : s.getSymbols(NON_RECURSIVE)) { if (sym.kind == VAR) vars = vars.prepend((VarSymbol)sym); } while (vars.nonEmpty()) { writeField(vars.head); vars = vars.tail; } } void writeMethods(Scope s) { List<MethodSymbol> methods = List.nil(); for (Symbol sym : s.getSymbols(NON_RECURSIVE)) { if (sym.kind == MTH && (sym.flags() & HYPOTHETICAL) == 0) methods = methods.prepend((MethodSymbol)sym); } while (methods.nonEmpty()) { writeMethod(methods.head); methods = methods.tail; } } /** Emit a class file for a given class. * @param c The class from which a class file is generated. */ public JavaFileObject writeClass(ClassSymbol c) throws IOException, PoolOverflow, StringOverflow { JavaFileObject outFile = fileManager.getJavaFileForOutput(CLASS_OUTPUT, c.flatname.toString(), JavaFileObject.Kind.CLASS, c.sourcefile); OutputStream out = outFile.openOutputStream(); try { writeClassFile(out, c); if (verbose) log.printVerbose("wrote.file", outFile); out.close(); out = null; } finally { if (out != null) { // if we are propagating an exception, delete the file out.close(); outFile.delete(); outFile = null; } } return outFile; // may be null if write failed } /** Write class `c' to outstream `out'. */ public void writeClassFile(OutputStream out, ClassSymbol c) throws IOException, PoolOverflow, StringOverflow { Assert.check((c.flags() & COMPOUND) == 0); databuf.reset(); poolbuf.reset(); signatureGen.reset(); pool = c.pool; innerClasses = null; innerClassesQueue = null; bootstrapMethods = new LinkedHashMap<>(); Type supertype = types.supertype(c.type); List<Type> interfaces = types.interfaces(c.type); List<Type> typarams = c.type.getTypeArguments(); int flags = adjustFlags(c.flags() & ~DEFAULT); if ((flags & PROTECTED) != 0) flags |= PUBLIC; flags = flags & ClassFlags & ~STRICTFP; if ((flags & INTERFACE) == 0) flags |= ACC_SUPER; if (c.isInner() && c.name.isEmpty()) flags &= ~FINAL; if (dumpClassModifiers) { PrintWriter pw = log.getWriter(Log.WriterKind.ERROR); pw.println(); pw.println("CLASSFILE " + c.getQualifiedName()); pw.println("---" + flagNames(flags)); } databuf.appendChar(flags); databuf.appendChar(pool.put(c)); databuf.appendChar(supertype.hasTag(CLASS) ? pool.put(supertype.tsym) : 0); databuf.appendChar(interfaces.length()); for (List<Type> l = interfaces; l.nonEmpty(); l = l.tail) databuf.appendChar(pool.put(l.head.tsym)); int fieldsCount = 0; int methodsCount = 0; for (Symbol sym : c.members().getSymbols(NON_RECURSIVE)) { switch (sym.kind) { case VAR: fieldsCount++; break; case MTH: if ((sym.flags() & HYPOTHETICAL) == 0) methodsCount++; break; case TYP: enterInner((ClassSymbol)sym); break; default : Assert.error(); } } if (c.trans_local != null) { for (ClassSymbol local : c.trans_local) { enterInner(local); } } databuf.appendChar(fieldsCount); writeFields(c.members()); databuf.appendChar(methodsCount); writeMethods(c.members()); int acountIdx = beginAttrs(); int acount = 0; boolean sigReq = typarams.length() != 0 || supertype.allparams().length() != 0; for (List<Type> l = interfaces; !sigReq && l.nonEmpty(); l = l.tail) sigReq = l.head.allparams().length() != 0; if (sigReq) { int alenIdx = writeAttr(names.Signature); if (typarams.length() != 0) signatureGen.assembleParamsSig(typarams); signatureGen.assembleSig(supertype); for (List<Type> l = interfaces; l.nonEmpty(); l = l.tail) signatureGen.assembleSig(l.head); databuf.appendChar(pool.put(signatureGen.toName())); signatureGen.reset(); endAttr(alenIdx); acount++; } if (c.sourcefile != null && emitSourceFile) { int alenIdx = writeAttr(names.SourceFile); // WHM 6/29/1999: Strip file path prefix. We do it here at // the last possible moment because the sourcefile may be used // elsewhere in error diagnostics. Fixes 4241573. //databuf.appendChar(c.pool.put(c.sourcefile)); String simpleName = BaseFileObject.getSimpleName(c.sourcefile); databuf.appendChar(c.pool.put(names.fromString(simpleName))); endAttr(alenIdx); acount++; } if (genCrt) { // Append SourceID attribute int alenIdx = writeAttr(names.SourceID); databuf.appendChar(c.pool.put(names.fromString(Long.toString(getLastModified(c.sourcefile))))); endAttr(alenIdx); acount++; // Append CompilationID attribute alenIdx = writeAttr(names.CompilationID); databuf.appendChar(c.pool.put(names.fromString(Long.toString(System.currentTimeMillis())))); endAttr(alenIdx); acount++; } acount += writeFlagAttrs(c.flags()); acount += writeJavaAnnotations(c.getRawAttributes()); acount += writeTypeAnnotations(c.getRawTypeAttributes(), false); acount += writeEnclosingMethodAttribute(c); acount += writeExtraClassAttributes(c); poolbuf.appendInt(JAVA_MAGIC); poolbuf.appendChar(target.minorVersion); poolbuf.appendChar(target.majorVersion); writePool(c.pool); if (innerClasses != null) { writeInnerClasses(); acount++; } if (!bootstrapMethods.isEmpty()) { writeBootstrapMethods(); acount++; } endAttrs(acountIdx, acount); poolbuf.appendBytes(databuf.elems, 0, databuf.length); out.write(poolbuf.elems, 0, poolbuf.length); pool = c.pool = null; // to conserve space } /**Allows subclasses to write additional class attributes * * @return the number of attributes written */ protected int writeExtraClassAttributes(ClassSymbol c) { return 0; } int adjustFlags(final long flags) { int result = (int)flags; if ((flags & BRIDGE) != 0) result |= ACC_BRIDGE; if ((flags & VARARGS) != 0) result |= ACC_VARARGS; if ((flags & DEFAULT) != 0) result &= ~ABSTRACT; return result; } long getLastModified(FileObject filename) { long mod = 0; try { mod = filename.getLastModified(); } catch (SecurityException e) { throw new AssertionError("CRT: couldn't get source file modification date: " + e.getMessage()); } return mod; } }