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src/share/classes/com/sun/tools/javac/jvm/Code.java@a2889739cf21 (annotated)

src/share/classes/com/sun/tools/javac/jvm/Code.java

Fri, 03 May 2013 15:08:47 -0700

author

jjg

date

Fri, 03 May 2013 15:08:47 -0700

changeset 1723

a2889739cf21

parent 1713

2ca9e7d50136

child 1755

ddb4a2bfcd82

permissions

-rw-r--r--

8000407: remove @GenerateNativeHeader
Reviewed-by: vromero, darcy

duke@1	1	/*
jjg@1521	2	* Copyright (c) 1999, 2013, Oracle and/or its affiliates. All rights reserved.
duke@1	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@1	4	*
duke@1	5	* This code is free software; you can redistribute it and/or modify it
duke@1	6	* under the terms of the GNU General Public License version 2 only, as
ohair@554	7	* published by the Free Software Foundation. Oracle designates this
duke@1	8	* particular file as subject to the "Classpath" exception as provided
ohair@554	9	* by Oracle in the LICENSE file that accompanied this code.
duke@1	10	*
duke@1	11	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@1	12	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@1	13	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@1	14	* version 2 for more details (a copy is included in the LICENSE file that
duke@1	15	* accompanied this code).
duke@1	16	*
duke@1	17	* You should have received a copy of the GNU General Public License version
duke@1	18	* 2 along with this work; if not, write to the Free Software Foundation,
duke@1	19	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@1	20	*
ohair@554	21	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
ohair@554	22	* or visit www.oracle.com if you need additional information or have any
ohair@554	23	* questions.
duke@1	24	*/
duke@1	25
duke@1	26	package com.sun.tools.javac.jvm;
duke@1	27
duke@1	28	import com.sun.tools.javac.code.*;
duke@1	29	import com.sun.tools.javac.code.Symbol.*;
vromero@1452	30	import com.sun.tools.javac.code.Types.UniqueType;
duke@1	31	import com.sun.tools.javac.util.*;
duke@1	32	import com.sun.tools.javac.util.JCDiagnostic.DiagnosticPosition;
duke@1	33
jjg@1374	34	import static com.sun.tools.javac.code.TypeTag.BOT;
jjg@1374	35	import static com.sun.tools.javac.code.TypeTag.INT;
duke@1	36	import static com.sun.tools.javac.jvm.ByteCodes.*;
duke@1	37	import static com.sun.tools.javac.jvm.UninitializedType.*;
duke@1	38	import static com.sun.tools.javac.jvm.ClassWriter.StackMapTableFrame;
duke@1	39
duke@1	40	/** An internal structure that corresponds to the code attribute of
duke@1	41	* methods in a classfile. The class also provides some utility operations to
duke@1	42	* generate bytecode instructions.
duke@1	43	*
jjg@581	44	* <p><b>This is NOT part of any supported API.
jjg@581	45	* If you write code that depends on this, you do so at your own risk.
duke@1	46	* This code and its internal interfaces are subject to change or
duke@1	47	* deletion without notice.</b>
duke@1	48	*/
duke@1	49	public class Code {
duke@1	50
duke@1	51	public final boolean debugCode;
duke@1	52	public final boolean needStackMap;
duke@1	53
duke@1	54	public enum StackMapFormat {
duke@1	55	NONE,
duke@1	56	CLDC {
jjg@113	57	Name getAttributeName(Names names) {
duke@1	58	return names.StackMap;
duke@1	59	}
duke@1	60	},
duke@1	61	JSR202 {
jjg@113	62	Name getAttributeName(Names names) {
duke@1	63	return names.StackMapTable;
duke@1	64	}
duke@1	65	};
jjg@113	66	Name getAttributeName(Names names) {
duke@1	67	return names.empty;
duke@1	68	}
duke@1	69	}
duke@1	70
duke@1	71	final Types types;
duke@1	72	final Symtab syms;
duke@1	73
duke@1	74	/*---------- classfile fields: --------------- */
duke@1	75
duke@1	76	/** The maximum stack size.
duke@1	77	*/
duke@1	78	public int max_stack = 0;
duke@1	79
duke@1	80	/** The maximum number of local variable slots.
duke@1	81	*/
duke@1	82	public int max_locals = 0;
duke@1	83
duke@1	84	/** The code buffer.
duke@1	85	*/
duke@1	86	public byte[] code = new byte[64];
duke@1	87
duke@1	88	/** the current code pointer.
duke@1	89	*/
duke@1	90	public int cp = 0;
duke@1	91
duke@1	92	/** Check the code against VM spec limits; if
duke@1	93	* problems report them and return true.
duke@1	94	*/
duke@1	95	public boolean checkLimits(DiagnosticPosition pos, Log log) {
duke@1	96	if (cp > ClassFile.MAX_CODE) {
duke@1	97	log.error(pos, "limit.code");
duke@1	98	return true;
duke@1	99	}
duke@1	100	if (max_locals > ClassFile.MAX_LOCALS) {
duke@1	101	log.error(pos, "limit.locals");
duke@1	102	return true;
duke@1	103	}
duke@1	104	if (max_stack > ClassFile.MAX_STACK) {
duke@1	105	log.error(pos, "limit.stack");
duke@1	106	return true;
duke@1	107	}
duke@1	108	return false;
duke@1	109	}
duke@1	110
duke@1	111	/** A buffer for expression catch data. Each enter is a vector
duke@1	112	* of four unsigned shorts.
duke@1	113	*/
duke@1	114	ListBuffer<char[]> catchInfo = new ListBuffer<char[]>();
duke@1	115
duke@1	116	/** A buffer for line number information. Each entry is a vector
duke@1	117	* of two unsigned shorts.
duke@1	118	*/
duke@1	119	List<char[]> lineInfo = List.nil(); // handled in stack fashion
duke@1	120
duke@1	121	/** The CharacterRangeTable
duke@1	122	*/
duke@1	123	public CRTable crt;
duke@1	124
duke@1	125	/*---------- internal fields: --------------- */
duke@1	126
jjg@1326	127	/** Are we generating code with jumps &ge; 32K?
duke@1	128	*/
duke@1	129	public boolean fatcode;
duke@1	130
duke@1	131	/** Code generation enabled?
duke@1	132	*/
duke@1	133	private boolean alive = true;
duke@1	134
duke@1	135	/** The current machine state (registers and stack).
duke@1	136	*/
duke@1	137	State state;
duke@1	138
duke@1	139	/** Is it forbidden to compactify code, because something is
duke@1	140	* pointing to current location?
duke@1	141	*/
duke@1	142	private boolean fixedPc = false;
duke@1	143
duke@1	144	/** The next available register.
duke@1	145	*/
duke@1	146	public int nextreg = 0;
duke@1	147
duke@1	148	/** A chain for jumps to be resolved before the next opcode is emitted.
duke@1	149	* We do this lazily to avoid jumps to jumps.
duke@1	150	*/
duke@1	151	Chain pendingJumps = null;
duke@1	152
duke@1	153	/** The position of the currently statement, if we are at the
duke@1	154	* start of this statement, NOPOS otherwise.
duke@1	155	* We need this to emit line numbers lazily, which we need to do
duke@1	156	* because of jump-to-jump optimization.
duke@1	157	*/
duke@1	158	int pendingStatPos = Position.NOPOS;
duke@1	159
duke@1	160	/** Set true when a stackMap is needed at the current PC. */
duke@1	161	boolean pendingStackMap = false;
duke@1	162
duke@1	163	/** The stack map format to be generated. */
duke@1	164	StackMapFormat stackMap;
duke@1	165
duke@1	166	/** Switch: emit variable debug info.
duke@1	167	*/
duke@1	168	boolean varDebugInfo;
duke@1	169
duke@1	170	/** Switch: emit line number info.
duke@1	171	*/
duke@1	172	boolean lineDebugInfo;
duke@1	173
duke@1	174	/** Emit line number info if map supplied
duke@1	175	*/
duke@1	176	Position.LineMap lineMap;
duke@1	177
duke@1	178	/** The constant pool of the current class.
duke@1	179	*/
duke@1	180	final Pool pool;
duke@1	181
duke@1	182	final MethodSymbol meth;
duke@1	183
duke@1	184	/** Construct a code object, given the settings of the fatcode,
duke@1	185	* debugging info switches and the CharacterRangeTable.
duke@1	186	*/
duke@1	187	public Code(MethodSymbol meth,
duke@1	188	boolean fatcode,
duke@1	189	Position.LineMap lineMap,
duke@1	190	boolean varDebugInfo,
duke@1	191	StackMapFormat stackMap,
duke@1	192	boolean debugCode,
duke@1	193	CRTable crt,
duke@1	194	Symtab syms,
duke@1	195	Types types,
duke@1	196	Pool pool) {
duke@1	197	this.meth = meth;
duke@1	198	this.fatcode = fatcode;
duke@1	199	this.lineMap = lineMap;
duke@1	200	this.lineDebugInfo = lineMap != null;
duke@1	201	this.varDebugInfo = varDebugInfo;
duke@1	202	this.crt = crt;
duke@1	203	this.syms = syms;
duke@1	204	this.types = types;
duke@1	205	this.debugCode = debugCode;
duke@1	206	this.stackMap = stackMap;
duke@1	207	switch (stackMap) {
duke@1	208	case CLDC:
duke@1	209	case JSR202:
duke@1	210	this.needStackMap = true;
duke@1	211	break;
duke@1	212	default:
duke@1	213	this.needStackMap = false;
duke@1	214	}
duke@1	215	state = new State();
duke@1	216	lvar = new LocalVar[20];
duke@1	217	this.pool = pool;
duke@1	218	}
duke@1	219
duke@1	220
duke@1	221	/* **************************************************************************
duke@1	222	* Typecodes & related stuff
duke@1	223	****************************************************************************/
duke@1	224
duke@1	225	/** Given a type, return its type code (used implicitly in the
duke@1	226	* JVM architecture).
duke@1	227	*/
duke@1	228	public static int typecode(Type type) {
jjg@1374	229	switch (type.getTag()) {
duke@1	230	case BYTE: return BYTEcode;
duke@1	231	case SHORT: return SHORTcode;
duke@1	232	case CHAR: return CHARcode;
duke@1	233	case INT: return INTcode;
duke@1	234	case LONG: return LONGcode;
duke@1	235	case FLOAT: return FLOATcode;
duke@1	236	case DOUBLE: return DOUBLEcode;
duke@1	237	case BOOLEAN: return BYTEcode;
duke@1	238	case VOID: return VOIDcode;
duke@1	239	case CLASS:
duke@1	240	case ARRAY:
duke@1	241	case METHOD:
duke@1	242	case BOT:
duke@1	243	case TYPEVAR:
duke@1	244	case UNINITIALIZED_THIS:
duke@1	245	case UNINITIALIZED_OBJECT:
duke@1	246	return OBJECTcode;
jjg@1374	247	default: throw new AssertionError("typecode " + type.getTag());
duke@1	248	}
duke@1	249	}
duke@1	250
duke@1	251	/** Collapse type code for subtypes of int to INTcode.
duke@1	252	*/
duke@1	253	public static int truncate(int tc) {
duke@1	254	switch (tc) {
duke@1	255	case BYTEcode: case SHORTcode: case CHARcode: return INTcode;
duke@1	256	default: return tc;
duke@1	257	}
duke@1	258	}
duke@1	259
duke@1	260	/** The width in bytes of objects of the type.
duke@1	261	*/
duke@1	262	public static int width(int typecode) {
duke@1	263	switch (typecode) {
duke@1	264	case LONGcode: case DOUBLEcode: return 2;
duke@1	265	case VOIDcode: return 0;
duke@1	266	default: return 1;
duke@1	267	}
duke@1	268	}
duke@1	269
duke@1	270	public static int width(Type type) {
duke@1	271	return type == null ? 1 : width(typecode(type));
duke@1	272	}
duke@1	273
duke@1	274	/** The total width taken up by a vector of objects.
duke@1	275	*/
duke@1	276	public static int width(List<Type> types) {
duke@1	277	int w = 0;
duke@1	278	for (List<Type> l = types; l.nonEmpty(); l = l.tail)
duke@1	279	w = w + width(l.head);
duke@1	280	return w;
duke@1	281	}
duke@1	282
duke@1	283	/** Given a type, return its code for allocating arrays of that type.
duke@1	284	*/
duke@1	285	public static int arraycode(Type type) {
jjg@1374	286	switch (type.getTag()) {
duke@1	287	case BYTE: return 8;
duke@1	288	case BOOLEAN: return 4;
duke@1	289	case SHORT: return 9;
duke@1	290	case CHAR: return 5;
duke@1	291	case INT: return 10;
duke@1	292	case LONG: return 11;
duke@1	293	case FLOAT: return 6;
duke@1	294	case DOUBLE: return 7;
duke@1	295	case CLASS: return 0;
duke@1	296	case ARRAY: return 1;
duke@1	297	default: throw new AssertionError("arraycode " + type);
duke@1	298	}
duke@1	299	}
duke@1	300
duke@1	301
duke@1	302	/* **************************************************************************
duke@1	303	* Emit code
duke@1	304	****************************************************************************/
duke@1	305
duke@1	306	/** The current output code pointer.
duke@1	307	*/
duke@1	308	public int curPc() {
duke@1	309	if (pendingJumps != null) resolvePending();
duke@1	310	if (pendingStatPos != Position.NOPOS) markStatBegin();
duke@1	311	fixedPc = true;
duke@1	312	return cp;
duke@1	313	}
duke@1	314
duke@1	315	/** Emit a byte of code.
duke@1	316	*/
duke@1	317	private void emit1(int od) {
duke@1	318	if (!alive) return;
jjg@1339	319	code = ArrayUtils.ensureCapacity(code, cp);
duke@1	320	code[cp++] = (byte)od;
duke@1	321	}
duke@1	322
duke@1	323	/** Emit two bytes of code.
duke@1	324	*/
duke@1	325	private void emit2(int od) {
duke@1	326	if (!alive) return;
duke@1	327	if (cp + 2 > code.length) {
duke@1	328	emit1(od >> 8);
duke@1	329	emit1(od);
duke@1	330	} else {
duke@1	331	code[cp++] = (byte)(od >> 8);
duke@1	332	code[cp++] = (byte)od;
duke@1	333	}
duke@1	334	}
duke@1	335
duke@1	336	/** Emit four bytes of code.
duke@1	337	*/
duke@1	338	public void emit4(int od) {
duke@1	339	if (!alive) return;
duke@1	340	if (cp + 4 > code.length) {
duke@1	341	emit1(od >> 24);
duke@1	342	emit1(od >> 16);
duke@1	343	emit1(od >> 8);
duke@1	344	emit1(od);
duke@1	345	} else {
duke@1	346	code[cp++] = (byte)(od >> 24);
duke@1	347	code[cp++] = (byte)(od >> 16);
duke@1	348	code[cp++] = (byte)(od >> 8);
duke@1	349	code[cp++] = (byte)od;
duke@1	350	}
duke@1	351	}
duke@1	352
duke@1	353	/** Emit an opcode.
duke@1	354	*/
duke@1	355	private void emitop(int op) {
duke@1	356	if (pendingJumps != null) resolvePending();
duke@1	357	if (alive) {
duke@1	358	if (pendingStatPos != Position.NOPOS)
duke@1	359	markStatBegin();
duke@1	360	if (pendingStackMap) {
duke@1	361	pendingStackMap = false;
duke@1	362	emitStackMap();
duke@1	363	}
duke@1	364	if (debugCode)
duke@1	365	System.err.println("emit@" + cp + " stack=" +
duke@1	366	state.stacksize + ": " +
duke@1	367	mnem(op));
duke@1	368	emit1(op);
duke@1	369	}
duke@1	370	}
duke@1	371
duke@1	372	void postop() {
jjg@816	373	Assert.check(alive || state.stacksize == 0);
duke@1	374	}
duke@1	375
vromero@1670	376	/** Emit a ldc (or ldc_w) instruction, taking into account operand size
vromero@1670	377	*/
vromero@1670	378	public void emitLdc(int od) {
vromero@1670	379	if (od <= 255) {
vromero@1670	380	emitop1(ldc1, od);
vromero@1670	381	}
vromero@1670	382	else {
vromero@1670	383	emitop2(ldc2, od);
vromero@1670	384	}
vromero@1670	385	}
vromero@1670	386
duke@1	387	/** Emit a multinewarray instruction.
duke@1	388	*/
duke@1	389	public void emitMultianewarray(int ndims, int type, Type arrayType) {
duke@1	390	emitop(multianewarray);
duke@1	391	if (!alive) return;
duke@1	392	emit2(type);
duke@1	393	emit1(ndims);
duke@1	394	state.pop(ndims);
duke@1	395	state.push(arrayType);
duke@1	396	}
duke@1	397
duke@1	398	/** Emit newarray.
duke@1	399	*/
duke@1	400	public void emitNewarray(int elemcode, Type arrayType) {
duke@1	401	emitop(newarray);
duke@1	402	if (!alive) return;
duke@1	403	emit1(elemcode);
duke@1	404	state.pop(1); // count
duke@1	405	state.push(arrayType);
duke@1	406	}
duke@1	407
duke@1	408	/** Emit anewarray.
duke@1	409	*/
duke@1	410	public void emitAnewarray(int od, Type arrayType) {
duke@1	411	emitop(anewarray);
duke@1	412	if (!alive) return;
duke@1	413	emit2(od);
duke@1	414	state.pop(1);
duke@1	415	state.push(arrayType);
duke@1	416	}
duke@1	417
duke@1	418	/** Emit an invokeinterface instruction.
duke@1	419	*/
duke@1	420	public void emitInvokeinterface(int meth, Type mtype) {
duke@1	421	int argsize = width(mtype.getParameterTypes());
duke@1	422	emitop(invokeinterface);
duke@1	423	if (!alive) return;
duke@1	424	emit2(meth);
duke@1	425	emit1(argsize + 1);
duke@1	426	emit1(0);
duke@1	427	state.pop(argsize + 1);
duke@1	428	state.push(mtype.getReturnType());
duke@1	429	}
duke@1	430
duke@1	431	/** Emit an invokespecial instruction.
duke@1	432	*/
duke@1	433	public void emitInvokespecial(int meth, Type mtype) {
duke@1	434	int argsize = width(mtype.getParameterTypes());
duke@1	435	emitop(invokespecial);
duke@1	436	if (!alive) return;
duke@1	437	emit2(meth);
duke@1	438	Symbol sym = (Symbol)pool.pool[meth];
duke@1	439	state.pop(argsize);
duke@1	440	if (sym.isConstructor())
duke@1	441	state.markInitialized((UninitializedType)state.peek());
duke@1	442	state.pop(1);
duke@1	443	state.push(mtype.getReturnType());
duke@1	444	}
duke@1	445
duke@1	446	/** Emit an invokestatic instruction.
duke@1	447	*/
duke@1	448	public void emitInvokestatic(int meth, Type mtype) {
duke@1	449	int argsize = width(mtype.getParameterTypes());
duke@1	450	emitop(invokestatic);
duke@1	451	if (!alive) return;
duke@1	452	emit2(meth);
duke@1	453	state.pop(argsize);
duke@1	454	state.push(mtype.getReturnType());
duke@1	455	}
duke@1	456
duke@1	457	/** Emit an invokevirtual instruction.
duke@1	458	*/
duke@1	459	public void emitInvokevirtual(int meth, Type mtype) {
duke@1	460	int argsize = width(mtype.getParameterTypes());
duke@1	461	emitop(invokevirtual);
duke@1	462	if (!alive) return;
duke@1	463	emit2(meth);
duke@1	464	state.pop(argsize + 1);
duke@1	465	state.push(mtype.getReturnType());
duke@1	466	}
duke@1	467
jrose@267	468	/** Emit an invokedynamic instruction.
jrose@267	469	*/
jrose@267	470	public void emitInvokedynamic(int desc, Type mtype) {
jrose@267	471	// N.B. this format is under consideration by the JSR 292 EG
jrose@267	472	int argsize = width(mtype.getParameterTypes());
mcimadamore@1676	473	int prevPos = pendingStatPos;
mcimadamore@1676	474	try {
mcimadamore@1676	475	//disable line number generation (we could have used 'emit1', that
mcimadamore@1676	476	//bypasses stackmap generation - which is needed for indy calls)
mcimadamore@1676	477	pendingStatPos = Position.NOPOS;
mcimadamore@1676	478	emitop(invokedynamic);
mcimadamore@1676	479	} finally {
mcimadamore@1676	480	pendingStatPos = prevPos;
mcimadamore@1676	481	}
jrose@267	482	if (!alive) return;
jrose@267	483	emit2(desc);
jrose@267	484	emit2(0);
jrose@267	485	state.pop(argsize);
jrose@267	486	state.push(mtype.getReturnType());
jrose@267	487	}
jrose@267	488
duke@1	489	/** Emit an opcode with no operand field.
duke@1	490	*/
duke@1	491	public void emitop0(int op) {
duke@1	492	emitop(op);
duke@1	493	if (!alive) return;
duke@1	494	switch (op) {
duke@1	495	case aaload: {
duke@1	496	state.pop(1);// index
duke@1	497	Type a = state.stack[state.stacksize-1];
duke@1	498	state.pop(1);
mcimadamore@989	499	//sometimes 'null type' is treated as a one-dimensional array type
mcimadamore@989	500	//see Gen.visitLiteral - we should handle this case accordingly
jjg@1374	501	Type stackType = a.hasTag(BOT) ?
mcimadamore@989	502	syms.objectType :
mcimadamore@989	503	types.erasure(types.elemtype(a));
mcimadamore@989	504	state.push(stackType); }
duke@1	505	break;
duke@1	506	case goto_:
duke@1	507	markDead();
duke@1	508	break;
duke@1	509	case nop:
duke@1	510	case ineg:
duke@1	511	case lneg:
duke@1	512	case fneg:
duke@1	513	case dneg:
duke@1	514	break;
duke@1	515	case aconst_null:
duke@1	516	state.push(syms.botType);
duke@1	517	break;
duke@1	518	case iconst_m1:
duke@1	519	case iconst_0:
duke@1	520	case iconst_1:
duke@1	521	case iconst_2:
duke@1	522	case iconst_3:
duke@1	523	case iconst_4:
duke@1	524	case iconst_5:
duke@1	525	case iload_0:
duke@1	526	case iload_1:
duke@1	527	case iload_2:
duke@1	528	case iload_3:
duke@1	529	state.push(syms.intType);
duke@1	530	break;
duke@1	531	case lconst_0:
duke@1	532	case lconst_1:
duke@1	533	case lload_0:
duke@1	534	case lload_1:
duke@1	535	case lload_2:
duke@1	536	case lload_3:
duke@1	537	state.push(syms.longType);
duke@1	538	break;
duke@1	539	case fconst_0:
duke@1	540	case fconst_1:
duke@1	541	case fconst_2:
duke@1	542	case fload_0:
duke@1	543	case fload_1:
duke@1	544	case fload_2:
duke@1	545	case fload_3:
duke@1	546	state.push(syms.floatType);
duke@1	547	break;
duke@1	548	case dconst_0:
duke@1	549	case dconst_1:
duke@1	550	case dload_0:
duke@1	551	case dload_1:
duke@1	552	case dload_2:
duke@1	553	case dload_3:
duke@1	554	state.push(syms.doubleType);
duke@1	555	break;
duke@1	556	case aload_0:
duke@1	557	state.push(lvar[0].sym.type);
duke@1	558	break;
duke@1	559	case aload_1:
duke@1	560	state.push(lvar[1].sym.type);
duke@1	561	break;
duke@1	562	case aload_2:
duke@1	563	state.push(lvar[2].sym.type);
duke@1	564	break;
duke@1	565	case aload_3:
duke@1	566	state.push(lvar[3].sym.type);
duke@1	567	break;
duke@1	568	case iaload:
duke@1	569	case baload:
duke@1	570	case caload:
duke@1	571	case saload:
duke@1	572	state.pop(2);
duke@1	573	state.push(syms.intType);
duke@1	574	break;
duke@1	575	case laload:
duke@1	576	state.pop(2);
duke@1	577	state.push(syms.longType);
duke@1	578	break;
duke@1	579	case faload:
duke@1	580	state.pop(2);
duke@1	581	state.push(syms.floatType);
duke@1	582	break;
duke@1	583	case daload:
duke@1	584	state.pop(2);
duke@1	585	state.push(syms.doubleType);
duke@1	586	break;
duke@1	587	case istore_0:
duke@1	588	case istore_1:
duke@1	589	case istore_2:
duke@1	590	case istore_3:
duke@1	591	case fstore_0:
duke@1	592	case fstore_1:
duke@1	593	case fstore_2:
duke@1	594	case fstore_3:
duke@1	595	case astore_0:
duke@1	596	case astore_1:
duke@1	597	case astore_2:
duke@1	598	case astore_3:
duke@1	599	case pop:
duke@1	600	case lshr:
duke@1	601	case lshl:
duke@1	602	case lushr:
duke@1	603	state.pop(1);
duke@1	604	break;
duke@1	605	case areturn:
duke@1	606	case ireturn:
duke@1	607	case freturn:
jjg@816	608	Assert.check(state.nlocks == 0);
duke@1	609	state.pop(1);
duke@1	610	markDead();
duke@1	611	break;
duke@1	612	case athrow:
duke@1	613	state.pop(1);
duke@1	614	markDead();
duke@1	615	break;
duke@1	616	case lstore_0:
duke@1	617	case lstore_1:
duke@1	618	case lstore_2:
duke@1	619	case lstore_3:
duke@1	620	case dstore_0:
duke@1	621	case dstore_1:
duke@1	622	case dstore_2:
duke@1	623	case dstore_3:
duke@1	624	case pop2:
duke@1	625	state.pop(2);
duke@1	626	break;
duke@1	627	case lreturn:
duke@1	628	case dreturn:
jjg@816	629	Assert.check(state.nlocks == 0);
duke@1	630	state.pop(2);
duke@1	631	markDead();
duke@1	632	break;
duke@1	633	case dup:
duke@1	634	state.push(state.stack[state.stacksize-1]);
duke@1	635	break;
duke@1	636	case return_:
jjg@816	637	Assert.check(state.nlocks == 0);
duke@1	638	markDead();
duke@1	639	break;
duke@1	640	case arraylength:
duke@1	641	state.pop(1);
duke@1	642	state.push(syms.intType);
duke@1	643	break;
duke@1	644	case isub:
duke@1	645	case iadd:
duke@1	646	case imul:
duke@1	647	case idiv:
duke@1	648	case imod:
duke@1	649	case ishl:
duke@1	650	case ishr:
duke@1	651	case iushr:
duke@1	652	case iand:
duke@1	653	case ior:
duke@1	654	case ixor:
duke@1	655	state.pop(1);
duke@1	656	// state.pop(1);
duke@1	657	// state.push(syms.intType);
duke@1	658	break;
duke@1	659	case aastore:
duke@1	660	state.pop(3);
duke@1	661	break;
duke@1	662	case land:
duke@1	663	case lor:
duke@1	664	case lxor:
duke@1	665	case lmod:
duke@1	666	case ldiv:
duke@1	667	case lmul:
duke@1	668	case lsub:
duke@1	669	case ladd:
duke@1	670	state.pop(2);
duke@1	671	break;
duke@1	672	case lcmp:
duke@1	673	state.pop(4);
duke@1	674	state.push(syms.intType);
duke@1	675	break;
duke@1	676	case l2i:
duke@1	677	state.pop(2);
duke@1	678	state.push(syms.intType);
duke@1	679	break;
duke@1	680	case i2l:
duke@1	681	state.pop(1);
duke@1	682	state.push(syms.longType);
duke@1	683	break;
duke@1	684	case i2f:
duke@1	685	state.pop(1);
duke@1	686	state.push(syms.floatType);
duke@1	687	break;
duke@1	688	case i2d:
duke@1	689	state.pop(1);
duke@1	690	state.push(syms.doubleType);
duke@1	691	break;
duke@1	692	case l2f:
duke@1	693	state.pop(2);
duke@1	694	state.push(syms.floatType);
duke@1	695	break;
duke@1	696	case l2d:
duke@1	697	state.pop(2);
duke@1	698	state.push(syms.doubleType);
duke@1	699	break;
duke@1	700	case f2i:
duke@1	701	state.pop(1);
duke@1	702	state.push(syms.intType);
duke@1	703	break;
duke@1	704	case f2l:
duke@1	705	state.pop(1);
duke@1	706	state.push(syms.longType);
duke@1	707	break;
duke@1	708	case f2d:
duke@1	709	state.pop(1);
duke@1	710	state.push(syms.doubleType);
duke@1	711	break;
duke@1	712	case d2i:
duke@1	713	state.pop(2);
duke@1	714	state.push(syms.intType);
duke@1	715	break;
duke@1	716	case d2l:
duke@1	717	state.pop(2);
duke@1	718	state.push(syms.longType);
duke@1	719	break;
duke@1	720	case d2f:
duke@1	721	state.pop(2);
duke@1	722	state.push(syms.floatType);
duke@1	723	break;
duke@1	724	case tableswitch:
duke@1	725	case lookupswitch:
duke@1	726	state.pop(1);
duke@1	727	// the caller is responsible for patching up the state
duke@1	728	break;
duke@1	729	case dup_x1: {
duke@1	730	Type val1 = state.pop1();
duke@1	731	Type val2 = state.pop1();
duke@1	732	state.push(val1);
duke@1	733	state.push(val2);
duke@1	734	state.push(val1);
duke@1	735	break;
duke@1	736	}
duke@1	737	case bastore:
duke@1	738	state.pop(3);
duke@1	739	break;
duke@1	740	case int2byte:
duke@1	741	case int2char:
duke@1	742	case int2short:
duke@1	743	break;
duke@1	744	case fmul:
duke@1	745	case fadd:
duke@1	746	case fsub:
duke@1	747	case fdiv:
duke@1	748	case fmod:
duke@1	749	state.pop(1);
duke@1	750	break;
duke@1	751	case castore:
duke@1	752	case iastore:
duke@1	753	case fastore:
duke@1	754	case sastore:
duke@1	755	state.pop(3);
duke@1	756	break;
duke@1	757	case lastore:
duke@1	758	case dastore:
duke@1	759	state.pop(4);
duke@1	760	break;
duke@1	761	case dup2:
duke@1	762	if (state.stack[state.stacksize-1] != null) {
duke@1	763	Type value1 = state.pop1();
duke@1	764	Type value2 = state.pop1();
duke@1	765	state.push(value2);
duke@1	766	state.push(value1);
duke@1	767	state.push(value2);
duke@1	768	state.push(value1);
duke@1	769	} else {
duke@1	770	Type value = state.pop2();
duke@1	771	state.push(value);
duke@1	772	state.push(value);
duke@1	773	}
duke@1	774	break;
duke@1	775	case dup2_x1:
duke@1	776	if (state.stack[state.stacksize-1] != null) {
duke@1	777	Type value1 = state.pop1();
duke@1	778	Type value2 = state.pop1();
duke@1	779	Type value3 = state.pop1();
duke@1	780	state.push(value2);
duke@1	781	state.push(value1);
duke@1	782	state.push(value3);
duke@1	783	state.push(value2);
duke@1	784	state.push(value1);
duke@1	785	} else {
duke@1	786	Type value1 = state.pop2();
duke@1	787	Type value2 = state.pop1();
duke@1	788	state.push(value1);
duke@1	789	state.push(value2);
duke@1	790	state.push(value1);
duke@1	791	}
duke@1	792	break;
duke@1	793	case dup2_x2:
duke@1	794	if (state.stack[state.stacksize-1] != null) {
duke@1	795	Type value1 = state.pop1();
duke@1	796	Type value2 = state.pop1();
duke@1	797	if (state.stack[state.stacksize-1] != null) {
duke@1	798	// form 1
duke@1	799	Type value3 = state.pop1();
duke@1	800	Type value4 = state.pop1();
duke@1	801	state.push(value2);
duke@1	802	state.push(value1);
duke@1	803	state.push(value4);
duke@1	804	state.push(value3);
duke@1	805	state.push(value2);
duke@1	806	state.push(value1);
duke@1	807	} else {
duke@1	808	// form 3
duke@1	809	Type value3 = state.pop2();
duke@1	810	state.push(value2);
duke@1	811	state.push(value1);
duke@1	812	state.push(value3);
duke@1	813	state.push(value2);
duke@1	814	state.push(value1);
duke@1	815	}
duke@1	816	} else {
duke@1	817	Type value1 = state.pop2();
duke@1	818	if (state.stack[state.stacksize-1] != null) {
duke@1	819	// form 2
duke@1	820	Type value2 = state.pop1();
duke@1	821	Type value3 = state.pop1();
duke@1	822	state.push(value1);
duke@1	823	state.push(value3);
duke@1	824	state.push(value2);
duke@1	825	state.push(value1);
duke@1	826	} else {
duke@1	827	// form 4
duke@1	828	Type value2 = state.pop2();
duke@1	829	state.push(value1);
duke@1	830	state.push(value2);
duke@1	831	state.push(value1);
duke@1	832	}
duke@1	833	}
duke@1	834	break;
duke@1	835	case dup_x2: {
duke@1	836	Type value1 = state.pop1();
duke@1	837	if (state.stack[state.stacksize-1] != null) {
duke@1	838	// form 1
duke@1	839	Type value2 = state.pop1();
duke@1	840	Type value3 = state.pop1();
duke@1	841	state.push(value1);
duke@1	842	state.push(value3);
duke@1	843	state.push(value2);
duke@1	844	state.push(value1);
duke@1	845	} else {
duke@1	846	// form 2
duke@1	847	Type value2 = state.pop2();
duke@1	848	state.push(value1);
duke@1	849	state.push(value2);
duke@1	850	state.push(value1);
duke@1	851	}
duke@1	852	}
duke@1	853	break;
duke@1	854	case fcmpl:
duke@1	855	case fcmpg:
duke@1	856	state.pop(2);
duke@1	857	state.push(syms.intType);
duke@1	858	break;
duke@1	859	case dcmpl:
duke@1	860	case dcmpg:
duke@1	861	state.pop(4);
duke@1	862	state.push(syms.intType);
duke@1	863	break;
duke@1	864	case swap: {
duke@1	865	Type value1 = state.pop1();
duke@1	866	Type value2 = state.pop1();
duke@1	867	state.push(value1);
duke@1	868	state.push(value2);
duke@1	869	break;
duke@1	870	}
duke@1	871	case dadd:
duke@1	872	case dsub:
duke@1	873	case dmul:
duke@1	874	case ddiv:
duke@1	875	case dmod:
duke@1	876	state.pop(2);
duke@1	877	break;
duke@1	878	case ret:
duke@1	879	markDead();
duke@1	880	break;
duke@1	881	case wide:
duke@1	882	// must be handled by the caller.
duke@1	883	return;
duke@1	884	case monitorenter:
duke@1	885	case monitorexit:
duke@1	886	state.pop(1);
duke@1	887	break;
duke@1	888
duke@1	889	default:
duke@1	890	throw new AssertionError(mnem(op));
duke@1	891	}
duke@1	892	postop();
duke@1	893	}
duke@1	894
duke@1	895	/** Emit an opcode with a one-byte operand field.
duke@1	896	*/
duke@1	897	public void emitop1(int op, int od) {
duke@1	898	emitop(op);
duke@1	899	if (!alive) return;
duke@1	900	emit1(od);
duke@1	901	switch (op) {
duke@1	902	case bipush:
duke@1	903	state.push(syms.intType);
duke@1	904	break;
duke@1	905	case ldc1:
duke@1	906	state.push(typeForPool(pool.pool[od]));
duke@1	907	break;
duke@1	908	default:
duke@1	909	throw new AssertionError(mnem(op));
duke@1	910	}
duke@1	911	postop();
duke@1	912	}
duke@1	913
duke@1	914	/** The type of a constant pool entry. */
duke@1	915	private Type typeForPool(Object o) {
duke@1	916	if (o instanceof Integer) return syms.intType;
duke@1	917	if (o instanceof Float) return syms.floatType;
duke@1	918	if (o instanceof String) return syms.stringType;
duke@1	919	if (o instanceof Long) return syms.longType;
duke@1	920	if (o instanceof Double) return syms.doubleType;
duke@1	921	if (o instanceof ClassSymbol) return syms.classType;
duke@1	922	if (o instanceof Type.ArrayType) return syms.classType;
mcimadamore@1336	923	if (o instanceof Type.MethodType) return syms.methodTypeType;
vromero@1452	924	if (o instanceof UniqueType) return typeForPool(((UniqueType)o).type);
mcimadamore@1336	925	if (o instanceof Pool.MethodHandle) return syms.methodHandleType;
duke@1	926	throw new AssertionError(o);
duke@1	927	}
duke@1	928
duke@1	929	/** Emit an opcode with a one-byte operand field;
duke@1	930	* widen if field does not fit in a byte.
duke@1	931	*/
duke@1	932	public void emitop1w(int op, int od) {
duke@1	933	if (od > 0xFF) {
duke@1	934	emitop(wide);
duke@1	935	emitop(op);
duke@1	936	emit2(od);
duke@1	937	} else {
duke@1	938	emitop(op);
duke@1	939	emit1(od);
duke@1	940	}
duke@1	941	if (!alive) return;
duke@1	942	switch (op) {
duke@1	943	case iload:
duke@1	944	state.push(syms.intType);
duke@1	945	break;
duke@1	946	case lload:
duke@1	947	state.push(syms.longType);
duke@1	948	break;
duke@1	949	case fload:
duke@1	950	state.push(syms.floatType);
duke@1	951	break;
duke@1	952	case dload:
duke@1	953	state.push(syms.doubleType);
duke@1	954	break;
duke@1	955	case aload:
duke@1	956	state.push(lvar[od].sym.type);
duke@1	957	break;
duke@1	958	case lstore:
duke@1	959	case dstore:
duke@1	960	state.pop(2);
duke@1	961	break;
duke@1	962	case istore:
duke@1	963	case fstore:
duke@1	964	case astore:
duke@1	965	state.pop(1);
duke@1	966	break;
duke@1	967	case ret:
duke@1	968	markDead();
duke@1	969	break;
duke@1	970	default:
duke@1	971	throw new AssertionError(mnem(op));
duke@1	972	}
duke@1	973	postop();
duke@1	974	}
duke@1	975
duke@1	976	/** Emit an opcode with two one-byte operand fields;
duke@1	977	* widen if either field does not fit in a byte.
duke@1	978	*/
duke@1	979	public void emitop1w(int op, int od1, int od2) {
duke@1	980	if (od1 > 0xFF || od2 < -128 || od2 > 127) {
duke@1	981	emitop(wide);
duke@1	982	emitop(op);
duke@1	983	emit2(od1);
duke@1	984	emit2(od2);
duke@1	985	} else {
duke@1	986	emitop(op);
duke@1	987	emit1(od1);
duke@1	988	emit1(od2);
duke@1	989	}
duke@1	990	if (!alive) return;
duke@1	991	switch (op) {
duke@1	992	case iinc:
duke@1	993	break;
duke@1	994	default:
duke@1	995	throw new AssertionError(mnem(op));
duke@1	996	}
duke@1	997	}
duke@1	998
duke@1	999	/** Emit an opcode with a two-byte operand field.
duke@1	1000	*/
duke@1	1001	public void emitop2(int op, int od) {
duke@1	1002	emitop(op);
duke@1	1003	if (!alive) return;
duke@1	1004	emit2(od);
duke@1	1005	switch (op) {
duke@1	1006	case getstatic:
duke@1	1007	state.push(((Symbol)(pool.pool[od])).erasure(types));
duke@1	1008	break;
duke@1	1009	case putstatic:
duke@1	1010	state.pop(((Symbol)(pool.pool[od])).erasure(types));
duke@1	1011	break;
duke@1	1012	case new_:
duke@1	1013	state.push(uninitializedObject(((Symbol)(pool.pool[od])).erasure(types), cp-3));
duke@1	1014	break;
duke@1	1015	case sipush:
duke@1	1016	state.push(syms.intType);
duke@1	1017	break;
duke@1	1018	case if_acmp_null:
duke@1	1019	case if_acmp_nonnull:
duke@1	1020	case ifeq:
duke@1	1021	case ifne:
duke@1	1022	case iflt:
duke@1	1023	case ifge:
duke@1	1024	case ifgt:
duke@1	1025	case ifle:
duke@1	1026	state.pop(1);
duke@1	1027	break;
duke@1	1028	case if_icmpeq:
duke@1	1029	case if_icmpne:
duke@1	1030	case if_icmplt:
duke@1	1031	case if_icmpge:
duke@1	1032	case if_icmpgt:
duke@1	1033	case if_icmple:
duke@1	1034	case if_acmpeq:
duke@1	1035	case if_acmpne:
duke@1	1036	state.pop(2);
duke@1	1037	break;
duke@1	1038	case goto_:
duke@1	1039	markDead();
duke@1	1040	break;
duke@1	1041	case putfield:
duke@1	1042	state.pop(((Symbol)(pool.pool[od])).erasure(types));
duke@1	1043	state.pop(1); // object ref
duke@1	1044	break;
duke@1	1045	case getfield:
duke@1	1046	state.pop(1); // object ref
duke@1	1047	state.push(((Symbol)(pool.pool[od])).erasure(types));
duke@1	1048	break;
duke@1	1049	case checkcast: {
duke@1	1050	state.pop(1); // object ref
duke@1	1051	Object o = pool.pool[od];
duke@1	1052	Type t = (o instanceof Symbol)
duke@1	1053	? ((Symbol)o).erasure(types)
vromero@1452	1054	: types.erasure((((UniqueType)o).type));
duke@1	1055	state.push(t);
duke@1	1056	break; }
duke@1	1057	case ldc2w:
duke@1	1058	state.push(typeForPool(pool.pool[od]));
duke@1	1059	break;
duke@1	1060	case instanceof_:
duke@1	1061	state.pop(1);
duke@1	1062	state.push(syms.intType);
duke@1	1063	break;
duke@1	1064	case ldc2:
duke@1	1065	state.push(typeForPool(pool.pool[od]));
duke@1	1066	break;
duke@1	1067	case jsr:
duke@1	1068	break;
duke@1	1069	default:
duke@1	1070	throw new AssertionError(mnem(op));
duke@1	1071	}
duke@1	1072	// postop();
duke@1	1073	}
duke@1	1074
duke@1	1075	/** Emit an opcode with a four-byte operand field.
duke@1	1076	*/
duke@1	1077	public void emitop4(int op, int od) {
duke@1	1078	emitop(op);
duke@1	1079	if (!alive) return;
duke@1	1080	emit4(od);
duke@1	1081	switch (op) {
duke@1	1082	case goto_w:
duke@1	1083	markDead();
duke@1	1084	break;
duke@1	1085	case jsr_w:
duke@1	1086	break;
duke@1	1087	default:
duke@1	1088	throw new AssertionError(mnem(op));
duke@1	1089	}
duke@1	1090	// postop();
duke@1	1091	}
duke@1	1092
duke@1	1093	/** Align code pointer to next `incr' boundary.
duke@1	1094	*/
duke@1	1095	public void align(int incr) {
duke@1	1096	if (alive)
duke@1	1097	while (cp % incr != 0) emitop0(nop);
duke@1	1098	}
duke@1	1099
jjg@1326	1100	/** Place a byte into code at address pc.
jjg@1326	1101	* Pre: {@literal pc + 1 <= cp }.
duke@1	1102	*/
duke@1	1103	private void put1(int pc, int op) {
duke@1	1104	code[pc] = (byte)op;
duke@1	1105	}
duke@1	1106
jjg@1326	1107	/** Place two bytes into code at address pc.
jjg@1326	1108	* Pre: {@literal pc + 2 <= cp }.
duke@1	1109	*/
duke@1	1110	private void put2(int pc, int od) {
duke@1	1111	// pre: pc + 2 <= cp
duke@1	1112	put1(pc, od >> 8);
duke@1	1113	put1(pc+1, od);
duke@1	1114	}
duke@1	1115
jjg@1326	1116	/** Place four bytes into code at address pc.
jjg@1326	1117	* Pre: {@literal pc + 4 <= cp }.
duke@1	1118	*/
duke@1	1119	public void put4(int pc, int od) {
duke@1	1120	// pre: pc + 4 <= cp
duke@1	1121	put1(pc , od >> 24);
duke@1	1122	put1(pc+1, od >> 16);
duke@1	1123	put1(pc+2, od >> 8);
duke@1	1124	put1(pc+3, od);
duke@1	1125	}
duke@1	1126
duke@1	1127	/** Return code byte at position pc as an unsigned int.
duke@1	1128	*/
duke@1	1129	private int get1(int pc) {
duke@1	1130	return code[pc] & 0xFF;
duke@1	1131	}
duke@1	1132
duke@1	1133	/** Return two code bytes at position pc as an unsigned int.
duke@1	1134	*/
duke@1	1135	private int get2(int pc) {
duke@1	1136	return (get1(pc) << 8) | get1(pc+1);
duke@1	1137	}
duke@1	1138
duke@1	1139	/** Return four code bytes at position pc as an int.
duke@1	1140	*/
duke@1	1141	public int get4(int pc) {
duke@1	1142	// pre: pc + 4 <= cp
duke@1	1143	return
duke@1	1144	(get1(pc) << 24) |
duke@1	1145	(get1(pc+1) << 16) |
duke@1	1146	(get1(pc+2) << 8) |
duke@1	1147	(get1(pc+3));
duke@1	1148	}
duke@1	1149
duke@1	1150	/** Is code generation currently enabled?
duke@1	1151	*/
duke@1	1152	public boolean isAlive() {
duke@1	1153	return alive || pendingJumps != null;
duke@1	1154	}
duke@1	1155
duke@1	1156	/** Switch code generation on/off.
duke@1	1157	*/
duke@1	1158	public void markDead() {
duke@1	1159	alive = false;
duke@1	1160	}
duke@1	1161
duke@1	1162	/** Declare an entry point; return current code pointer
duke@1	1163	*/
duke@1	1164	public int entryPoint() {
duke@1	1165	int pc = curPc();
duke@1	1166	alive = true;
duke@1	1167	pendingStackMap = needStackMap;
duke@1	1168	return pc;
duke@1	1169	}
duke@1	1170
duke@1	1171	/** Declare an entry point with initial state;
duke@1	1172	* return current code pointer
duke@1	1173	*/
duke@1	1174	public int entryPoint(State state) {
duke@1	1175	int pc = curPc();
duke@1	1176	alive = true;
duke@1	1177	this.state = state.dup();
jjg@816	1178	Assert.check(state.stacksize <= max_stack);
duke@1	1179	if (debugCode) System.err.println("entry point " + state);
duke@1	1180	pendingStackMap = needStackMap;
duke@1	1181	return pc;
duke@1	1182	}
duke@1	1183
duke@1	1184	/** Declare an entry point with initial state plus a pushed value;
duke@1	1185	* return current code pointer
duke@1	1186	*/
duke@1	1187	public int entryPoint(State state, Type pushed) {
duke@1	1188	int pc = curPc();
duke@1	1189	alive = true;
duke@1	1190	this.state = state.dup();
jjg@816	1191	Assert.check(state.stacksize <= max_stack);
duke@1	1192	this.state.push(pushed);
duke@1	1193	if (debugCode) System.err.println("entry point " + state);
duke@1	1194	pendingStackMap = needStackMap;
duke@1	1195	return pc;
duke@1	1196	}
duke@1	1197
duke@1	1198
duke@1	1199	/**************************************************************************
duke@1	1200	* Stack map generation
duke@1	1201	*************************************************************************/
duke@1	1202
duke@1	1203	/** An entry in the stack map. */
duke@1	1204	static class StackMapFrame {
duke@1	1205	int pc;
duke@1	1206	Type[] locals;
duke@1	1207	Type[] stack;
duke@1	1208	}
duke@1	1209
duke@1	1210	/** A buffer of cldc stack map entries. */
duke@1	1211	StackMapFrame[] stackMapBuffer = null;
duke@1	1212
duke@1	1213	/** A buffer of compressed StackMapTable entries. */
duke@1	1214	StackMapTableFrame[] stackMapTableBuffer = null;
duke@1	1215	int stackMapBufferSize = 0;
duke@1	1216
duke@1	1217	/** The last PC at which we generated a stack map. */
duke@1	1218	int lastStackMapPC = -1;
duke@1	1219
duke@1	1220	/** The last stack map frame in StackMapTable. */
duke@1	1221	StackMapFrame lastFrame = null;
duke@1	1222
duke@1	1223	/** The stack map frame before the last one. */
duke@1	1224	StackMapFrame frameBeforeLast = null;
duke@1	1225
duke@1	1226	/** Emit a stack map entry. */
duke@1	1227	public void emitStackMap() {
duke@1	1228	int pc = curPc();
duke@1	1229	if (!needStackMap) return;
duke@1	1230
duke@1	1231
duke@1	1232
duke@1	1233	switch (stackMap) {
duke@1	1234	case CLDC:
duke@1	1235	emitCLDCStackMap(pc, getLocalsSize());
duke@1	1236	break;
duke@1	1237	case JSR202:
duke@1	1238	emitStackMapFrame(pc, getLocalsSize());
duke@1	1239	break;
duke@1	1240	default:
duke@1	1241	throw new AssertionError("Should have chosen a stackmap format");
duke@1	1242	}
duke@1	1243	// DEBUG code follows
duke@1	1244	if (debugCode) state.dump(pc);
duke@1	1245	}
duke@1	1246
duke@1	1247	private int getLocalsSize() {
duke@1	1248	int nextLocal = 0;
duke@1	1249	for (int i=max_locals-1; i>=0; i--) {
duke@1	1250	if (state.defined.isMember(i) && lvar[i] != null) {
duke@1	1251	nextLocal = i + width(lvar[i].sym.erasure(types));
duke@1	1252	break;
duke@1	1253	}
duke@1	1254	}
duke@1	1255	return nextLocal;
duke@1	1256	}
duke@1	1257
duke@1	1258	/** Emit a CLDC stack map frame. */
duke@1	1259	void emitCLDCStackMap(int pc, int localsSize) {
duke@1	1260	if (lastStackMapPC == pc) {
duke@1	1261	// drop existing stackmap at this offset
duke@1	1262	stackMapBuffer[--stackMapBufferSize] = null;
duke@1	1263	}
duke@1	1264	lastStackMapPC = pc;
duke@1	1265
duke@1	1266	if (stackMapBuffer == null) {
duke@1	1267	stackMapBuffer = new StackMapFrame[20];
jjg@1339	1268	} else {
jjg@1339	1269	stackMapBuffer = ArrayUtils.ensureCapacity(stackMapBuffer, stackMapBufferSize);
duke@1	1270	}
duke@1	1271	StackMapFrame frame =
duke@1	1272	stackMapBuffer[stackMapBufferSize++] = new StackMapFrame();
duke@1	1273	frame.pc = pc;
duke@1	1274
duke@1	1275	frame.locals = new Type[localsSize];
duke@1	1276	for (int i=0; i<localsSize; i++) {
duke@1	1277	if (state.defined.isMember(i) && lvar[i] != null) {
duke@1	1278	Type vtype = lvar[i].sym.type;
duke@1	1279	if (!(vtype instanceof UninitializedType))
duke@1	1280	vtype = types.erasure(vtype);
duke@1	1281	frame.locals[i] = vtype;
duke@1	1282	}
duke@1	1283	}
duke@1	1284	frame.stack = new Type[state.stacksize];
duke@1	1285	for (int i=0; i<state.stacksize; i++)
duke@1	1286	frame.stack[i] = state.stack[i];
duke@1	1287	}
duke@1	1288
duke@1	1289	void emitStackMapFrame(int pc, int localsSize) {
duke@1	1290	if (lastFrame == null) {
duke@1	1291	// first frame
duke@1	1292	lastFrame = getInitialFrame();
duke@1	1293	} else if (lastFrame.pc == pc) {
duke@1	1294	// drop existing stackmap at this offset
duke@1	1295	stackMapTableBuffer[--stackMapBufferSize] = null;
duke@1	1296	lastFrame = frameBeforeLast;
duke@1	1297	frameBeforeLast = null;
duke@1	1298	}
duke@1	1299
duke@1	1300	StackMapFrame frame = new StackMapFrame();
duke@1	1301	frame.pc = pc;
duke@1	1302
duke@1	1303	int localCount = 0;
duke@1	1304	Type[] locals = new Type[localsSize];
duke@1	1305	for (int i=0; i<localsSize; i++, localCount++) {
duke@1	1306	if (state.defined.isMember(i) && lvar[i] != null) {
duke@1	1307	Type vtype = lvar[i].sym.type;
duke@1	1308	if (!(vtype instanceof UninitializedType))
duke@1	1309	vtype = types.erasure(vtype);
duke@1	1310	locals[i] = vtype;
duke@1	1311	if (width(vtype) > 1) i++;
duke@1	1312	}
duke@1	1313	}
duke@1	1314	frame.locals = new Type[localCount];
duke@1	1315	for (int i=0, j=0; i<localsSize; i++, j++) {
jjg@816	1316	Assert.check(j < localCount);
duke@1	1317	frame.locals[j] = locals[i];
duke@1	1318	if (width(locals[i]) > 1) i++;
duke@1	1319	}
duke@1	1320
duke@1	1321	int stackCount = 0;
duke@1	1322	for (int i=0; i<state.stacksize; i++) {
duke@1	1323	if (state.stack[i] != null) {
duke@1	1324	stackCount++;
duke@1	1325	}
duke@1	1326	}
duke@1	1327	frame.stack = new Type[stackCount];
duke@1	1328	stackCount = 0;
duke@1	1329	for (int i=0; i<state.stacksize; i++) {
duke@1	1330	if (state.stack[i] != null) {
mcimadamore@747	1331	frame.stack[stackCount++] = types.erasure(state.stack[i]);
duke@1	1332	}
duke@1	1333	}
duke@1	1334
duke@1	1335	if (stackMapTableBuffer == null) {
duke@1	1336	stackMapTableBuffer = new StackMapTableFrame[20];
jjg@1339	1337	} else {
jjg@1339	1338	stackMapTableBuffer = ArrayUtils.ensureCapacity(
jjg@1339	1339	stackMapTableBuffer,
jjg@1339	1340	stackMapBufferSize);
duke@1	1341	}
duke@1	1342	stackMapTableBuffer[stackMapBufferSize++] =
duke@1	1343	StackMapTableFrame.getInstance(frame, lastFrame.pc, lastFrame.locals, types);
duke@1	1344
duke@1	1345	frameBeforeLast = lastFrame;
duke@1	1346	lastFrame = frame;
duke@1	1347	}
duke@1	1348
duke@1	1349	StackMapFrame getInitialFrame() {
duke@1	1350	StackMapFrame frame = new StackMapFrame();
duke@1	1351	List<Type> arg_types = ((MethodType)meth.externalType(types)).argtypes;
duke@1	1352	int len = arg_types.length();
duke@1	1353	int count = 0;
duke@1	1354	if (!meth.isStatic()) {
duke@1	1355	Type thisType = meth.owner.type;
duke@1	1356	frame.locals = new Type[len+1];
duke@1	1357	if (meth.isConstructor() && thisType != syms.objectType) {
duke@1	1358	frame.locals[count++] = UninitializedType.uninitializedThis(thisType);
duke@1	1359	} else {
duke@1	1360	frame.locals[count++] = types.erasure(thisType);
duke@1	1361	}
duke@1	1362	} else {
duke@1	1363	frame.locals = new Type[len];
duke@1	1364	}
duke@1	1365	for (Type arg_type : arg_types) {
duke@1	1366	frame.locals[count++] = types.erasure(arg_type);
duke@1	1367	}
duke@1	1368	frame.pc = -1;
duke@1	1369	frame.stack = null;
duke@1	1370	return frame;
duke@1	1371	}
duke@1	1372
duke@1	1373
duke@1	1374	/**************************************************************************
duke@1	1375	* Operations having to do with jumps
duke@1	1376	*************************************************************************/
duke@1	1377
duke@1	1378	/** A chain represents a list of unresolved jumps. Jump locations
duke@1	1379	* are sorted in decreasing order.
duke@1	1380	*/
duke@1	1381	public static class Chain {
duke@1	1382
duke@1	1383	/** The position of the jump instruction.
duke@1	1384	*/
duke@1	1385	public final int pc;
duke@1	1386
duke@1	1387	/** The machine state after the jump instruction.
duke@1	1388	* Invariant: all elements of a chain list have the same stacksize
duke@1	1389	* and compatible stack and register contents.
duke@1	1390	*/
duke@1	1391	Code.State state;
duke@1	1392
duke@1	1393	/** The next jump in the list.
duke@1	1394	*/
duke@1	1395	public final Chain next;
duke@1	1396
duke@1	1397	/** Construct a chain from its jump position, stacksize, previous
duke@1	1398	* chain, and machine state.
duke@1	1399	*/
duke@1	1400	public Chain(int pc, Chain next, Code.State state) {
duke@1	1401	this.pc = pc;
duke@1	1402	this.next = next;
duke@1	1403	this.state = state;
duke@1	1404	}
duke@1	1405	}
duke@1	1406
duke@1	1407	/** Negate a branch opcode.
duke@1	1408	*/
duke@1	1409	public static int negate(int opcode) {
duke@1	1410	if (opcode == if_acmp_null) return if_acmp_nonnull;
duke@1	1411	else if (opcode == if_acmp_nonnull) return if_acmp_null;
duke@1	1412	else return ((opcode + 1) ^ 1) - 1;
duke@1	1413	}
duke@1	1414
duke@1	1415	/** Emit a jump instruction.
duke@1	1416	* Return code pointer of instruction to be patched.
duke@1	1417	*/
duke@1	1418	public int emitJump(int opcode) {
duke@1	1419	if (fatcode) {
duke@1	1420	if (opcode == goto_ || opcode == jsr) {
duke@1	1421	emitop4(opcode + goto_w - goto_, 0);
duke@1	1422	} else {
duke@1	1423	emitop2(negate(opcode), 8);
duke@1	1424	emitop4(goto_w, 0);
duke@1	1425	alive = true;
duke@1	1426	pendingStackMap = needStackMap;
duke@1	1427	}
duke@1	1428	return cp - 5;
duke@1	1429	} else {
duke@1	1430	emitop2(opcode, 0);
duke@1	1431	return cp - 3;
duke@1	1432	}
duke@1	1433	}
duke@1	1434
duke@1	1435	/** Emit a branch with given opcode; return its chain.
duke@1	1436	* branch differs from jump in that jsr is treated as no-op.
duke@1	1437	*/
duke@1	1438	public Chain branch(int opcode) {
duke@1	1439	Chain result = null;
duke@1	1440	if (opcode == goto_) {
duke@1	1441	result = pendingJumps;
duke@1	1442	pendingJumps = null;
duke@1	1443	}
duke@1	1444	if (opcode != dontgoto && isAlive()) {
duke@1	1445	result = new Chain(emitJump(opcode),
duke@1	1446	result,
duke@1	1447	state.dup());
duke@1	1448	fixedPc = fatcode;
duke@1	1449	if (opcode == goto_) alive = false;
duke@1	1450	}
duke@1	1451	return result;
duke@1	1452	}
duke@1	1453
duke@1	1454	/** Resolve chain to point to given target.
duke@1	1455	*/
duke@1	1456	public void resolve(Chain chain, int target) {
duke@1	1457	boolean changed = false;
duke@1	1458	State newState = state;
duke@1	1459	for (; chain != null; chain = chain.next) {
jjg@816	1460	Assert.check(state != chain.state
jjg@816	1461	&& (target > chain.pc || state.stacksize == 0));
duke@1	1462	if (target >= cp) {
duke@1	1463	target = cp;
duke@1	1464	} else if (get1(target) == goto_) {
duke@1	1465	if (fatcode) target = target + get4(target + 1);
duke@1	1466	else target = target + get2(target + 1);
duke@1	1467	}
duke@1	1468	if (get1(chain.pc) == goto_ &&
duke@1	1469	chain.pc + 3 == target && target == cp && !fixedPc) {
duke@1	1470	// If goto the next instruction, the jump is not needed:
duke@1	1471	// compact the code.
duke@1	1472	cp = cp - 3;
duke@1	1473	target = target - 3;
duke@1	1474	if (chain.next == null) {
duke@1	1475	// This is the only jump to the target. Exit the loop
duke@1	1476	// without setting new state. The code is reachable
duke@1	1477	// from the instruction before goto_.
duke@1	1478	alive = true;
duke@1	1479	break;
duke@1	1480	}
duke@1	1481	} else {
duke@1	1482	if (fatcode)
duke@1	1483	put4(chain.pc + 1, target - chain.pc);
duke@1	1484	else if (target - chain.pc < Short.MIN_VALUE ||
duke@1	1485	target - chain.pc > Short.MAX_VALUE)
duke@1	1486	fatcode = true;
duke@1	1487	else
duke@1	1488	put2(chain.pc + 1, target - chain.pc);
jjg@816	1489	Assert.check(!alive ||
duke@1	1490	chain.state.stacksize == newState.stacksize &&
jjg@816	1491	chain.state.nlocks == newState.nlocks);
duke@1	1492	}
duke@1	1493	fixedPc = true;
duke@1	1494	if (cp == target) {
duke@1	1495	changed = true;
duke@1	1496	if (debugCode)
duke@1	1497	System.err.println("resolving chain state=" + chain.state);
duke@1	1498	if (alive) {
duke@1	1499	newState = chain.state.join(newState);
duke@1	1500	} else {
duke@1	1501	newState = chain.state;
duke@1	1502	alive = true;
duke@1	1503	}
duke@1	1504	}
duke@1	1505	}
jjg@816	1506	Assert.check(!changed || state != newState);
duke@1	1507	if (state != newState) {
duke@1	1508	setDefined(newState.defined);
duke@1	1509	state = newState;
duke@1	1510	pendingStackMap = needStackMap;
duke@1	1511	}
duke@1	1512	}
duke@1	1513
duke@1	1514	/** Resolve chain to point to current code pointer.
duke@1	1515	*/
duke@1	1516	public void resolve(Chain chain) {
jjg@816	1517	Assert.check(
duke@1	1518	!alive ||
duke@1	1519	chain==null ||
duke@1	1520	state.stacksize == chain.state.stacksize &&
jjg@816	1521	state.nlocks == chain.state.nlocks);
duke@1	1522	pendingJumps = mergeChains(chain, pendingJumps);
duke@1	1523	}
duke@1	1524
duke@1	1525	/** Resolve any pending jumps.
duke@1	1526	*/
duke@1	1527	public void resolvePending() {
duke@1	1528	Chain x = pendingJumps;
duke@1	1529	pendingJumps = null;
duke@1	1530	resolve(x, cp);
duke@1	1531	}
duke@1	1532
duke@1	1533	/** Merge the jumps in of two chains into one.
duke@1	1534	*/
duke@1	1535	public static Chain mergeChains(Chain chain1, Chain chain2) {
duke@1	1536	// recursive merge sort
duke@1	1537	if (chain2 == null) return chain1;
duke@1	1538	if (chain1 == null) return chain2;
jjg@816	1539	Assert.check(
duke@1	1540	chain1.state.stacksize == chain2.state.stacksize &&
jjg@816	1541	chain1.state.nlocks == chain2.state.nlocks);
duke@1	1542	if (chain1.pc < chain2.pc)
duke@1	1543	return new Chain(
duke@1	1544	chain2.pc,
duke@1	1545	mergeChains(chain1, chain2.next),
duke@1	1546	chain2.state);
duke@1	1547	return new Chain(
duke@1	1548	chain1.pc,
duke@1	1549	mergeChains(chain1.next, chain2),
duke@1	1550	chain1.state);
duke@1	1551	}
duke@1	1552
duke@1	1553
duke@1	1554	/* **************************************************************************
duke@1	1555	* Catch clauses
duke@1	1556	****************************************************************************/
duke@1	1557
duke@1	1558	/** Add a catch clause to code.
duke@1	1559	*/
duke@1	1560	public void addCatch(
duke@1	1561	char startPc, char endPc, char handlerPc, char catchType) {
mcimadamore@1109	1562	catchInfo.append(new char[]{startPc, endPc, handlerPc, catchType});
mcimadamore@1109	1563	}
mcimadamore@1109	1564
mcimadamore@1109	1565
mcimadamore@1109	1566	public void compressCatchTable() {
mcimadamore@1109	1567	ListBuffer<char[]> compressedCatchInfo = ListBuffer.lb();
mcimadamore@1109	1568	List<Integer> handlerPcs = List.nil();
jlahoda@1444	1569	for (char[] catchEntry : catchInfo) {
mcimadamore@1109	1570	handlerPcs = handlerPcs.prepend((int)catchEntry[2]);
mcimadamore@1109	1571	}
jlahoda@1444	1572	for (char[] catchEntry : catchInfo) {
mcimadamore@1109	1573	int startpc = catchEntry[0];
mcimadamore@1109	1574	int endpc = catchEntry[1];
mcimadamore@1109	1575	if (startpc == endpc ||
mcimadamore@1109	1576	(startpc == (endpc - 1) &&
mcimadamore@1109	1577	handlerPcs.contains(startpc))) {
mcimadamore@1109	1578	continue;
mcimadamore@1109	1579	} else {
mcimadamore@1109	1580	compressedCatchInfo.append(catchEntry);
mcimadamore@1109	1581	}
mcimadamore@1109	1582	}
mcimadamore@1109	1583	catchInfo = compressedCatchInfo;
duke@1	1584	}
duke@1	1585
duke@1	1586
duke@1	1587	/* **************************************************************************
duke@1	1588	* Line numbers
duke@1	1589	****************************************************************************/
duke@1	1590
duke@1	1591	/** Add a line number entry.
duke@1	1592	*/
duke@1	1593	public void addLineNumber(char startPc, char lineNumber) {
duke@1	1594	if (lineDebugInfo) {
duke@1	1595	if (lineInfo.nonEmpty() && lineInfo.head[0] == startPc)
duke@1	1596	lineInfo = lineInfo.tail;
duke@1	1597	if (lineInfo.isEmpty() || lineInfo.head[1] != lineNumber)
duke@1	1598	lineInfo = lineInfo.prepend(new char[]{startPc, lineNumber});
duke@1	1599	}
duke@1	1600	}
duke@1	1601
duke@1	1602	/** Mark beginning of statement.
duke@1	1603	*/
duke@1	1604	public void statBegin(int pos) {
duke@1	1605	if (pos != Position.NOPOS) {
duke@1	1606	pendingStatPos = pos;
duke@1	1607	}
duke@1	1608	}
duke@1	1609
duke@1	1610	/** Force stat begin eagerly
duke@1	1611	*/
duke@1	1612	public void markStatBegin() {
duke@1	1613	if (alive && lineDebugInfo) {
duke@1	1614	int line = lineMap.getLineNumber(pendingStatPos);
duke@1	1615	char cp1 = (char)cp;
duke@1	1616	char line1 = (char)line;
duke@1	1617	if (cp1 == cp && line1 == line)
duke@1	1618	addLineNumber(cp1, line1);
duke@1	1619	}
duke@1	1620	pendingStatPos = Position.NOPOS;
duke@1	1621	}
duke@1	1622
duke@1	1623
duke@1	1624	/* **************************************************************************
duke@1	1625	* Simulated VM machine state
duke@1	1626	****************************************************************************/
duke@1	1627
duke@1	1628	class State implements Cloneable {
duke@1	1629	/** The set of registers containing values. */
duke@1	1630	Bits defined;
duke@1	1631
duke@1	1632	/** The (types of the) contents of the machine stack. */
duke@1	1633	Type[] stack;
duke@1	1634
duke@1	1635	/** The first stack position currently unused. */
duke@1	1636	int stacksize;
duke@1	1637
duke@1	1638	/** The numbers of registers containing locked monitors. */
duke@1	1639	int[] locks;
duke@1	1640	int nlocks;
duke@1	1641
duke@1	1642	State() {
duke@1	1643	defined = new Bits();
duke@1	1644	stack = new Type[16];
duke@1	1645	}
duke@1	1646
duke@1	1647	State dup() {
duke@1	1648	try {
duke@1	1649	State state = (State)super.clone();
vromero@1713	1650	state.defined = new Bits(defined);
duke@1	1651	state.stack = stack.clone();
duke@1	1652	if (locks != null) state.locks = locks.clone();
duke@1	1653	if (debugCode) {
duke@1	1654	System.err.println("duping state " + this);
duke@1	1655	dump();
duke@1	1656	}
duke@1	1657	return state;
duke@1	1658	} catch (CloneNotSupportedException ex) {
duke@1	1659	throw new AssertionError(ex);
duke@1	1660	}
duke@1	1661	}
duke@1	1662
duke@1	1663	void lock(int register) {
duke@1	1664	if (locks == null) {
duke@1	1665	locks = new int[20];
jjg@1339	1666	} else {
jjg@1339	1667	locks = ArrayUtils.ensureCapacity(locks, nlocks);
duke@1	1668	}
duke@1	1669	locks[nlocks] = register;
duke@1	1670	nlocks++;
duke@1	1671	}
duke@1	1672
duke@1	1673	void unlock(int register) {
duke@1	1674	nlocks--;
jjg@816	1675	Assert.check(locks[nlocks] == register);
duke@1	1676	locks[nlocks] = -1;
duke@1	1677	}
duke@1	1678
duke@1	1679	void push(Type t) {
duke@1	1680	if (debugCode) System.err.println(" pushing " + t);
jjg@1374	1681	switch (t.getTag()) {
jjg@1374	1682	case VOID:
duke@1	1683	return;
jjg@1374	1684	case BYTE:
jjg@1374	1685	case CHAR:
jjg@1374	1686	case SHORT:
jjg@1374	1687	case BOOLEAN:
duke@1	1688	t = syms.intType;
duke@1	1689	break;
duke@1	1690	default:
duke@1	1691	break;
duke@1	1692	}
jjg@1339	1693	stack = ArrayUtils.ensureCapacity(stack, stacksize+2);
duke@1	1694	stack[stacksize++] = t;
duke@1	1695	switch (width(t)) {
duke@1	1696	case 1:
duke@1	1697	break;
duke@1	1698	case 2:
duke@1	1699	stack[stacksize++] = null;
duke@1	1700	break;
duke@1	1701	default:
duke@1	1702	throw new AssertionError(t);
duke@1	1703	}
duke@1	1704	if (stacksize > max_stack)
duke@1	1705	max_stack = stacksize;
duke@1	1706	}
duke@1	1707
duke@1	1708	Type pop1() {
duke@1	1709	if (debugCode) System.err.println(" popping " + 1);
duke@1	1710	stacksize--;
duke@1	1711	Type result = stack[stacksize];
duke@1	1712	stack[stacksize] = null;
jjg@816	1713	Assert.check(result != null && width(result) == 1);
duke@1	1714	return result;
duke@1	1715	}
duke@1	1716
duke@1	1717	Type peek() {
duke@1	1718	return stack[stacksize-1];
duke@1	1719	}
duke@1	1720
duke@1	1721	Type pop2() {
duke@1	1722	if (debugCode) System.err.println(" popping " + 2);
duke@1	1723	stacksize -= 2;
duke@1	1724	Type result = stack[stacksize];
duke@1	1725	stack[stacksize] = null;
jjg@816	1726	Assert.check(stack[stacksize+1] == null
jjg@816	1727	&& result != null && width(result) == 2);
duke@1	1728	return result;
duke@1	1729	}
duke@1	1730
duke@1	1731	void pop(int n) {
duke@1	1732	if (debugCode) System.err.println(" popping " + n);
duke@1	1733	while (n > 0) {
duke@1	1734	stack[--stacksize] = null;
duke@1	1735	n--;
duke@1	1736	}
duke@1	1737	}
duke@1	1738
duke@1	1739	void pop(Type t) {
duke@1	1740	pop(width(t));
duke@1	1741	}
duke@1	1742
duke@1	1743	/** Force the top of the stack to be treated as this supertype
duke@1	1744	* of its current type. */
duke@1	1745	void forceStackTop(Type t) {
duke@1	1746	if (!alive) return;
jjg@1374	1747	switch (t.getTag()) {
duke@1	1748	case CLASS:
duke@1	1749	case ARRAY:
duke@1	1750	int width = width(t);
duke@1	1751	Type old = stack[stacksize-width];
jjg@816	1752	Assert.check(types.isSubtype(types.erasure(old),
jjg@816	1753	types.erasure(t)));
duke@1	1754	stack[stacksize-width] = t;
duke@1	1755	break;
duke@1	1756	default:
duke@1	1757	}
duke@1	1758	}
duke@1	1759
duke@1	1760	void markInitialized(UninitializedType old) {
duke@1	1761	Type newtype = old.initializedType();
duke@1	1762	for (int i=0; i<stacksize; i++)
duke@1	1763	if (stack[i] == old) stack[i] = newtype;
duke@1	1764	for (int i=0; i<lvar.length; i++) {
duke@1	1765	LocalVar lv = lvar[i];
duke@1	1766	if (lv != null && lv.sym.type == old) {
duke@1	1767	VarSymbol sym = lv.sym;
duke@1	1768	sym = sym.clone(sym.owner);
duke@1	1769	sym.type = newtype;
duke@1	1770	LocalVar newlv = lvar[i] = new LocalVar(sym);
duke@1	1771	// should the following be initialized to cp?
duke@1	1772	newlv.start_pc = lv.start_pc;
duke@1	1773	}
duke@1	1774	}
duke@1	1775	}
duke@1	1776
duke@1	1777	State join(State other) {
vromero@1713	1778	defined.andSet(other.defined);
jjg@816	1779	Assert.check(stacksize == other.stacksize
jjg@816	1780	&& nlocks == other.nlocks);
duke@1	1781	for (int i=0; i<stacksize; ) {
duke@1	1782	Type t = stack[i];
duke@1	1783	Type tother = other.stack[i];
duke@1	1784	Type result =
duke@1	1785	t==tother ? t :
duke@1	1786	types.isSubtype(t, tother) ? tother :
duke@1	1787	types.isSubtype(tother, t) ? t :
duke@1	1788	error();
duke@1	1789	int w = width(result);
duke@1	1790	stack[i] = result;
jjg@816	1791	if (w == 2) Assert.checkNull(stack[i+1]);
duke@1	1792	i += w;
duke@1	1793	}
duke@1	1794	return this;
duke@1	1795	}
duke@1	1796
duke@1	1797	Type error() {
duke@1	1798	throw new AssertionError("inconsistent stack types at join point");
duke@1	1799	}
duke@1	1800
duke@1	1801	void dump() {
duke@1	1802	dump(-1);
duke@1	1803	}
duke@1	1804
duke@1	1805	void dump(int pc) {
duke@1	1806	System.err.print("stackMap for " + meth.owner + "." + meth);
duke@1	1807	if (pc == -1)
duke@1	1808	System.out.println();
duke@1	1809	else
duke@1	1810	System.out.println(" at " + pc);
duke@1	1811	System.err.println(" stack (from bottom):");
duke@1	1812	for (int i=0; i<stacksize; i++)
duke@1	1813	System.err.println(" " + i + ": " + stack[i]);
duke@1	1814
duke@1	1815	int lastLocal = 0;
duke@1	1816	for (int i=max_locals-1; i>=0; i--) {
duke@1	1817	if (defined.isMember(i)) {
duke@1	1818	lastLocal = i;
duke@1	1819	break;
duke@1	1820	}
duke@1	1821	}
duke@1	1822	if (lastLocal >= 0)
duke@1	1823	System.err.println(" locals:");
duke@1	1824	for (int i=0; i<=lastLocal; i++) {
duke@1	1825	System.err.print(" " + i + ": ");
duke@1	1826	if (defined.isMember(i)) {
duke@1	1827	LocalVar var = lvar[i];
duke@1	1828	if (var == null) {
duke@1	1829	System.err.println("(none)");
duke@1	1830	} else if (var.sym == null)
duke@1	1831	System.err.println("UNKNOWN!");
duke@1	1832	else
duke@1	1833	System.err.println("" + var.sym + " of type " +
duke@1	1834	var.sym.erasure(types));
duke@1	1835	} else {
duke@1	1836	System.err.println("undefined");
duke@1	1837	}
duke@1	1838	}
duke@1	1839	if (nlocks != 0) {
duke@1	1840	System.err.print(" locks:");
duke@1	1841	for (int i=0; i<nlocks; i++) {
duke@1	1842	System.err.print(" " + locks[i]);
duke@1	1843	}
duke@1	1844	System.err.println();
duke@1	1845	}
duke@1	1846	}
duke@1	1847	}
duke@1	1848
vromero@1442	1849	static final Type jsrReturnValue = new Type(INT, null);
duke@1	1850
duke@1	1851
duke@1	1852	/* **************************************************************************
duke@1	1853	* Local variables
duke@1	1854	****************************************************************************/
duke@1	1855
duke@1	1856	/** A live range of a local variable. */
duke@1	1857	static class LocalVar {
duke@1	1858	final VarSymbol sym;
duke@1	1859	final char reg;
duke@1	1860	char start_pc = Character.MAX_VALUE;
duke@1	1861	char length = Character.MAX_VALUE;
duke@1	1862	LocalVar(VarSymbol v) {
duke@1	1863	this.sym = v;
duke@1	1864	this.reg = (char)v.adr;
duke@1	1865	}
duke@1	1866	public LocalVar dup() {
duke@1	1867	return new LocalVar(sym);
duke@1	1868	}
duke@1	1869	public String toString() {
duke@1	1870	return "" + sym + " in register " + ((int)reg) + " starts at pc=" + ((int)start_pc) + " length=" + ((int)length);
duke@1	1871	}
duke@1	1872	};
duke@1	1873
duke@1	1874	/** Local variables, indexed by register. */
duke@1	1875	LocalVar[] lvar;
duke@1	1876
duke@1	1877	/** Add a new local variable. */
duke@1	1878	private void addLocalVar(VarSymbol v) {
duke@1	1879	int adr = v.adr;
jjg@1339	1880	lvar = ArrayUtils.ensureCapacity(lvar, adr+1);
jjg@816	1881	Assert.checkNull(lvar[adr]);
duke@1	1882	if (pendingJumps != null) resolvePending();
duke@1	1883	lvar[adr] = new LocalVar(v);
duke@1	1884	state.defined.excl(adr);
duke@1	1885	}
duke@1	1886
duke@1	1887	/** Set the current variable defined state. */
duke@1	1888	public void setDefined(Bits newDefined) {
duke@1	1889	if (alive && newDefined != state.defined) {
vromero@1713	1890	Bits diff = new Bits(state.defined).xorSet(newDefined);
duke@1	1891	for (int adr = diff.nextBit(0);
duke@1	1892	adr >= 0;
duke@1	1893	adr = diff.nextBit(adr+1)) {
duke@1	1894	if (adr >= nextreg)
duke@1	1895	state.defined.excl(adr);
duke@1	1896	else if (state.defined.isMember(adr))
duke@1	1897	setUndefined(adr);
duke@1	1898	else
duke@1	1899	setDefined(adr);
duke@1	1900	}
duke@1	1901	}
duke@1	1902	}
duke@1	1903
duke@1	1904	/** Mark a register as being (possibly) defined. */
duke@1	1905	public void setDefined(int adr) {
duke@1	1906	LocalVar v = lvar[adr];
duke@1	1907	if (v == null) {
duke@1	1908	state.defined.excl(adr);
duke@1	1909	} else {
duke@1	1910	state.defined.incl(adr);
duke@1	1911	if (cp < Character.MAX_VALUE) {
duke@1	1912	if (v.start_pc == Character.MAX_VALUE)
duke@1	1913	v.start_pc = (char)cp;
duke@1	1914	}
duke@1	1915	}
duke@1	1916	}
duke@1	1917
duke@1	1918	/** Mark a register as being undefined. */
duke@1	1919	public void setUndefined(int adr) {
duke@1	1920	state.defined.excl(adr);
duke@1	1921	if (adr < lvar.length &&
duke@1	1922	lvar[adr] != null &&
duke@1	1923	lvar[adr].start_pc != Character.MAX_VALUE) {
duke@1	1924	LocalVar v = lvar[adr];
duke@1	1925	char length = (char)(curPc() - v.start_pc);
duke@1	1926	if (length > 0 && length < Character.MAX_VALUE) {
duke@1	1927	lvar[adr] = v.dup();
duke@1	1928	v.length = length;
duke@1	1929	putVar(v);
duke@1	1930	} else {
duke@1	1931	v.start_pc = Character.MAX_VALUE;
duke@1	1932	}
duke@1	1933	}
duke@1	1934	}
duke@1	1935
duke@1	1936	/** End the scope of a variable. */
duke@1	1937	private void endScope(int adr) {
duke@1	1938	LocalVar v = lvar[adr];
duke@1	1939	if (v != null) {
duke@1	1940	lvar[adr] = null;
duke@1	1941	if (v.start_pc != Character.MAX_VALUE) {
duke@1	1942	char length = (char)(curPc() - v.start_pc);
duke@1	1943	if (length < Character.MAX_VALUE) {
duke@1	1944	v.length = length;
duke@1	1945	putVar(v);
jjg@1521	1946	fillLocalVarPosition(v);
duke@1	1947	}
duke@1	1948	}
duke@1	1949	}
duke@1	1950	state.defined.excl(adr);
duke@1	1951	}
duke@1	1952
jjg@1521	1953	private void fillLocalVarPosition(LocalVar lv) {
jjg@1521	1954	if (lv == null || lv.sym == null
jjg@1521	1955	|| lv.sym.annotations.isTypesEmpty())
jjg@1521	1956	return;
jjg@1521	1957	for (Attribute.TypeCompound ta : lv.sym.getRawTypeAttributes()) {
jjg@1521	1958	TypeAnnotationPosition p = ta.position;
jjg@1521	1959	p.lvarOffset = new int[] { (int)lv.start_pc };
jjg@1521	1960	p.lvarLength = new int[] { (int)lv.length };
jjg@1521	1961	p.lvarIndex = new int[] { (int)lv.reg };
jjg@1521	1962	p.isValidOffset = true;
jjg@1521	1963	}
jjg@1521	1964	}
jjg@1521	1965
jjg@1521	1966	// Method to be called after compressCatchTable to
jjg@1521	1967	// fill in the exception table index for type
jjg@1521	1968	// annotations on exception parameters.
jjg@1521	1969	public void fillExceptionParameterPositions() {
jjg@1521	1970	for (int i = 0; i < varBufferSize; ++i) {
jjg@1521	1971	LocalVar lv = varBuffer[i];
jjg@1521	1972	if (lv == null || lv.sym == null
jjg@1521	1973	|| lv.sym.annotations.isTypesEmpty()
jjg@1521	1974	|| !lv.sym.isExceptionParameter())
jjg@1521	1975	return;
jjg@1521	1976
jjg@1521	1977	int exidx = findExceptionIndex(lv);
jjg@1521	1978
jjg@1521	1979	for (Attribute.TypeCompound ta : lv.sym.getRawTypeAttributes()) {
jjg@1521	1980	TypeAnnotationPosition p = ta.position;
jjg@1521	1981	p.exception_index = exidx;
jjg@1521	1982	}
jjg@1521	1983	}
jjg@1521	1984	}
jjg@1521	1985
jjg@1521	1986	private int findExceptionIndex(LocalVar lv) {
jjg@1521	1987	List<char[]> iter = catchInfo.toList();
jjg@1521	1988	int len = catchInfo.length();
jjg@1521	1989	for (int i = 0; i < len; ++i) {
jjg@1521	1990	char[] catchEntry = iter.head;
jjg@1521	1991	iter = iter.tail;
jjg@1521	1992	char handlerpc = catchEntry[2];
jjg@1521	1993	if (lv.start_pc == handlerpc + 1) {
jjg@1521	1994	return i;
jjg@1521	1995	}
jjg@1521	1996	}
jjg@1521	1997	return -1;
jjg@1521	1998	}
jjg@1521	1999
duke@1	2000	/** Put a live variable range into the buffer to be output to the
duke@1	2001	* class file.
duke@1	2002	*/
duke@1	2003	void putVar(LocalVar var) {
jjg@1521	2004	// Keep local variables if
jjg@1521	2005	// 1) we need them for debug information
jjg@1521	2006	// 2) it is an exception type and it contains type annotations
jjg@1521	2007	if (!varDebugInfo &&
jjg@1521	2008	(!var.sym.isExceptionParameter() ||
jjg@1521	2009	var.sym.annotations.isTypesEmpty())) return;
duke@1	2010	if ((var.sym.flags() & Flags.SYNTHETIC) != 0) return;
duke@1	2011	if (varBuffer == null)
duke@1	2012	varBuffer = new LocalVar[20];
jjg@1339	2013	else
jjg@1339	2014	varBuffer = ArrayUtils.ensureCapacity(varBuffer, varBufferSize);
duke@1	2015	varBuffer[varBufferSize++] = var;
duke@1	2016	}
duke@1	2017
duke@1	2018	/** Previously live local variables, to be put into the variable table. */
duke@1	2019	LocalVar[] varBuffer;
duke@1	2020	int varBufferSize;
duke@1	2021
duke@1	2022	/** Create a new local variable address and return it.
duke@1	2023	*/
duke@1	2024	private int newLocal(int typecode) {
duke@1	2025	int reg = nextreg;
duke@1	2026	int w = width(typecode);
duke@1	2027	nextreg = reg + w;
duke@1	2028	if (nextreg > max_locals) max_locals = nextreg;
duke@1	2029	return reg;
duke@1	2030	}
duke@1	2031
duke@1	2032	private int newLocal(Type type) {
duke@1	2033	return newLocal(typecode(type));
duke@1	2034	}
duke@1	2035
duke@1	2036	public int newLocal(VarSymbol v) {
duke@1	2037	int reg = v.adr = newLocal(v.erasure(types));
duke@1	2038	addLocalVar(v);
duke@1	2039	return reg;
duke@1	2040	}
duke@1	2041
duke@1	2042	/** Start a set of fresh registers.
duke@1	2043	*/
duke@1	2044	public void newRegSegment() {
duke@1	2045	nextreg = max_locals;
duke@1	2046	}
duke@1	2047
jjg@1326	2048	/** End scopes of all variables with registers &ge; first.
duke@1	2049	*/
duke@1	2050	public void endScopes(int first) {
duke@1	2051	int prevNextReg = nextreg;
duke@1	2052	nextreg = first;
duke@1	2053	for (int i = nextreg; i < prevNextReg; i++) endScope(i);
duke@1	2054	}
duke@1	2055
duke@1	2056	/**************************************************************************
duke@1	2057	* static tables
duke@1	2058	*************************************************************************/
duke@1	2059
duke@1	2060	public static String mnem(int opcode) {
duke@1	2061	return Mneumonics.mnem[opcode];
duke@1	2062	}
duke@1	2063
duke@1	2064	private static class Mneumonics {
duke@1	2065	private final static String[] mnem = new String[ByteCodeCount];
duke@1	2066	static {
duke@1	2067	mnem[nop] = "nop";
duke@1	2068	mnem[aconst_null] = "aconst_null";
duke@1	2069	mnem[iconst_m1] = "iconst_m1";
duke@1	2070	mnem[iconst_0] = "iconst_0";
duke@1	2071	mnem[iconst_1] = "iconst_1";
duke@1	2072	mnem[iconst_2] = "iconst_2";
duke@1	2073	mnem[iconst_3] = "iconst_3";
duke@1	2074	mnem[iconst_4] = "iconst_4";
duke@1	2075	mnem[iconst_5] = "iconst_5";
duke@1	2076	mnem[lconst_0] = "lconst_0";
duke@1	2077	mnem[lconst_1] = "lconst_1";
duke@1	2078	mnem[fconst_0] = "fconst_0";
duke@1	2079	mnem[fconst_1] = "fconst_1";
duke@1	2080	mnem[fconst_2] = "fconst_2";
duke@1	2081	mnem[dconst_0] = "dconst_0";
duke@1	2082	mnem[dconst_1] = "dconst_1";
duke@1	2083	mnem[bipush] = "bipush";
duke@1	2084	mnem[sipush] = "sipush";
duke@1	2085	mnem[ldc1] = "ldc1";
duke@1	2086	mnem[ldc2] = "ldc2";
duke@1	2087	mnem[ldc2w] = "ldc2w";
duke@1	2088	mnem[iload] = "iload";
duke@1	2089	mnem[lload] = "lload";
duke@1	2090	mnem[fload] = "fload";
duke@1	2091	mnem[dload] = "dload";
duke@1	2092	mnem[aload] = "aload";
duke@1	2093	mnem[iload_0] = "iload_0";
duke@1	2094	mnem[lload_0] = "lload_0";
duke@1	2095	mnem[fload_0] = "fload_0";
duke@1	2096	mnem[dload_0] = "dload_0";
duke@1	2097	mnem[aload_0] = "aload_0";
duke@1	2098	mnem[iload_1] = "iload_1";
duke@1	2099	mnem[lload_1] = "lload_1";
duke@1	2100	mnem[fload_1] = "fload_1";
duke@1	2101	mnem[dload_1] = "dload_1";
duke@1	2102	mnem[aload_1] = "aload_1";
duke@1	2103	mnem[iload_2] = "iload_2";
duke@1	2104	mnem[lload_2] = "lload_2";
duke@1	2105	mnem[fload_2] = "fload_2";
duke@1	2106	mnem[dload_2] = "dload_2";
duke@1	2107	mnem[aload_2] = "aload_2";
duke@1	2108	mnem[iload_3] = "iload_3";
duke@1	2109	mnem[lload_3] = "lload_3";
duke@1	2110	mnem[fload_3] = "fload_3";
duke@1	2111	mnem[dload_3] = "dload_3";
duke@1	2112	mnem[aload_3] = "aload_3";
duke@1	2113	mnem[iaload] = "iaload";
duke@1	2114	mnem[laload] = "laload";
duke@1	2115	mnem[faload] = "faload";
duke@1	2116	mnem[daload] = "daload";
duke@1	2117	mnem[aaload] = "aaload";
duke@1	2118	mnem[baload] = "baload";
duke@1	2119	mnem[caload] = "caload";
duke@1	2120	mnem[saload] = "saload";
duke@1	2121	mnem[istore] = "istore";
duke@1	2122	mnem[lstore] = "lstore";
duke@1	2123	mnem[fstore] = "fstore";
duke@1	2124	mnem[dstore] = "dstore";
duke@1	2125	mnem[astore] = "astore";
duke@1	2126	mnem[istore_0] = "istore_0";
duke@1	2127	mnem[lstore_0] = "lstore_0";
duke@1	2128	mnem[fstore_0] = "fstore_0";
duke@1	2129	mnem[dstore_0] = "dstore_0";
duke@1	2130	mnem[astore_0] = "astore_0";
duke@1	2131	mnem[istore_1] = "istore_1";
duke@1	2132	mnem[lstore_1] = "lstore_1";
duke@1	2133	mnem[fstore_1] = "fstore_1";
duke@1	2134	mnem[dstore_1] = "dstore_1";
duke@1	2135	mnem[astore_1] = "astore_1";
duke@1	2136	mnem[istore_2] = "istore_2";
duke@1	2137	mnem[lstore_2] = "lstore_2";
duke@1	2138	mnem[fstore_2] = "fstore_2";
duke@1	2139	mnem[dstore_2] = "dstore_2";
duke@1	2140	mnem[astore_2] = "astore_2";
duke@1	2141	mnem[istore_3] = "istore_3";
duke@1	2142	mnem[lstore_3] = "lstore_3";
duke@1	2143	mnem[fstore_3] = "fstore_3";
duke@1	2144	mnem[dstore_3] = "dstore_3";
duke@1	2145	mnem[astore_3] = "astore_3";
duke@1	2146	mnem[iastore] = "iastore";
duke@1	2147	mnem[lastore] = "lastore";
duke@1	2148	mnem[fastore] = "fastore";
duke@1	2149	mnem[dastore] = "dastore";
duke@1	2150	mnem[aastore] = "aastore";
duke@1	2151	mnem[bastore] = "bastore";
duke@1	2152	mnem[castore] = "castore";
duke@1	2153	mnem[sastore] = "sastore";
duke@1	2154	mnem[pop] = "pop";
duke@1	2155	mnem[pop2] = "pop2";
duke@1	2156	mnem[dup] = "dup";
duke@1	2157	mnem[dup_x1] = "dup_x1";
duke@1	2158	mnem[dup_x2] = "dup_x2";
duke@1	2159	mnem[dup2] = "dup2";
duke@1	2160	mnem[dup2_x1] = "dup2_x1";
duke@1	2161	mnem[dup2_x2] = "dup2_x2";
duke@1	2162	mnem[swap] = "swap";
duke@1	2163	mnem[iadd] = "iadd";
duke@1	2164	mnem[ladd] = "ladd";
duke@1	2165	mnem[fadd] = "fadd";
duke@1	2166	mnem[dadd] = "dadd";
duke@1	2167	mnem[isub] = "isub";
duke@1	2168	mnem[lsub] = "lsub";
duke@1	2169	mnem[fsub] = "fsub";
duke@1	2170	mnem[dsub] = "dsub";
duke@1	2171	mnem[imul] = "imul";
duke@1	2172	mnem[lmul] = "lmul";
duke@1	2173	mnem[fmul] = "fmul";
duke@1	2174	mnem[dmul] = "dmul";
duke@1	2175	mnem[idiv] = "idiv";
duke@1	2176	mnem[ldiv] = "ldiv";
duke@1	2177	mnem[fdiv] = "fdiv";
duke@1	2178	mnem[ddiv] = "ddiv";
duke@1	2179	mnem[imod] = "imod";
duke@1	2180	mnem[lmod] = "lmod";
duke@1	2181	mnem[fmod] = "fmod";
duke@1	2182	mnem[dmod] = "dmod";
duke@1	2183	mnem[ineg] = "ineg";
duke@1	2184	mnem[lneg] = "lneg";
duke@1	2185	mnem[fneg] = "fneg";
duke@1	2186	mnem[dneg] = "dneg";
duke@1	2187	mnem[ishl] = "ishl";
duke@1	2188	mnem[lshl] = "lshl";
duke@1	2189	mnem[ishr] = "ishr";
duke@1	2190	mnem[lshr] = "lshr";
duke@1	2191	mnem[iushr] = "iushr";
duke@1	2192	mnem[lushr] = "lushr";
duke@1	2193	mnem[iand] = "iand";
duke@1	2194	mnem[land] = "land";
duke@1	2195	mnem[ior] = "ior";
duke@1	2196	mnem[lor] = "lor";
duke@1	2197	mnem[ixor] = "ixor";
duke@1	2198	mnem[lxor] = "lxor";
duke@1	2199	mnem[iinc] = "iinc";
duke@1	2200	mnem[i2l] = "i2l";
duke@1	2201	mnem[i2f] = "i2f";
duke@1	2202	mnem[i2d] = "i2d";
duke@1	2203	mnem[l2i] = "l2i";
duke@1	2204	mnem[l2f] = "l2f";
duke@1	2205	mnem[l2d] = "l2d";
duke@1	2206	mnem[f2i] = "f2i";
duke@1	2207	mnem[f2l] = "f2l";
duke@1	2208	mnem[f2d] = "f2d";
duke@1	2209	mnem[d2i] = "d2i";
duke@1	2210	mnem[d2l] = "d2l";
duke@1	2211	mnem[d2f] = "d2f";
duke@1	2212	mnem[int2byte] = "int2byte";
duke@1	2213	mnem[int2char] = "int2char";
duke@1	2214	mnem[int2short] = "int2short";
duke@1	2215	mnem[lcmp] = "lcmp";
duke@1	2216	mnem[fcmpl] = "fcmpl";
duke@1	2217	mnem[fcmpg] = "fcmpg";
duke@1	2218	mnem[dcmpl] = "dcmpl";
duke@1	2219	mnem[dcmpg] = "dcmpg";
duke@1	2220	mnem[ifeq] = "ifeq";
duke@1	2221	mnem[ifne] = "ifne";
duke@1	2222	mnem[iflt] = "iflt";
duke@1	2223	mnem[ifge] = "ifge";
duke@1	2224	mnem[ifgt] = "ifgt";
duke@1	2225	mnem[ifle] = "ifle";
duke@1	2226	mnem[if_icmpeq] = "if_icmpeq";
duke@1	2227	mnem[if_icmpne] = "if_icmpne";
duke@1	2228	mnem[if_icmplt] = "if_icmplt";
duke@1	2229	mnem[if_icmpge] = "if_icmpge";
duke@1	2230	mnem[if_icmpgt] = "if_icmpgt";
duke@1	2231	mnem[if_icmple] = "if_icmple";
duke@1	2232	mnem[if_acmpeq] = "if_acmpeq";
duke@1	2233	mnem[if_acmpne] = "if_acmpne";
duke@1	2234	mnem[goto_] = "goto_";
duke@1	2235	mnem[jsr] = "jsr";
duke@1	2236	mnem[ret] = "ret";
duke@1	2237	mnem[tableswitch] = "tableswitch";
duke@1	2238	mnem[lookupswitch] = "lookupswitch";
duke@1	2239	mnem[ireturn] = "ireturn";
duke@1	2240	mnem[lreturn] = "lreturn";
duke@1	2241	mnem[freturn] = "freturn";
duke@1	2242	mnem[dreturn] = "dreturn";
duke@1	2243	mnem[areturn] = "areturn";
duke@1	2244	mnem[return_] = "return_";
duke@1	2245	mnem[getstatic] = "getstatic";
duke@1	2246	mnem[putstatic] = "putstatic";
duke@1	2247	mnem[getfield] = "getfield";
duke@1	2248	mnem[putfield] = "putfield";
duke@1	2249	mnem[invokevirtual] = "invokevirtual";
duke@1	2250	mnem[invokespecial] = "invokespecial";
duke@1	2251	mnem[invokestatic] = "invokestatic";
duke@1	2252	mnem[invokeinterface] = "invokeinterface";
jrose@267	2253	mnem[invokedynamic] = "invokedynamic";
duke@1	2254	mnem[new_] = "new_";
duke@1	2255	mnem[newarray] = "newarray";
duke@1	2256	mnem[anewarray] = "anewarray";
duke@1	2257	mnem[arraylength] = "arraylength";
duke@1	2258	mnem[athrow] = "athrow";
duke@1	2259	mnem[checkcast] = "checkcast";
duke@1	2260	mnem[instanceof_] = "instanceof_";
duke@1	2261	mnem[monitorenter] = "monitorenter";
duke@1	2262	mnem[monitorexit] = "monitorexit";
duke@1	2263	mnem[wide] = "wide";
duke@1	2264	mnem[multianewarray] = "multianewarray";
duke@1	2265	mnem[if_acmp_null] = "if_acmp_null";
duke@1	2266	mnem[if_acmp_nonnull] = "if_acmp_nonnull";
duke@1	2267	mnem[goto_w] = "goto_w";
duke@1	2268	mnem[jsr_w] = "jsr_w";
duke@1	2269	mnem[breakpoint] = "breakpoint";
duke@1	2270	}
duke@1	2271	}
duke@1	2272	}