1	/*
2	* Copyright (C) 2008, 2009 Apple Inc. All rights reserved.
3	* Copyright (C) 2008 Cameron Zwarich <cwzwarich@uwaterloo.ca>
4	*
5	* Redistribution and use in source and binary forms, with or without
6	* modification, are permitted provided that the following conditions
7	* are met:
8	*
9	* 1. Redistributions of source code must retain the above copyright
10	* notice, this list of conditions and the following disclaimer.
11	* 2. Redistributions in binary form must reproduce the above copyright
12	* notice, this list of conditions and the following disclaimer in the
13	* documentation and/or other materials provided with the distribution.
14	* 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of
15	* its contributors may be used to endorse or promote products derived
16	* from this software without specific prior written permission.
17	*
18	* THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY
19	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
20	* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
21	* DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY
22	* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
23	* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
24	* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
25	* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
27	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28	*/
29
30	#include "config.h"
31	#include "CodeBlock.h"
32
33	#include "JIT.h"
34	#include "JSValue.h"
35	#include "Interpreter.h"
36	#include "JSFunction.h"
37	#include "JSStaticScopeObject.h"
38	#include "Debugger.h"
39	#include "BytecodeGenerator.h"
40	#include <stdio.h>
41	#include <wtf/StringExtras.h>
42
43	#define DUMP_CODE_BLOCK_STATISTICS 0
44
45	namespace JSC {
46
47	#if !defined(NDEBUG) || ENABLE(OPCODE_SAMPLING)
48
49	static UString escapeQuotes(const UString& str)
50	{
51	UString result = str;
52	int pos = 0;
53	while ((pos = result.find('\"', pos)) >= 0) {
54	result = makeString(result.substr(0, pos), "\"\\\"\"", result.substr(pos + 1));
55	pos += 4;
56	}
57	return result;
58	}
59
60	static UString valueToSourceString(ExecState* exec, JSValue val)
61	{
62	if (!val)
63	return "0";
64
65	if (val.isString())
66	return makeString("\"", escapeQuotes(val.toString(exec)), "\"");
67
68	return val.toString(exec);
69	}
70
71	static CString constantName(ExecState* exec, int k, JSValue value)
72	{
73	return makeString(valueToSourceString(exec, value), "(@k", UString::from(k - FirstConstantRegisterIndex), ")").UTF8String();
74	}
75
76	static CString idName(int id0, const Identifier& ident)
77	{
78	return makeString(ident.ustring(), "(@id", UString::from(id0), ")").UTF8String();
79	}
80
81	CString CodeBlock::registerName(ExecState* exec, int r) const
82	{
83	if (r == missingThisObjectMarker())
84	return "<null>";
85
86	if (isConstantRegisterIndex(r))
87	return constantName(exec, r, getConstant(r));
88
89	return makeString("r", UString::from(r)).UTF8String();
90	}
91
92	static UString regexpToSourceString(RegExp* regExp)
93	{
94	char postfix[5] = { '/', 0, 0, 0, 0 };
95	int index = 1;
96	if (regExp->global())
97	postfix[index++] = 'g';
98	if (regExp->ignoreCase())
99	postfix[index++] = 'i';
100	if (regExp->multiline())
101	postfix[index] = 'm';
102
103	return makeString("/", regExp->pattern(), postfix);
104	}
105
106	static CString regexpName(int re, RegExp* regexp)
107	{
108	return makeString(regexpToSourceString(regexp), "(@re", UString::from(re), ")").UTF8String();
109	}
110
111	static UString pointerToSourceString(void* p)
112	{
113	char buffer[2 + 2 * sizeof(void*) + 1]; // 0x [two characters per byte] \0
114	snprintf(buffer, sizeof(buffer), "%p", p);
115	return buffer;
116	}
117
118	NEVER_INLINE static const char* debugHookName(int debugHookID)
119	{
120	switch (static_cast<DebugHookID>(debugHookID)) {
121	case DidEnterCallFrame:
122	return "didEnterCallFrame";
123	case WillLeaveCallFrame:
124	return "willLeaveCallFrame";
125	case WillExecuteStatement:
126	return "willExecuteStatement";
127	case WillExecuteProgram:
128	return "willExecuteProgram";
129	case DidExecuteProgram:
130	return "didExecuteProgram";
131	case DidReachBreakpoint:
132	return "didReachBreakpoint";
133	}
134
135	ASSERT_NOT_REACHED();
136	return "";
137	}
138
139	void CodeBlock::printUnaryOp(ExecState* exec, int location, Vector<Instruction>::const_iterator& it, const char* op) const
140	{
141	int r0 = (++it)->u.operand;
142	int r1 = (++it)->u.operand;
143
144	printf("[%4d] %s\t\t %s, %s\n", location, op, registerName(exec, r0).c_str(), registerName(exec, r1).c_str());
145	}
146
147	void CodeBlock::printBinaryOp(ExecState* exec, int location, Vector<Instruction>::const_iterator& it, const char* op) const
148	{
149	int r0 = (++it)->u.operand;
150	int r1 = (++it)->u.operand;
151	int r2 = (++it)->u.operand;
152	printf("[%4d] %s\t\t %s, %s, %s\n", location, op, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), registerName(exec, r2).c_str());
153	}
154
155	void CodeBlock::printConditionalJump(ExecState* exec, const Vector<Instruction>::const_iterator&, Vector<Instruction>::const_iterator& it, int location, const char* op) const
156	{
157	int r0 = (++it)->u.operand;
158	int offset = (++it)->u.operand;
159	printf("[%4d] %s\t\t %s, %d(->%d)\n", location, op, registerName(exec, r0).c_str(), offset, location + offset);
160	}
161
162	void CodeBlock::printGetByIdOp(ExecState* exec, int location, Vector<Instruction>::const_iterator& it, const char* op) const
163	{
164	int r0 = (++it)->u.operand;
165	int r1 = (++it)->u.operand;
166	int id0 = (++it)->u.operand;
167	printf("[%4d] %s\t %s, %s, %s\n", location, op, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), idName(id0, m_identifiers[id0]).c_str());
168	it += 4;
169	}
170
171	void CodeBlock::printPutByIdOp(ExecState* exec, int location, Vector<Instruction>::const_iterator& it, const char* op) const
172	{
173	int r0 = (++it)->u.operand;
174	int id0 = (++it)->u.operand;
175	int r1 = (++it)->u.operand;
176	printf("[%4d] %s\t %s, %s, %s\n", location, op, registerName(exec, r0).c_str(), idName(id0, m_identifiers[id0]).c_str(), registerName(exec, r1).c_str());
177	it += 4;
178	}
179
180	#if ENABLE(JIT)
181	static bool isGlobalResolve(OpcodeID opcodeID)
182	{
183	return opcodeID == op_resolve_global;
184	}
185
186	static bool isPropertyAccess(OpcodeID opcodeID)
187	{
188	switch (opcodeID) {
189	case op_get_by_id_self:
190	case op_get_by_id_proto:
191	case op_get_by_id_chain:
192	case op_get_by_id_self_list:
193	case op_get_by_id_proto_list:
194	case op_put_by_id_transition:
195	case op_put_by_id_replace:
196	case op_get_by_id:
197	case op_put_by_id:
198	case op_get_by_id_generic:
199	case op_put_by_id_generic:
200	case op_get_array_length:
201	case op_get_string_length:
202	return true;
203	default:
204	return false;
205	}
206	}
207
208	static unsigned instructionOffsetForNth(ExecState* exec, const Vector<Instruction>& instructions, int nth, bool (*predicate)(OpcodeID))
209	{
210	size_t i = 0;
211	while (i < instructions.size()) {
212	OpcodeID currentOpcode = exec->interpreter()->getOpcodeID(instructions[i].u.opcode);
213	if (predicate(currentOpcode)) {
214	if (!--nth)
215	return i;
216	}
217	i += opcodeLengths[currentOpcode];
218	}
219
220	ASSERT_NOT_REACHED();
221	return 0;
222	}
223
224	static void printGlobalResolveInfo(const GlobalResolveInfo& resolveInfo, unsigned instructionOffset)
225	{
226	printf(" [%4d] %s: %s\n", instructionOffset, "resolve_global", pointerToSourceString(resolveInfo.structure).UTF8String().c_str());
227	}
228
229	static void printStructureStubInfo(const StructureStubInfo& stubInfo, unsigned instructionOffset)
230	{
231	switch (stubInfo.accessType) {
232	case access_get_by_id_self:
233	printf(" [%4d] %s: %s\n", instructionOffset, "get_by_id_self", pointerToSourceString(stubInfo.u.getByIdSelf.baseObjectStructure).UTF8String().c_str());
234	return;
235	case access_get_by_id_proto:
236	printf(" [%4d] %s: %s, %s\n", instructionOffset, "get_by_id_proto", pointerToSourceString(stubInfo.u.getByIdProto.baseObjectStructure).UTF8String().c_str(), pointerToSourceString(stubInfo.u.getByIdProto.prototypeStructure).UTF8String().c_str());
237	return;
238	case access_get_by_id_chain:
239	printf(" [%4d] %s: %s, %s\n", instructionOffset, "get_by_id_chain", pointerToSourceString(stubInfo.u.getByIdChain.baseObjectStructure).UTF8String().c_str(), pointerToSourceString(stubInfo.u.getByIdChain.chain).UTF8String().c_str());
240	return;
241	case access_get_by_id_self_list:
242	printf(" [%4d] %s: %s (%d)\n", instructionOffset, "op_get_by_id_self_list", pointerToSourceString(stubInfo.u.getByIdSelfList.structureList).UTF8String().c_str(), stubInfo.u.getByIdSelfList.listSize);
243	return;
244	case access_get_by_id_proto_list:
245	printf(" [%4d] %s: %s (%d)\n", instructionOffset, "op_get_by_id_proto_list", pointerToSourceString(stubInfo.u.getByIdProtoList.structureList).UTF8String().c_str(), stubInfo.u.getByIdProtoList.listSize);
246	return;
247	case access_put_by_id_transition:
248	printf(" [%4d] %s: %s, %s, %s\n", instructionOffset, "put_by_id_transition", pointerToSourceString(stubInfo.u.putByIdTransition.previousStructure).UTF8String().c_str(), pointerToSourceString(stubInfo.u.putByIdTransition.structure).UTF8String().c_str(), pointerToSourceString(stubInfo.u.putByIdTransition.chain).UTF8String().c_str());
249	return;
250	case access_put_by_id_replace:
251	printf(" [%4d] %s: %s\n", instructionOffset, "put_by_id_replace", pointerToSourceString(stubInfo.u.putByIdReplace.baseObjectStructure).UTF8String().c_str());
252	return;
253	case access_get_by_id:
254	printf(" [%4d] %s\n", instructionOffset, "get_by_id");
255	return;
256	case access_put_by_id:
257	printf(" [%4d] %s\n", instructionOffset, "put_by_id");
258	return;
259	case access_get_by_id_generic:
260	printf(" [%4d] %s\n", instructionOffset, "op_get_by_id_generic");
261	return;
262	case access_put_by_id_generic:
263	printf(" [%4d] %s\n", instructionOffset, "op_put_by_id_generic");
264	return;
265	case access_get_array_length:
266	printf(" [%4d] %s\n", instructionOffset, "op_get_array_length");
267	return;
268	case access_get_string_length:
269	printf(" [%4d] %s\n", instructionOffset, "op_get_string_length");
270	return;
271	default:
272	ASSERT_NOT_REACHED();
273	}
274	}
275	#endif
276
277	void CodeBlock::printStructure(const char* name, const Instruction* vPC, int operand) const
278	{
279	unsigned instructionOffset = vPC - m_instructions.begin();
280	printf(" [%4d] %s: %s\n", instructionOffset, name, pointerToSourceString(vPC[operand].u.structure).UTF8String().c_str());
281	}
282
283	void CodeBlock::printStructures(const Instruction* vPC) const
284	{
285	Interpreter* interpreter = m_globalData->interpreter;
286	unsigned instructionOffset = vPC - m_instructions.begin();
287
288	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id)) {
289	printStructure("get_by_id", vPC, 4);
290	return;
291	}
292	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_self)) {
293	printStructure("get_by_id_self", vPC, 4);
294	return;
295	}
296	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_proto)) {
297	printf(" [%4d] %s: %s, %s\n", instructionOffset, "get_by_id_proto", pointerToSourceString(vPC[4].u.structure).UTF8String().c_str(), pointerToSourceString(vPC[5].u.structure).UTF8String().c_str());
298	return;
299	}
300	if (vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_transition)) {
301	printf(" [%4d] %s: %s, %s, %s\n", instructionOffset, "put_by_id_transition", pointerToSourceString(vPC[4].u.structure).UTF8String().c_str(), pointerToSourceString(vPC[5].u.structure).UTF8String().c_str(), pointerToSourceString(vPC[6].u.structureChain).UTF8String().c_str());
302	return;
303	}
304	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_chain)) {
305	printf(" [%4d] %s: %s, %s\n", instructionOffset, "get_by_id_chain", pointerToSourceString(vPC[4].u.structure).UTF8String().c_str(), pointerToSourceString(vPC[5].u.structureChain).UTF8String().c_str());
306	return;
307	}
308	if (vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id)) {
309	printStructure("put_by_id", vPC, 4);
310	return;
311	}
312	if (vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_replace)) {
313	printStructure("put_by_id_replace", vPC, 4);
314	return;
315	}
316	if (vPC[0].u.opcode == interpreter->getOpcode(op_resolve_global)) {
317	printStructure("resolve_global", vPC, 4);
318	return;
319	}
320
321	// These m_instructions doesn't ref Structures.
322	ASSERT(vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_generic) || vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_generic) || vPC[0].u.opcode == interpreter->getOpcode(op_call) || vPC[0].u.opcode == interpreter->getOpcode(op_call_eval) || vPC[0].u.opcode == interpreter->getOpcode(op_construct));
323	}
324
325	void CodeBlock::dump(ExecState* exec) const
326	{
327	if (m_instructions.isEmpty()) {
328	printf("No instructions available.\n");
329	return;
330	}
331
332	size_t instructionCount = 0;
333
334	for (size_t i = 0; i < m_instructions.size(); i += opcodeLengths[exec->interpreter()->getOpcodeID(m_instructions[i].u.opcode)])
335	++instructionCount;
336
337	printf("%lu m_instructions; %lu bytes at %p; %d parameter(s); %d callee register(s)\n\n",
338	static_cast<unsigned long>(instructionCount),
339	static_cast<unsigned long>(m_instructions.size() * sizeof(Instruction)),
340	this, m_numParameters, m_numCalleeRegisters);
341
342	Vector<Instruction>::const_iterator begin = m_instructions.begin();
343	Vector<Instruction>::const_iterator end = m_instructions.end();
344	for (Vector<Instruction>::const_iterator it = begin; it != end; ++it)
345	dump(exec, begin, it);
346
347	if (!m_identifiers.isEmpty()) {
348	printf("\nIdentifiers:\n");
349	size_t i = 0;
350	do {
351	printf(" id%u = %s\n", static_cast<unsigned>(i), m_identifiers[i].ascii());
352	++i;
353	} while (i != m_identifiers.size());
354	}
355
356	if (!m_constantRegisters.isEmpty()) {
357	printf("\nConstants:\n");
358	unsigned registerIndex = m_numVars;
359	size_t i = 0;
360	do {
361	printf(" k%u = %s\n", registerIndex, valueToSourceString(exec, m_constantRegisters[i].jsValue()).ascii());
362	++i;
363	++registerIndex;
364	} while (i < m_constantRegisters.size());
365	}
366
367	if (m_rareData && !m_rareData->m_regexps.isEmpty()) {
368	printf("\nm_regexps:\n");
369	size_t i = 0;
370	do {
371	printf(" re%u = %s\n", static_cast<unsigned>(i), regexpToSourceString(m_rareData->m_regexps[i].get()).ascii());
372	++i;
373	} while (i < m_rareData->m_regexps.size());
374	}
375
376	#if ENABLE(JIT)
377	if (!m_globalResolveInfos.isEmpty() || !m_structureStubInfos.isEmpty())
378	printf("\nStructures:\n");
379
380	if (!m_globalResolveInfos.isEmpty()) {
381	size_t i = 0;
382	do {
383	printGlobalResolveInfo(m_globalResolveInfos[i], instructionOffsetForNth(exec, m_instructions, i + 1, isGlobalResolve));
384	++i;
385	} while (i < m_globalResolveInfos.size());
386	}
387	if (!m_structureStubInfos.isEmpty()) {
388	size_t i = 0;
389	do {
390	printStructureStubInfo(m_structureStubInfos[i], instructionOffsetForNth(exec, m_instructions, i + 1, isPropertyAccess));
391	++i;
392	} while (i < m_structureStubInfos.size());
393	}
394	#else
395	if (!m_globalResolveInstructions.isEmpty() || !m_propertyAccessInstructions.isEmpty())
396	printf("\nStructures:\n");
397
398	if (!m_globalResolveInstructions.isEmpty()) {
399	size_t i = 0;
400	do {
401	printStructures(&m_instructions[m_globalResolveInstructions[i]]);
402	++i;
403	} while (i < m_globalResolveInstructions.size());
404	}
405	if (!m_propertyAccessInstructions.isEmpty()) {
406	size_t i = 0;
407	do {
408	printStructures(&m_instructions[m_propertyAccessInstructions[i]]);
409	++i;
410	} while (i < m_propertyAccessInstructions.size());
411	}
412	#endif
413
414	if (m_rareData && !m_rareData->m_exceptionHandlers.isEmpty()) {
415	printf("\nException Handlers:\n");
416	unsigned i = 0;
417	do {
418	printf("\t %d: { start: [%4d] end: [%4d] target: [%4d] }\n", i + 1, m_rareData->m_exceptionHandlers[i].start, m_rareData->m_exceptionHandlers[i].end, m_rareData->m_exceptionHandlers[i].target);
419	++i;
420	} while (i < m_rareData->m_exceptionHandlers.size());
421	}
422
423	if (m_rareData && !m_rareData->m_immediateSwitchJumpTables.isEmpty()) {
424	printf("Immediate Switch Jump Tables:\n");
425	unsigned i = 0;
426	do {
427	printf(" %1d = {\n", i);
428	int entry = 0;
429	Vector<int32_t>::const_iterator end = m_rareData->m_immediateSwitchJumpTables[i].branchOffsets.end();
430	for (Vector<int32_t>::const_iterator iter = m_rareData->m_immediateSwitchJumpTables[i].branchOffsets.begin(); iter != end; ++iter, ++entry) {
431	if (!*iter)
432	continue;
433	printf("\t\t%4d => %04d\n", entry + m_rareData->m_immediateSwitchJumpTables[i].min, *iter);
434	}
435	printf(" }\n");
436	++i;
437	} while (i < m_rareData->m_immediateSwitchJumpTables.size());
438	}
439
440	if (m_rareData && !m_rareData->m_characterSwitchJumpTables.isEmpty()) {
441	printf("\nCharacter Switch Jump Tables:\n");
442	unsigned i = 0;
443	do {
444	printf(" %1d = {\n", i);
445	int entry = 0;
446	Vector<int32_t>::const_iterator end = m_rareData->m_characterSwitchJumpTables[i].branchOffsets.end();
447	for (Vector<int32_t>::const_iterator iter = m_rareData->m_characterSwitchJumpTables[i].branchOffsets.begin(); iter != end; ++iter, ++entry) {
448	if (!*iter)
449	continue;
450	ASSERT(!((i + m_rareData->m_characterSwitchJumpTables[i].min) & ~0xFFFF));
451	UChar ch = static_cast<UChar>(entry + m_rareData->m_characterSwitchJumpTables[i].min);
452	printf("\t\t\"%s\" => %04d\n", UString(&ch, 1).ascii(), *iter);
453	}
454	printf(" }\n");
455	++i;
456	} while (i < m_rareData->m_characterSwitchJumpTables.size());
457	}
458
459	if (m_rareData && !m_rareData->m_stringSwitchJumpTables.isEmpty()) {
460	printf("\nString Switch Jump Tables:\n");
461	unsigned i = 0;
462	do {
463	printf(" %1d = {\n", i);
464	StringJumpTable::StringOffsetTable::const_iterator end = m_rareData->m_stringSwitchJumpTables[i].offsetTable.end();
465	for (StringJumpTable::StringOffsetTable::const_iterator iter = m_rareData->m_stringSwitchJumpTables[i].offsetTable.begin(); iter != end; ++iter)
466	printf("\t\t\"%s\" => %04d\n", UString(iter->first).ascii(), iter->second.branchOffset);
467	printf(" }\n");
468	++i;
469	} while (i < m_rareData->m_stringSwitchJumpTables.size());
470	}
471
472	printf("\n");
473	}
474
475	void CodeBlock::dump(ExecState* exec, const Vector<Instruction>::const_iterator& begin, Vector<Instruction>::const_iterator& it) const
476	{
477	int location = it - begin;
478	switch (exec->interpreter()->getOpcodeID(it->u.opcode)) {
479	case op_enter: {
480	printf("[%4d] enter\n", location);
481	break;
482	}
483	case op_enter_with_activation: {
484	int r0 = (++it)->u.operand;
485	printf("[%4d] enter_with_activation %s\n", location, registerName(exec, r0).c_str());
486	break;
487	}
488	case op_create_arguments: {
489	printf("[%4d] create_arguments\n", location);
490	break;
491	}
492	case op_init_arguments: {
493	printf("[%4d] init_arguments\n", location);
494	break;
495	}
496	case op_convert_this: {
497	int r0 = (++it)->u.operand;
498	printf("[%4d] convert_this %s\n", location, registerName(exec, r0).c_str());
499	break;
500	}
501	case op_new_object: {
502	int r0 = (++it)->u.operand;
503	printf("[%4d] new_object\t %s\n", location, registerName(exec, r0).c_str());
504	break;
505	}
506	case op_new_array: {
507	int dst = (++it)->u.operand;
508	int argv = (++it)->u.operand;
509	int argc = (++it)->u.operand;
510	printf("[%4d] new_array\t %s, %s, %d\n", location, registerName(exec, dst).c_str(), registerName(exec, argv).c_str(), argc);
511	break;
512	}
513	case op_new_regexp: {
514	int r0 = (++it)->u.operand;
515	int re0 = (++it)->u.operand;
516	printf("[%4d] new_regexp\t %s, %s\n", location, registerName(exec, r0).c_str(), regexpName(re0, regexp(re0)).c_str());
517	break;
518	}
519	case op_mov: {
520	int r0 = (++it)->u.operand;
521	int r1 = (++it)->u.operand;
522	printf("[%4d] mov\t\t %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str());
523	break;
524	}
525	case op_not: {
526	printUnaryOp(exec, location, it, "not");
527	break;
528	}
529	case op_eq: {
530	printBinaryOp(exec, location, it, "eq");
531	break;
532	}
533	case op_eq_null: {
534	printUnaryOp(exec, location, it, "eq_null");
535	break;
536	}
537	case op_neq: {
538	printBinaryOp(exec, location, it, "neq");
539	break;
540	}
541	case op_neq_null: {
542	printUnaryOp(exec, location, it, "neq_null");
543	break;
544	}
545	case op_stricteq: {
546	printBinaryOp(exec, location, it, "stricteq");
547	break;
548	}
549	case op_nstricteq: {
550	printBinaryOp(exec, location, it, "nstricteq");
551	break;
552	}
553	case op_less: {
554	printBinaryOp(exec, location, it, "less");
555	break;
556	}
557	case op_lesseq: {
558	printBinaryOp(exec, location, it, "lesseq");
559	break;
560	}
561	case op_pre_inc: {
562	int r0 = (++it)->u.operand;
563	printf("[%4d] pre_inc\t\t %s\n", location, registerName(exec, r0).c_str());
564	break;
565	}
566	case op_pre_dec: {
567	int r0 = (++it)->u.operand;
568	printf("[%4d] pre_dec\t\t %s\n", location, registerName(exec, r0).c_str());
569	break;
570	}
571	case op_post_inc: {
572	printUnaryOp(exec, location, it, "post_inc");
573	break;
574	}
575	case op_post_dec: {
576	printUnaryOp(exec, location, it, "post_dec");
577	break;
578	}
579	case op_to_jsnumber: {
580	printUnaryOp(exec, location, it, "to_jsnumber");
581	break;
582	}
583	case op_negate: {
584	printUnaryOp(exec, location, it, "negate");
585	break;
586	}
587	case op_add: {
588	printBinaryOp(exec, location, it, "add");
589	++it;
590	break;
591	}
592	case op_mul: {
593	printBinaryOp(exec, location, it, "mul");
594	++it;
595	break;
596	}
597	case op_div: {
598	printBinaryOp(exec, location, it, "div");
599	++it;
600	break;
601	}
602	case op_mod: {
603	printBinaryOp(exec, location, it, "mod");
604	break;
605	}
606	case op_sub: {
607	printBinaryOp(exec, location, it, "sub");
608	++it;
609	break;
610	}
611	case op_lshift: {
612	printBinaryOp(exec, location, it, "lshift");
613	break;
614	}
615	case op_rshift: {
616	printBinaryOp(exec, location, it, "rshift");
617	break;
618	}
619	case op_urshift: {
620	printBinaryOp(exec, location, it, "urshift");
621	break;
622	}
623	case op_bitand: {
624	printBinaryOp(exec, location, it, "bitand");
625	++it;
626	break;
627	}
628	case op_bitxor: {
629	printBinaryOp(exec, location, it, "bitxor");
630	++it;
631	break;
632	}
633	case op_bitor: {
634	printBinaryOp(exec, location, it, "bitor");
635	++it;
636	break;
637	}
638	case op_bitnot: {
639	printUnaryOp(exec, location, it, "bitnot");
640	break;
641	}
642	case op_instanceof: {
643	int r0 = (++it)->u.operand;
644	int r1 = (++it)->u.operand;
645	int r2 = (++it)->u.operand;
646	int r3 = (++it)->u.operand;
647	printf("[%4d] instanceof\t\t %s, %s, %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), registerName(exec, r2).c_str(), registerName(exec, r3).c_str());
648	break;
649	}
650	case op_typeof: {
651	printUnaryOp(exec, location, it, "typeof");
652	break;
653	}
654	case op_is_undefined: {
655	printUnaryOp(exec, location, it, "is_undefined");
656	break;
657	}
658	case op_is_boolean: {
659	printUnaryOp(exec, location, it, "is_boolean");
660	break;
661	}
662	case op_is_number: {
663	printUnaryOp(exec, location, it, "is_number");
664	break;
665	}
666	case op_is_string: {
667	printUnaryOp(exec, location, it, "is_string");
668	break;
669	}
670	case op_is_object: {
671	printUnaryOp(exec, location, it, "is_object");
672	break;
673	}
674	case op_is_function: {
675	printUnaryOp(exec, location, it, "is_function");
676	break;
677	}
678	case op_in: {
679	printBinaryOp(exec, location, it, "in");
680	break;
681	}
682	case op_resolve: {
683	int r0 = (++it)->u.operand;
684	int id0 = (++it)->u.operand;
685	printf("[%4d] resolve\t\t %s, %s\n", location, registerName(exec, r0).c_str(), idName(id0, m_identifiers[id0]).c_str());
686	break;
687	}
688	case op_resolve_skip: {
689	int r0 = (++it)->u.operand;
690	int id0 = (++it)->u.operand;
691	int skipLevels = (++it)->u.operand;
692	printf("[%4d] resolve_skip\t %s, %s, %d\n", location, registerName(exec, r0).c_str(), idName(id0, m_identifiers[id0]).c_str(), skipLevels);
693	break;
694	}
695	case op_resolve_global: {
696	int r0 = (++it)->u.operand;
697	JSValue scope = JSValue((++it)->u.jsCell);
698	int id0 = (++it)->u.operand;
699	printf("[%4d] resolve_global\t %s, %s, %s\n", location, registerName(exec, r0).c_str(), valueToSourceString(exec, scope).ascii(), idName(id0, m_identifiers[id0]).c_str());
700	it += 2;
701	break;
702	}
703	case op_get_scoped_var: {
704	int r0 = (++it)->u.operand;
705	int index = (++it)->u.operand;
706	int skipLevels = (++it)->u.operand;
707	printf("[%4d] get_scoped_var\t %s, %d, %d\n", location, registerName(exec, r0).c_str(), index, skipLevels);
708	break;
709	}
710	case op_put_scoped_var: {
711	int index = (++it)->u.operand;
712	int skipLevels = (++it)->u.operand;
713	int r0 = (++it)->u.operand;
714	printf("[%4d] put_scoped_var\t %d, %d, %s\n", location, index, skipLevels, registerName(exec, r0).c_str());
715	break;
716	}
717	case op_get_global_var: {
718	int r0 = (++it)->u.operand;
719	JSValue scope = JSValue((++it)->u.jsCell);
720	int index = (++it)->u.operand;
721	printf("[%4d] get_global_var\t %s, %s, %d\n", location, registerName(exec, r0).c_str(), valueToSourceString(exec, scope).ascii(), index);
722	break;
723	}
724	case op_put_global_var: {
725	JSValue scope = JSValue((++it)->u.jsCell);
726	int index = (++it)->u.operand;
727	int r0 = (++it)->u.operand;
728	printf("[%4d] put_global_var\t %s, %d, %s\n", location, valueToSourceString(exec, scope).ascii(), index, registerName(exec, r0).c_str());
729	break;
730	}
731	case op_resolve_base: {
732	int r0 = (++it)->u.operand;
733	int id0 = (++it)->u.operand;
734	printf("[%4d] resolve_base\t %s, %s\n", location, registerName(exec, r0).c_str(), idName(id0, m_identifiers[id0]).c_str());
735	break;
736	}
737	case op_resolve_with_base: {
738	int r0 = (++it)->u.operand;
739	int r1 = (++it)->u.operand;
740	int id0 = (++it)->u.operand;
741	printf("[%4d] resolve_with_base %s, %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), idName(id0, m_identifiers[id0]).c_str());
742	break;
743	}
744	case op_get_by_id: {
745	printGetByIdOp(exec, location, it, "get_by_id");
746	break;
747	}
748	case op_get_by_id_self: {
749	printGetByIdOp(exec, location, it, "get_by_id_self");
750	break;
751	}
752	case op_get_by_id_self_list: {
753	printGetByIdOp(exec, location, it, "get_by_id_self_list");
754	break;
755	}
756	case op_get_by_id_proto: {
757	printGetByIdOp(exec, location, it, "get_by_id_proto");
758	break;
759	}
760	case op_get_by_id_proto_list: {
761	printGetByIdOp(exec, location, it, "op_get_by_id_proto_list");
762	break;
763	}
764	case op_get_by_id_chain: {
765	printGetByIdOp(exec, location, it, "get_by_id_chain");
766	break;
767	}
768	case op_get_by_id_generic: {
769	printGetByIdOp(exec, location, it, "get_by_id_generic");
770	break;
771	}
772	case op_get_array_length: {
773	printGetByIdOp(exec, location, it, "get_array_length");
774	break;
775	}
776	case op_get_string_length: {
777	printGetByIdOp(exec, location, it, "get_string_length");
778	break;
779	}
780	case op_put_by_id: {
781	printPutByIdOp(exec, location, it, "put_by_id");
782	break;
783	}
784	case op_put_by_id_replace: {
785	printPutByIdOp(exec, location, it, "put_by_id_replace");
786	break;
787	}
788	case op_put_by_id_transition: {
789	printPutByIdOp(exec, location, it, "put_by_id_transition");
790	break;
791	}
792	case op_put_by_id_generic: {
793	printPutByIdOp(exec, location, it, "put_by_id_generic");
794	break;
795	}
796	case op_put_getter: {
797	int r0 = (++it)->u.operand;
798	int id0 = (++it)->u.operand;
799	int r1 = (++it)->u.operand;
800	printf("[%4d] put_getter\t %s, %s, %s\n", location, registerName(exec, r0).c_str(), idName(id0, m_identifiers[id0]).c_str(), registerName(exec, r1).c_str());
801	break;
802	}
803	case op_put_setter: {
804	int r0 = (++it)->u.operand;
805	int id0 = (++it)->u.operand;
806	int r1 = (++it)->u.operand;
807	printf("[%4d] put_setter\t %s, %s, %s\n", location, registerName(exec, r0).c_str(), idName(id0, m_identifiers[id0]).c_str(), registerName(exec, r1).c_str());
808	break;
809	}
810	case op_method_check: {
811	printf("[%4d] method_check\n", location);
812	break;
813	}
814	case op_del_by_id: {
815	int r0 = (++it)->u.operand;
816	int r1 = (++it)->u.operand;
817	int id0 = (++it)->u.operand;
818	printf("[%4d] del_by_id\t %s, %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), idName(id0, m_identifiers[id0]).c_str());
819	break;
820	}
821	case op_get_by_val: {
822	int r0 = (++it)->u.operand;
823	int r1 = (++it)->u.operand;
824	int r2 = (++it)->u.operand;
825	printf("[%4d] get_by_val\t %s, %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), registerName(exec, r2).c_str());
826	break;
827	}
828	case op_get_by_pname: {
829	int r0 = (++it)->u.operand;
830	int r1 = (++it)->u.operand;
831	int r2 = (++it)->u.operand;
832	int r3 = (++it)->u.operand;
833	int r4 = (++it)->u.operand;
834	int r5 = (++it)->u.operand;
835	printf("[%4d] get_by_pname\t %s, %s, %s, %s, %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), registerName(exec, r2).c_str(), registerName(exec, r3).c_str(), registerName(exec, r4).c_str(), registerName(exec, r5).c_str());
836	break;
837	}
838	case op_put_by_val: {
839	int r0 = (++it)->u.operand;
840	int r1 = (++it)->u.operand;
841	int r2 = (++it)->u.operand;
842	printf("[%4d] put_by_val\t %s, %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), registerName(exec, r2).c_str());
843	break;
844	}
845	case op_del_by_val: {
846	int r0 = (++it)->u.operand;
847	int r1 = (++it)->u.operand;
848	int r2 = (++it)->u.operand;
849	printf("[%4d] del_by_val\t %s, %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), registerName(exec, r2).c_str());
850	break;
851	}
852	case op_put_by_index: {
853	int r0 = (++it)->u.operand;
854	unsigned n0 = (++it)->u.operand;
855	int r1 = (++it)->u.operand;
856	printf("[%4d] put_by_index\t %s, %u, %s\n", location, registerName(exec, r0).c_str(), n0, registerName(exec, r1).c_str());
857	break;
858	}
859	case op_jmp: {
860	int offset = (++it)->u.operand;
861	printf("[%4d] jmp\t\t %d(->%d)\n", location, offset, location + offset);
862	break;
863	}
864	case op_loop: {
865	int offset = (++it)->u.operand;
866	printf("[%4d] loop\t\t %d(->%d)\n", location, offset, location + offset);
867	break;
868	}
869	case op_jtrue: {
870	printConditionalJump(exec, begin, it, location, "jtrue");
871	break;
872	}
873	case op_loop_if_true: {
874	printConditionalJump(exec, begin, it, location, "loop_if_true");
875	break;
876	}
877	case op_loop_if_false: {
878	printConditionalJump(exec, begin, it, location, "loop_if_false");
879	break;
880	}
881	case op_jfalse: {
882	printConditionalJump(exec, begin, it, location, "jfalse");
883	break;
884	}
885	case op_jeq_null: {
886	printConditionalJump(exec, begin, it, location, "jeq_null");
887	break;
888	}
889	case op_jneq_null: {
890	printConditionalJump(exec, begin, it, location, "jneq_null");
891	break;
892	}
893	case op_jneq_ptr: {
894	int r0 = (++it)->u.operand;
895	int r1 = (++it)->u.operand;
896	int offset = (++it)->u.operand;
897	printf("[%4d] jneq_ptr\t\t %s, %s, %d(->%d)\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), offset, location + offset);
898	break;
899	}
900	case op_jnless: {
901	int r0 = (++it)->u.operand;
902	int r1 = (++it)->u.operand;
903	int offset = (++it)->u.operand;
904	printf("[%4d] jnless\t\t %s, %s, %d(->%d)\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), offset, location + offset);
905	break;
906	}
907	case op_jnlesseq: {
908	int r0 = (++it)->u.operand;
909	int r1 = (++it)->u.operand;
910	int offset = (++it)->u.operand;
911	printf("[%4d] jnlesseq\t\t %s, %s, %d(->%d)\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), offset, location + offset);
912	break;
913	}
914	case op_loop_if_less: {
915	int r0 = (++it)->u.operand;
916	int r1 = (++it)->u.operand;
917	int offset = (++it)->u.operand;
918	printf("[%4d] loop_if_less\t %s, %s, %d(->%d)\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), offset, location + offset);
919	break;
920	}
921	case op_jless: {
922	int r0 = (++it)->u.operand;
923	int r1 = (++it)->u.operand;
924	int offset = (++it)->u.operand;
925	printf("[%4d] jless\t\t %s, %s, %d(->%d)\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), offset, location + offset);
926	break;
927	}
928	case op_loop_if_lesseq: {
929	int r0 = (++it)->u.operand;
930	int r1 = (++it)->u.operand;
931	int offset = (++it)->u.operand;
932	printf("[%4d] loop_if_lesseq\t %s, %s, %d(->%d)\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), offset, location + offset);
933	break;
934	}
935	case op_switch_imm: {
936	int tableIndex = (++it)->u.operand;
937	int defaultTarget = (++it)->u.operand;
938	int scrutineeRegister = (++it)->u.operand;
939	printf("[%4d] switch_imm\t %d, %d(->%d), %s\n", location, tableIndex, defaultTarget, location + defaultTarget, registerName(exec, scrutineeRegister).c_str());
940	break;
941	}
942	case op_switch_char: {
943	int tableIndex = (++it)->u.operand;
944	int defaultTarget = (++it)->u.operand;
945	int scrutineeRegister = (++it)->u.operand;
946	printf("[%4d] switch_char\t %d, %d(->%d), %s\n", location, tableIndex, defaultTarget, location + defaultTarget, registerName(exec, scrutineeRegister).c_str());
947	break;
948	}
949	case op_switch_string: {
950	int tableIndex = (++it)->u.operand;
951	int defaultTarget = (++it)->u.operand;
952	int scrutineeRegister = (++it)->u.operand;
953	printf("[%4d] switch_string\t %d, %d(->%d), %s\n", location, tableIndex, defaultTarget, location + defaultTarget, registerName(exec, scrutineeRegister).c_str());
954	break;
955	}
956	case op_new_func: {
957	int r0 = (++it)->u.operand;
958	int f0 = (++it)->u.operand;
959	printf("[%4d] new_func\t\t %s, f%d\n", location, registerName(exec, r0).c_str(), f0);
960	break;
961	}
962	case op_new_func_exp: {
963	int r0 = (++it)->u.operand;
964	int f0 = (++it)->u.operand;
965	printf("[%4d] new_func_exp\t %s, f%d\n", location, registerName(exec, r0).c_str(), f0);
966	break;
967	}
968	case op_call: {
969	int dst = (++it)->u.operand;
970	int func = (++it)->u.operand;
971	int argCount = (++it)->u.operand;
972	int registerOffset = (++it)->u.operand;
973	printf("[%4d] call\t\t %s, %s, %d, %d\n", location, registerName(exec, dst).c_str(), registerName(exec, func).c_str(), argCount, registerOffset);
974	break;
975	}
976	case op_call_eval: {
977	int dst = (++it)->u.operand;
978	int func = (++it)->u.operand;
979	int argCount = (++it)->u.operand;
980	int registerOffset = (++it)->u.operand;
981	printf("[%4d] call_eval\t %s, %s, %d, %d\n", location, registerName(exec, dst).c_str(), registerName(exec, func).c_str(), argCount, registerOffset);
982	break;
983	}
984	case op_call_varargs: {
985	int dst = (++it)->u.operand;
986	int func = (++it)->u.operand;
987	int argCount = (++it)->u.operand;
988	int registerOffset = (++it)->u.operand;
989	printf("[%4d] call_varargs\t %s, %s, %s, %d\n", location, registerName(exec, dst).c_str(), registerName(exec, func).c_str(), registerName(exec, argCount).c_str(), registerOffset);
990	break;
991	}
992	case op_load_varargs: {
993	printUnaryOp(exec, location, it, "load_varargs");
994	break;
995	}
996	case op_tear_off_activation: {
997	int r0 = (++it)->u.operand;
998	printf("[%4d] tear_off_activation\t %s\n", location, registerName(exec, r0).c_str());
999	break;
1000	}
1001	case op_tear_off_arguments: {
1002	printf("[%4d] tear_off_arguments\n", location);
1003	break;
1004	}
1005	case op_ret: {
1006	int r0 = (++it)->u.operand;
1007	printf("[%4d] ret\t\t %s\n", location, registerName(exec, r0).c_str());
1008	break;
1009	}
1010	case op_construct: {
1011	int dst = (++it)->u.operand;
1012	int func = (++it)->u.operand;
1013	int argCount = (++it)->u.operand;
1014	int registerOffset = (++it)->u.operand;
1015	int proto = (++it)->u.operand;
1016	int thisRegister = (++it)->u.operand;
1017	printf("[%4d] construct\t %s, %s, %d, %d, %s, %s\n", location, registerName(exec, dst).c_str(), registerName(exec, func).c_str(), argCount, registerOffset, registerName(exec, proto).c_str(), registerName(exec, thisRegister).c_str());
1018	break;
1019	}
1020	case op_construct_verify: {
1021	int r0 = (++it)->u.operand;
1022	int r1 = (++it)->u.operand;
1023	printf("[%4d] construct_verify\t %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str());
1024	break;
1025	}
1026	case op_strcat: {
1027	int r0 = (++it)->u.operand;
1028	int r1 = (++it)->u.operand;
1029	int count = (++it)->u.operand;
1030	printf("[%4d] strcat\t\t %s, %s, %d\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), count);
1031	break;
1032	}
1033	case op_to_primitive: {
1034	int r0 = (++it)->u.operand;
1035	int r1 = (++it)->u.operand;
1036	printf("[%4d] to_primitive\t %s, %s\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str());
1037	break;
1038	}
1039	case op_get_pnames: {
1040	int r0 = it[1].u.operand;
1041	int r1 = it[2].u.operand;
1042	int r2 = it[3].u.operand;
1043	int r3 = it[4].u.operand;
1044	int offset = it[5].u.operand;
1045	printf("[%4d] get_pnames\t %s, %s, %s, %s, %d(->%d)\n", location, registerName(exec, r0).c_str(), registerName(exec, r1).c_str(), registerName(exec, r2).c_str(), registerName(exec, r3).c_str(), offset, location + offset);
1046	it += OPCODE_LENGTH(op_get_pnames) - 1;
1047	break;
1048	}
1049	case op_next_pname: {
1050	int dest = it[1].u.operand;
1051	int iter = it[4].u.operand;
1052	int offset = it[5].u.operand;
1053	printf("[%4d] next_pname\t %s, %s, %d(->%d)\n", location, registerName(exec, dest).c_str(), registerName(exec, iter).c_str(), offset, location + offset);
1054	it += OPCODE_LENGTH(op_next_pname) - 1;
1055	break;
1056	}
1057	case op_push_scope: {
1058	int r0 = (++it)->u.operand;
1059	printf("[%4d] push_scope\t %s\n", location, registerName(exec, r0).c_str());
1060	break;
1061	}
1062	case op_pop_scope: {
1063	printf("[%4d] pop_scope\n", location);
1064	break;
1065	}
1066	case op_push_new_scope: {
1067	int r0 = (++it)->u.operand;
1068	int id0 = (++it)->u.operand;
1069	int r1 = (++it)->u.operand;
1070	printf("[%4d] push_new_scope \t%s, %s, %s\n", location, registerName(exec, r0).c_str(), idName(id0, m_identifiers[id0]).c_str(), registerName(exec, r1).c_str());
1071	break;
1072	}
1073	case op_jmp_scopes: {
1074	int scopeDelta = (++it)->u.operand;
1075	int offset = (++it)->u.operand;
1076	printf("[%4d] jmp_scopes\t^%d, %d(->%d)\n", location, scopeDelta, offset, location + offset);
1077	break;
1078	}
1079	case op_catch: {
1080	int r0 = (++it)->u.operand;
1081	printf("[%4d] catch\t\t %s\n", location, registerName(exec, r0).c_str());
1082	break;
1083	}
1084	case op_throw: {
1085	int r0 = (++it)->u.operand;
1086	printf("[%4d] throw\t\t %s\n", location, registerName(exec, r0).c_str());
1087	break;
1088	}
1089	case op_new_error: {
1090	int r0 = (++it)->u.operand;
1091	int errorType = (++it)->u.operand;
1092	int k0 = (++it)->u.operand;
1093	printf("[%4d] new_error\t %s, %d, %s\n", location, registerName(exec, r0).c_str(), errorType, constantName(exec, k0, getConstant(k0)).c_str());
1094	break;
1095	}
1096	case op_jsr: {
1097	int retAddrDst = (++it)->u.operand;
1098	int offset = (++it)->u.operand;
1099	printf("[%4d] jsr\t\t %s, %d(->%d)\n", location, registerName(exec, retAddrDst).c_str(), offset, location + offset);
1100	break;
1101	}
1102	case op_sret: {
1103	int retAddrSrc = (++it)->u.operand;
1104	printf("[%4d] sret\t\t %s\n", location, registerName(exec, retAddrSrc).c_str());
1105	break;
1106	}
1107	case op_debug: {
1108	int debugHookID = (++it)->u.operand;
1109	int firstLine = (++it)->u.operand;
1110	int lastLine = (++it)->u.operand;
1111	printf("[%4d] debug\t\t %s, %d, %d\n", location, debugHookName(debugHookID), firstLine, lastLine);
1112	break;
1113	}
1114	case op_profile_will_call: {
1115	int function = (++it)->u.operand;
1116	printf("[%4d] profile_will_call %s\n", location, registerName(exec, function).c_str());
1117	break;
1118	}
1119	case op_profile_did_call: {
1120	int function = (++it)->u.operand;
1121	printf("[%4d] profile_did_call\t %s\n", location, registerName(exec, function).c_str());
1122	break;
1123	}
1124	case op_end: {
1125	int r0 = (++it)->u.operand;
1126	printf("[%4d] end\t\t %s\n", location, registerName(exec, r0).c_str());
1127	break;
1128	}
1129	}
1130	}
1131
1132	#endif // !defined(NDEBUG) || ENABLE(OPCODE_SAMPLING)
1133
1134	#if DUMP_CODE_BLOCK_STATISTICS
1135	static HashSet<CodeBlock*> liveCodeBlockSet;
1136	#endif
1137
1138	#define FOR_EACH_MEMBER_VECTOR(macro) \
1139	macro(instructions) \
1140	macro(globalResolveInfos) \
1141	macro(structureStubInfos) \
1142	macro(callLinkInfos) \
1143	macro(linkedCallerList) \
1144	macro(identifiers) \
1145	macro(functionExpressions) \
1146	macro(constantRegisters)
1147
1148	#define FOR_EACH_MEMBER_VECTOR_RARE_DATA(macro) \
1149	macro(regexps) \
1150	macro(functions) \
1151	macro(exceptionHandlers) \
1152	macro(immediateSwitchJumpTables) \
1153	macro(characterSwitchJumpTables) \
1154	macro(stringSwitchJumpTables) \
1155	macro(functionRegisterInfos)
1156
1157	#define FOR_EACH_MEMBER_VECTOR_EXCEPTION_INFO(macro) \
1158	macro(expressionInfo) \
1159	macro(lineInfo) \
1160	macro(getByIdExceptionInfo) \
1161	macro(pcVector)
1162
1163	template<typename T>
1164	static size_t sizeInBytes(const Vector<T>& vector)
1165	{
1166	return vector.capacity() * sizeof(T);
1167	}
1168
1169	void CodeBlock::dumpStatistics()
1170	{
1171	#if DUMP_CODE_BLOCK_STATISTICS
1172	#define DEFINE_VARS(name) size_t name##IsNotEmpty = 0; size_t name##TotalSize = 0;
1173	FOR_EACH_MEMBER_VECTOR(DEFINE_VARS)
1174	FOR_EACH_MEMBER_VECTOR_RARE_DATA(DEFINE_VARS)
1175	FOR_EACH_MEMBER_VECTOR_EXCEPTION_INFO(DEFINE_VARS)
1176	#undef DEFINE_VARS
1177
1178	// Non-vector data members
1179	size_t evalCodeCacheIsNotEmpty = 0;
1180
1181	size_t symbolTableIsNotEmpty = 0;
1182	size_t symbolTableTotalSize = 0;
1183
1184	size_t hasExceptionInfo = 0;
1185	size_t hasRareData = 0;
1186
1187	size_t isFunctionCode = 0;
1188	size_t isGlobalCode = 0;
1189	size_t isEvalCode = 0;
1190
1191	HashSet<CodeBlock*>::const_iterator end = liveCodeBlockSet.end();
1192	for (HashSet<CodeBlock*>::const_iterator it = liveCodeBlockSet.begin(); it != end; ++it) {
1193	CodeBlock* codeBlock = *it;
1194
1195	#define GET_STATS(name) if (!codeBlock->m_##name.isEmpty()) { name##IsNotEmpty++; name##TotalSize += sizeInBytes(codeBlock->m_##name); }
1196	FOR_EACH_MEMBER_VECTOR(GET_STATS)
1197	#undef GET_STATS
1198
1199	if (!codeBlock->m_symbolTable.isEmpty()) {
1200	symbolTableIsNotEmpty++;
1201	symbolTableTotalSize += (codeBlock->m_symbolTable.capacity() * (sizeof(SymbolTable::KeyType) + sizeof(SymbolTable::MappedType)));
1202	}
1203
1204	if (codeBlock->m_exceptionInfo) {
1205	hasExceptionInfo++;
1206	#define GET_STATS(name) if (!codeBlock->m_exceptionInfo->m_##name.isEmpty()) { name##IsNotEmpty++; name##TotalSize += sizeInBytes(codeBlock->m_exceptionInfo->m_##name); }
1207	FOR_EACH_MEMBER_VECTOR_EXCEPTION_INFO(GET_STATS)
1208	#undef GET_STATS
1209	}
1210
1211	if (codeBlock->m_rareData) {
1212	hasRareData++;
1213	#define GET_STATS(name) if (!codeBlock->m_rareData->m_##name.isEmpty()) { name##IsNotEmpty++; name##TotalSize += sizeInBytes(codeBlock->m_rareData->m_##name); }
1214	FOR_EACH_MEMBER_VECTOR_RARE_DATA(GET_STATS)
1215	#undef GET_STATS
1216
1217	if (!codeBlock->m_rareData->m_evalCodeCache.isEmpty())
1218	evalCodeCacheIsNotEmpty++;
1219	}
1220
1221	switch (codeBlock->codeType()) {
1222	case FunctionCode:
1223	++isFunctionCode;
1224	break;
1225	case GlobalCode:
1226	++isGlobalCode;
1227	break;
1228	case EvalCode:
1229	++isEvalCode;
1230	break;
1231	}
1232	}
1233
1234	size_t totalSize = 0;
1235
1236	#define GET_TOTAL_SIZE(name) totalSize += name##TotalSize;
1237	FOR_EACH_MEMBER_VECTOR(GET_TOTAL_SIZE)
1238	FOR_EACH_MEMBER_VECTOR_RARE_DATA(GET_TOTAL_SIZE)
1239	FOR_EACH_MEMBER_VECTOR_EXCEPTION_INFO(GET_TOTAL_SIZE)
1240	#undef GET_TOTAL_SIZE
1241
1242	totalSize += symbolTableTotalSize;
1243	totalSize += (liveCodeBlockSet.size() * sizeof(CodeBlock));
1244
1245	printf("Number of live CodeBlocks: %d\n", liveCodeBlockSet.size());
1246	printf("Size of a single CodeBlock [sizeof(CodeBlock)]: %zu\n", sizeof(CodeBlock));
1247	printf("Size of all CodeBlocks: %zu\n", totalSize);
1248	printf("Average size of a CodeBlock: %zu\n", totalSize / liveCodeBlockSet.size());
1249
1250	printf("Number of FunctionCode CodeBlocks: %zu (%.3f%%)\n", isFunctionCode, static_cast<double>(isFunctionCode) * 100.0 / liveCodeBlockSet.size());
1251	printf("Number of GlobalCode CodeBlocks: %zu (%.3f%%)\n", isGlobalCode, static_cast<double>(isGlobalCode) * 100.0 / liveCodeBlockSet.size());
1252	printf("Number of EvalCode CodeBlocks: %zu (%.3f%%)\n", isEvalCode, static_cast<double>(isEvalCode) * 100.0 / liveCodeBlockSet.size());
1253
1254	printf("Number of CodeBlocks with exception info: %zu (%.3f%%)\n", hasExceptionInfo, static_cast<double>(hasExceptionInfo) * 100.0 / liveCodeBlockSet.size());
1255	printf("Number of CodeBlocks with rare data: %zu (%.3f%%)\n", hasRareData, static_cast<double>(hasRareData) * 100.0 / liveCodeBlockSet.size());
1256
1257	#define PRINT_STATS(name) printf("Number of CodeBlocks with " #name ": %zu\n", name##IsNotEmpty); printf("Size of all " #name ": %zu\n", name##TotalSize);
1258	FOR_EACH_MEMBER_VECTOR(PRINT_STATS)
1259	FOR_EACH_MEMBER_VECTOR_RARE_DATA(PRINT_STATS)
1260	FOR_EACH_MEMBER_VECTOR_EXCEPTION_INFO(PRINT_STATS)
1261	#undef PRINT_STATS
1262
1263	printf("Number of CodeBlocks with evalCodeCache: %zu\n", evalCodeCacheIsNotEmpty);
1264	printf("Number of CodeBlocks with symbolTable: %zu\n", symbolTableIsNotEmpty);
1265
1266	printf("Size of all symbolTables: %zu\n", symbolTableTotalSize);
1267
1268	#else
1269	printf("Dumping CodeBlock statistics is not enabled.\n");
1270	#endif
1271	}
1272
1273	CodeBlock::CodeBlock(ScriptExecutable* ownerExecutable, CodeType codeType, PassRefPtr<SourceProvider> sourceProvider, unsigned sourceOffset, SymbolTable* symTab)
1274	: m_numCalleeRegisters(0)
1275	, m_numVars(0)
1276	, m_numParameters(0)
1277	, m_ownerExecutable(ownerExecutable)
1278	, m_globalData(0)
1279	#ifndef NDEBUG
1280	, m_instructionCount(0)
1281	#endif
1282	, m_needsFullScopeChain(ownerExecutable->needsActivation())
1283	, m_usesEval(ownerExecutable->usesEval())
1284	, m_usesArguments(ownerExecutable->usesArguments())
1285	, m_isNumericCompareFunction(false)
1286	, m_codeType(codeType)
1287	, m_source(sourceProvider)
1288	, m_sourceOffset(sourceOffset)
1289	, m_symbolTable(symTab)
1290	, m_exceptionInfo(new ExceptionInfo)
1291	{
1292	ASSERT(m_source);
1293
1294	#if DUMP_CODE_BLOCK_STATISTICS
1295	liveCodeBlockSet.add(this);
1296	#endif
1297	}
1298
1299	CodeBlock::~CodeBlock()
1300	{
1301	#if !ENABLE(JIT)
1302	for (size_t size = m_globalResolveInstructions.size(), i = 0; i < size; ++i)
1303	derefStructures(&m_instructions[m_globalResolveInstructions[i]]);
1304
1305	for (size_t size = m_propertyAccessInstructions.size(), i = 0; i < size; ++i)
1306	derefStructures(&m_instructions[m_propertyAccessInstructions[i]]);
1307	#else
1308	for (size_t size = m_globalResolveInfos.size(), i = 0; i < size; ++i) {
1309	if (m_globalResolveInfos[i].structure)
1310	m_globalResolveInfos[i].structure->deref();
1311	}
1312
1313	for (size_t size = m_structureStubInfos.size(), i = 0; i < size; ++i)
1314	m_structureStubInfos[i].deref();
1315
1316	for (size_t size = m_callLinkInfos.size(), i = 0; i < size; ++i) {
1317	CallLinkInfo* callLinkInfo = &m_callLinkInfos[i];
1318	if (callLinkInfo->isLinked())
1319	callLinkInfo->callee->removeCaller(callLinkInfo);
1320	}
1321
1322	for (size_t size = m_methodCallLinkInfos.size(), i = 0; i < size; ++i) {
1323	if (Structure* structure = m_methodCallLinkInfos[i].cachedStructure) {
1324	structure->deref();
1325	// Both members must be filled at the same time
1326	ASSERT(!!m_methodCallLinkInfos[i].cachedPrototypeStructure);
1327	m_methodCallLinkInfos[i].cachedPrototypeStructure->deref();
1328	}
1329	}
1330
1331	#if ENABLE(JIT_OPTIMIZE_CALL)
1332	unlinkCallers();
1333	#endif
1334
1335	#endif // !ENABLE(JIT)
1336
1337	#if DUMP_CODE_BLOCK_STATISTICS
1338	liveCodeBlockSet.remove(this);
1339	#endif
1340	}
1341
1342	#if ENABLE(JIT_OPTIMIZE_CALL)
1343	void CodeBlock::unlinkCallers()
1344	{
1345	size_t size = m_linkedCallerList.size();
1346	for (size_t i = 0; i < size; ++i) {
1347	CallLinkInfo* currentCaller = m_linkedCallerList[i];
1348	JIT::unlinkCall(currentCaller);
1349	currentCaller->setUnlinked();
1350	}
1351	m_linkedCallerList.clear();
1352	}
1353	#endif
1354
1355	void CodeBlock::derefStructures(Instruction* vPC) const
1356	{
1357	Interpreter* interpreter = m_globalData->interpreter;
1358
1359	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_self)) {
1360	vPC[4].u.structure->deref();
1361	return;
1362	}
1363	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_proto)) {
1364	vPC[4].u.structure->deref();
1365	vPC[5].u.structure->deref();
1366	return;
1367	}
1368	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_chain)) {
1369	vPC[4].u.structure->deref();
1370	vPC[5].u.structureChain->deref();
1371	return;
1372	}
1373	if (vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_transition)) {
1374	vPC[4].u.structure->deref();
1375	vPC[5].u.structure->deref();
1376	vPC[6].u.structureChain->deref();
1377	return;
1378	}
1379	if (vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_replace)) {
1380	vPC[4].u.structure->deref();
1381	return;
1382	}
1383	if (vPC[0].u.opcode == interpreter->getOpcode(op_resolve_global)) {
1384	if(vPC[4].u.structure)
1385	vPC[4].u.structure->deref();
1386	return;
1387	}
1388	if ((vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_proto_list))
1389	|| (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_self_list))) {
1390	PolymorphicAccessStructureList* polymorphicStructures = vPC[4].u.polymorphicStructures;
1391	polymorphicStructures->derefStructures(vPC[5].u.operand);
1392	delete polymorphicStructures;
1393	return;
1394	}
1395
1396	// These instructions don't ref their Structures.
1397	ASSERT(vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id) || vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id) || vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_generic) || vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_generic) || vPC[0].u.opcode == interpreter->getOpcode(op_get_array_length) || vPC[0].u.opcode == interpreter->getOpcode(op_get_string_length));
1398	}
1399
1400	void CodeBlock::refStructures(Instruction* vPC) const
1401	{
1402	Interpreter* interpreter = m_globalData->interpreter;
1403
1404	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_self)) {
1405	vPC[4].u.structure->ref();
1406	return;
1407	}
1408	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_proto)) {
1409	vPC[4].u.structure->ref();
1410	vPC[5].u.structure->ref();
1411	return;
1412	}
1413	if (vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_chain)) {
1414	vPC[4].u.structure->ref();
1415	vPC[5].u.structureChain->ref();
1416	return;
1417	}
1418	if (vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_transition)) {
1419	vPC[4].u.structure->ref();
1420	vPC[5].u.structure->ref();
1421	vPC[6].u.structureChain->ref();
1422	return;
1423	}
1424	if (vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_replace)) {
1425	vPC[4].u.structure->ref();
1426	return;
1427	}
1428
1429	// These instructions don't ref their Structures.
1430	ASSERT(vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id) || vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id) || vPC[0].u.opcode == interpreter->getOpcode(op_get_by_id_generic) || vPC[0].u.opcode == interpreter->getOpcode(op_put_by_id_generic));
1431	}
1432
1433	void CodeBlock::markAggregate(MarkStack& markStack)
1434	{
1435	for (size_t i = 0; i < m_constantRegisters.size(); ++i)
1436	markStack.append(m_constantRegisters[i].jsValue());
1437	for (size_t i = 0; i < m_functionExprs.size(); ++i)
1438	m_functionExprs[i]->markAggregate(markStack);
1439	for (size_t i = 0; i < m_functionDecls.size(); ++i)
1440	m_functionDecls[i]->markAggregate(markStack);
1441	}
1442
1443	void CodeBlock::reparseForExceptionInfoIfNecessary(CallFrame* callFrame)
1444	{
1445	if (m_exceptionInfo)
1446	return;
1447
1448	ScopeChainNode* scopeChain = callFrame->scopeChain();
1449	if (m_needsFullScopeChain) {
1450	ScopeChain sc(scopeChain);
1451	int scopeDelta = sc.localDepth();
1452	if (m_codeType == EvalCode)
1453	scopeDelta -= static_cast<EvalCodeBlock*>(this)->baseScopeDepth();
1454	else if (m_codeType == FunctionCode)
1455	scopeDelta++; // Compilation of function code assumes activation is not on the scope chain yet.
1456	ASSERT(scopeDelta >= 0);
1457	while (scopeDelta--)
1458	scopeChain = scopeChain->next;
1459	}
1460
1461	m_exceptionInfo.set(m_ownerExecutable->reparseExceptionInfo(m_globalData, scopeChain, this));
1462	}
1463
1464	HandlerInfo* CodeBlock::handlerForBytecodeOffset(unsigned bytecodeOffset)
1465	{
1466	ASSERT(bytecodeOffset < m_instructionCount);
1467
1468	if (!m_rareData)
1469	return 0;
1470
1471	Vector<HandlerInfo>& exceptionHandlers = m_rareData->m_exceptionHandlers;
1472	for (size_t i = 0; i < exceptionHandlers.size(); ++i) {
1473	// Handlers are ordered innermost first, so the first handler we encounter
1474	// that contains the source address is the correct handler to use.
1475	if (exceptionHandlers[i].start <= bytecodeOffset && exceptionHandlers[i].end >= bytecodeOffset)
1476	return &exceptionHandlers[i];
1477	}
1478
1479	return 0;
1480	}
1481
1482	int CodeBlock::lineNumberForBytecodeOffset(CallFrame* callFrame, unsigned bytecodeOffset)
1483	{
1484	ASSERT(bytecodeOffset < m_instructionCount);
1485
1486	reparseForExceptionInfoIfNecessary(callFrame);
1487	ASSERT(m_exceptionInfo);
1488
1489	if (!m_exceptionInfo->m_lineInfo.size())
1490	return m_ownerExecutable->source().firstLine(); // Empty function
1491
1492	int low = 0;
1493	int high = m_exceptionInfo->m_lineInfo.size();
1494	while (low < high) {
1495	int mid = low + (high - low) / 2;
1496	if (m_exceptionInfo->m_lineInfo[mid].instructionOffset <= bytecodeOffset)
1497	low = mid + 1;
1498	else
1499	high = mid;
1500	}
1501
1502	if (!low)
1503	return m_ownerExecutable->source().firstLine();
1504	return m_exceptionInfo->m_lineInfo[low - 1].lineNumber;
1505	}
1506
1507	int CodeBlock::expressionRangeForBytecodeOffset(CallFrame* callFrame, unsigned bytecodeOffset, int& divot, int& startOffset, int& endOffset)
1508	{
1509	ASSERT(bytecodeOffset < m_instructionCount);
1510
1511	reparseForExceptionInfoIfNecessary(callFrame);
1512	ASSERT(m_exceptionInfo);
1513
1514	if (!m_exceptionInfo->m_expressionInfo.size()) {
1515	// We didn't think anything could throw. Apparently we were wrong.
1516	startOffset = 0;
1517	endOffset = 0;
1518	divot = 0;
1519	return lineNumberForBytecodeOffset(callFrame, bytecodeOffset);
1520	}
1521
1522	int low = 0;
1523	int high = m_exceptionInfo->m_expressionInfo.size();
1524	while (low < high) {
1525	int mid = low + (high - low) / 2;
1526	if (m_exceptionInfo->m_expressionInfo[mid].instructionOffset <= bytecodeOffset)
1527	low = mid + 1;
1528	else
1529	high = mid;
1530	}
1531
1532	ASSERT(low);
1533	if (!low) {
1534	startOffset = 0;
1535	endOffset = 0;
1536	divot = 0;
1537	return lineNumberForBytecodeOffset(callFrame, bytecodeOffset);
1538	}
1539
1540	startOffset = m_exceptionInfo->m_expressionInfo[low - 1].startOffset;
1541	endOffset = m_exceptionInfo->m_expressionInfo[low - 1].endOffset;
1542	divot = m_exceptionInfo->m_expressionInfo[low - 1].divotPoint + m_sourceOffset;
1543	return lineNumberForBytecodeOffset(callFrame, bytecodeOffset);
1544	}
1545
1546	bool CodeBlock::getByIdExceptionInfoForBytecodeOffset(CallFrame* callFrame, unsigned bytecodeOffset, OpcodeID& opcodeID)
1547	{
1548	ASSERT(bytecodeOffset < m_instructionCount);
1549
1550	reparseForExceptionInfoIfNecessary(callFrame);
1551	ASSERT(m_exceptionInfo);
1552
1553	if (!m_exceptionInfo->m_getByIdExceptionInfo.size())
1554	return false;
1555
1556	int low = 0;
1557	int high = m_exceptionInfo->m_getByIdExceptionInfo.size();
1558	while (low < high) {
1559	int mid = low + (high - low) / 2;
1560	if (m_exceptionInfo->m_getByIdExceptionInfo[mid].bytecodeOffset <= bytecodeOffset)
1561	low = mid + 1;
1562	else
1563	high = mid;
1564	}
1565
1566	if (!low || m_exceptionInfo->m_getByIdExceptionInfo[low - 1].bytecodeOffset != bytecodeOffset)
1567	return false;
1568
1569	opcodeID = m_exceptionInfo->m_getByIdExceptionInfo[low - 1].isOpConstruct ? op_construct : op_instanceof;
1570	return true;
1571	}
1572
1573	#if ENABLE(JIT)
1574	bool CodeBlock::functionRegisterForBytecodeOffset(unsigned bytecodeOffset, int& functionRegisterIndex)
1575	{
1576	ASSERT(bytecodeOffset < m_instructionCount);
1577
1578	if (!m_rareData || !m_rareData->m_functionRegisterInfos.size())
1579	return false;
1580
1581	int low = 0;
1582	int high = m_rareData->m_functionRegisterInfos.size();
1583	while (low < high) {
1584	int mid = low + (high - low) / 2;
1585	if (m_rareData->m_functionRegisterInfos[mid].bytecodeOffset <= bytecodeOffset)
1586	low = mid + 1;
1587	else
1588	high = mid;
1589	}
1590
1591	if (!low || m_rareData->m_functionRegisterInfos[low - 1].bytecodeOffset != bytecodeOffset)
1592	return false;
1593
1594	functionRegisterIndex = m_rareData->m_functionRegisterInfos[low - 1].functionRegisterIndex;
1595	return true;
1596	}
1597	#endif
1598
1599	#if !ENABLE(JIT)
1600	bool CodeBlock::hasGlobalResolveInstructionAtBytecodeOffset(unsigned bytecodeOffset)
1601	{
1602	if (m_globalResolveInstructions.isEmpty())
1603	return false;
1604
1605	int low = 0;
1606	int high = m_globalResolveInstructions.size();
1607	while (low < high) {
1608	int mid = low + (high - low) / 2;
1609	if (m_globalResolveInstructions[mid] <= bytecodeOffset)
1610	low = mid + 1;
1611	else
1612	high = mid;
1613	}
1614
1615	if (!low || m_globalResolveInstructions[low - 1] != bytecodeOffset)
1616	return false;
1617	return true;
1618	}
1619	#else
1620	bool CodeBlock::hasGlobalResolveInfoAtBytecodeOffset(unsigned bytecodeOffset)
1621	{
1622	if (m_globalResolveInfos.isEmpty())
1623	return false;
1624
1625	int low = 0;
1626	int high = m_globalResolveInfos.size();
1627	while (low < high) {
1628	int mid = low + (high - low) / 2;
1629	if (m_globalResolveInfos[mid].bytecodeOffset <= bytecodeOffset)
1630	low = mid + 1;
1631	else
1632	high = mid;
1633	}
1634
1635	if (!low || m_globalResolveInfos[low - 1].bytecodeOffset != bytecodeOffset)
1636	return false;
1637	return true;
1638	}
1639	#endif
1640
1641	void CodeBlock::shrinkToFit()
1642	{
1643	m_instructions.shrinkToFit();
1644
1645	#if !ENABLE(JIT)
1646	m_propertyAccessInstructions.shrinkToFit();
1647	m_globalResolveInstructions.shrinkToFit();
1648	#else
1649	m_structureStubInfos.shrinkToFit();
1650	m_globalResolveInfos.shrinkToFit();
1651	m_callLinkInfos.shrinkToFit();
1652	m_linkedCallerList.shrinkToFit();
1653	#endif
1654
1655	m_identifiers.shrinkToFit();
1656	m_functionDecls.shrinkToFit();
1657	m_functionExprs.shrinkToFit();
1658	m_constantRegisters.shrinkToFit();
1659
1660	if (m_exceptionInfo) {
1661	m_exceptionInfo->m_expressionInfo.shrinkToFit();
1662	m_exceptionInfo->m_lineInfo.shrinkToFit();
1663	m_exceptionInfo->m_getByIdExceptionInfo.shrinkToFit();
1664	}
1665
1666	if (m_rareData) {
1667	m_rareData->m_exceptionHandlers.shrinkToFit();
1668	m_rareData->m_regexps.shrinkToFit();
1669	m_rareData->m_immediateSwitchJumpTables.shrinkToFit();
1670	m_rareData->m_characterSwitchJumpTables.shrinkToFit();
1671	m_rareData->m_stringSwitchJumpTables.shrinkToFit();
1672	#if ENABLE(JIT)
1673	m_rareData->m_functionRegisterInfos.shrinkToFit();
1674	#endif
1675	}
1676	}
1677
1678	} // namespace JSC
1679

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