1 // Copyright 2012 the V8 project authors. All rights reserved.
2 // Redistribution and use in source and binary forms, with or without
3 // modification, are permitted provided that the following conditions are
4 // met:
5 //
6 // * Redistributions of source code must retain the above copyright
7 // notice, this list of conditions and the following disclaimer.
8 // * Redistributions in binary form must reproduce the above
9 // copyright notice, this list of conditions and the following
10 // disclaimer in the documentation and/or other materials provided
11 // with the distribution.
12 // * Neither the name of Google Inc. nor the names of its
13 // contributors may be used to endorse or promote products derived
14 // from this software without specific prior written permission.
15 //
16 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
17 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
18 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
19 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
20 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
21 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
22 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
26 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27
28 #include "v8.h"
29
30 #include "api.h"
31 #include "arguments.h"
32 #include "ast.h"
33 #include "code-stubs.h"
34 #include "gdb-jit.h"
35 #include "ic-inl.h"
36 #include "stub-cache.h"
37 #include "vm-state-inl.h"
38
39 namespace v8 {
40 namespace internal {
41
42 // -----------------------------------------------------------------------
43 // StubCache implementation.
44
45
StubCache(Isolate * isolate)46 StubCache::StubCache(Isolate* isolate) : isolate_(isolate) {
47 ASSERT(isolate == Isolate::Current());
48 }
49
50
Initialize()51 void StubCache::Initialize() {
52 ASSERT(IsPowerOf2(kPrimaryTableSize));
53 ASSERT(IsPowerOf2(kSecondaryTableSize));
54 Clear();
55 }
56
57
Set(String * name,Map * map,Code * code)58 Code* StubCache::Set(String* name, Map* map, Code* code) {
59 // Get the flags from the code.
60 Code::Flags flags = Code::RemoveTypeFromFlags(code->flags());
61
62 // Validate that the name does not move on scavenge, and that we
63 // can use identity checks instead of string equality checks.
64 ASSERT(!heap()->InNewSpace(name));
65 ASSERT(name->IsSymbol());
66
67 // The state bits are not important to the hash function because
68 // the stub cache only contains monomorphic stubs. Make sure that
69 // the bits are the least significant so they will be the ones
70 // masked out.
71 ASSERT(Code::ExtractICStateFromFlags(flags) == MONOMORPHIC);
72 STATIC_ASSERT((Code::ICStateField::kMask & 1) == 1);
73
74 // Make sure that the code type is not included in the hash.
75 ASSERT(Code::ExtractTypeFromFlags(flags) == 0);
76
77 // Compute the primary entry.
78 int primary_offset = PrimaryOffset(name, flags, map);
79 Entry* primary = entry(primary_, primary_offset);
80 Code* old_code = primary->value;
81
82 // If the primary entry has useful data in it, we retire it to the
83 // secondary cache before overwriting it.
84 if (old_code != isolate_->builtins()->builtin(Builtins::kIllegal)) {
85 Map* old_map = primary->map;
86 Code::Flags old_flags = Code::RemoveTypeFromFlags(old_code->flags());
87 int seed = PrimaryOffset(primary->key, old_flags, old_map);
88 int secondary_offset = SecondaryOffset(primary->key, old_flags, seed);
89 Entry* secondary = entry(secondary_, secondary_offset);
90 *secondary = *primary;
91 }
92
93 // Update primary cache.
94 primary->key = name;
95 primary->value = code;
96 primary->map = map;
97 isolate()->counters()->megamorphic_stub_cache_updates()->Increment();
98 return code;
99 }
100
101
ComputeLoadNonexistent(Handle<String> name,Handle<JSObject> receiver)102 Handle<Code> StubCache::ComputeLoadNonexistent(Handle<String> name,
103 Handle<JSObject> receiver) {
104 ASSERT(receiver->IsGlobalObject() || receiver->HasFastProperties());
105 // If no global objects are present in the prototype chain, the load
106 // nonexistent IC stub can be shared for all names for a given map
107 // and we use the empty string for the map cache in that case. If
108 // there are global objects involved, we need to check global
109 // property cells in the stub and therefore the stub will be
110 // specific to the name.
111 Handle<String> cache_name = factory()->empty_string();
112 if (receiver->IsGlobalObject()) cache_name = name;
113 Handle<JSObject> last = receiver;
114 while (last->GetPrototype() != heap()->null_value()) {
115 last = Handle<JSObject>(JSObject::cast(last->GetPrototype()));
116 if (last->IsGlobalObject()) cache_name = name;
117 }
118 // Compile the stub that is either shared for all names or
119 // name specific if there are global objects involved.
120 Code::Flags flags =
121 Code::ComputeMonomorphicFlags(Code::LOAD_IC, NONEXISTENT);
122 Handle<Object> probe(receiver->map()->FindInCodeCache(*cache_name, flags));
123 if (probe->IsCode()) return Handle<Code>::cast(probe);
124
125 LoadStubCompiler compiler(isolate_);
126 Handle<Code> code =
127 compiler.CompileLoadNonexistent(cache_name, receiver, last);
128 PROFILE(isolate_, CodeCreateEvent(Logger::LOAD_IC_TAG, *code, *cache_name));
129 GDBJIT(AddCode(GDBJITInterface::LOAD_IC, *cache_name, *code));
130 JSObject::UpdateMapCodeCache(receiver, cache_name, code);
131 return code;
132 }
133
134
ComputeLoadField(Handle<String> name,Handle<JSObject> receiver,Handle<JSObject> holder,int field_index)135 Handle<Code> StubCache::ComputeLoadField(Handle<String> name,
136 Handle<JSObject> receiver,
137 Handle<JSObject> holder,
138 int field_index) {
139 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
140 Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, FIELD);
141 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
142 if (probe->IsCode()) return Handle<Code>::cast(probe);
143
144 LoadStubCompiler compiler(isolate_);
145 Handle<Code> code =
146 compiler.CompileLoadField(receiver, holder, field_index, name);
147 PROFILE(isolate_, CodeCreateEvent(Logger::LOAD_IC_TAG, *code, *name));
148 GDBJIT(AddCode(GDBJITInterface::LOAD_IC, *name, *code));
149 JSObject::UpdateMapCodeCache(receiver, name, code);
150 return code;
151 }
152
153
ComputeLoadCallback(Handle<String> name,Handle<JSObject> receiver,Handle<JSObject> holder,Handle<AccessorInfo> callback)154 Handle<Code> StubCache::ComputeLoadCallback(Handle<String> name,
155 Handle<JSObject> receiver,
156 Handle<JSObject> holder,
157 Handle<AccessorInfo> callback) {
158 ASSERT(v8::ToCData<Address>(callback->getter()) != 0);
159 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
160 Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, CALLBACKS);
161 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
162 if (probe->IsCode()) return Handle<Code>::cast(probe);
163
164 LoadStubCompiler compiler(isolate_);
165 Handle<Code> code =
166 compiler.CompileLoadCallback(name, receiver, holder, callback);
167 PROFILE(isolate_, CodeCreateEvent(Logger::LOAD_IC_TAG, *code, *name));
168 GDBJIT(AddCode(GDBJITInterface::LOAD_IC, *name, *code));
169 JSObject::UpdateMapCodeCache(receiver, name, code);
170 return code;
171 }
172
173
ComputeLoadConstant(Handle<String> name,Handle<JSObject> receiver,Handle<JSObject> holder,Handle<JSFunction> value)174 Handle<Code> StubCache::ComputeLoadConstant(Handle<String> name,
175 Handle<JSObject> receiver,
176 Handle<JSObject> holder,
177 Handle<JSFunction> value) {
178 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
179 Code::Flags flags =
180 Code::ComputeMonomorphicFlags(Code::LOAD_IC, CONSTANT_FUNCTION);
181 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
182 if (probe->IsCode()) return Handle<Code>::cast(probe);
183
184 LoadStubCompiler compiler(isolate_);
185 Handle<Code> code =
186 compiler.CompileLoadConstant(receiver, holder, value, name);
187 PROFILE(isolate_, CodeCreateEvent(Logger::LOAD_IC_TAG, *code, *name));
188 GDBJIT(AddCode(GDBJITInterface::LOAD_IC, *name, *code));
189 JSObject::UpdateMapCodeCache(receiver, name, code);
190 return code;
191 }
192
193
ComputeLoadInterceptor(Handle<String> name,Handle<JSObject> receiver,Handle<JSObject> holder)194 Handle<Code> StubCache::ComputeLoadInterceptor(Handle<String> name,
195 Handle<JSObject> receiver,
196 Handle<JSObject> holder) {
197 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
198 Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, INTERCEPTOR);
199 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
200 if (probe->IsCode()) return Handle<Code>::cast(probe);
201
202 LoadStubCompiler compiler(isolate_);
203 Handle<Code> code =
204 compiler.CompileLoadInterceptor(receiver, holder, name);
205 PROFILE(isolate_, CodeCreateEvent(Logger::LOAD_IC_TAG, *code, *name));
206 GDBJIT(AddCode(GDBJITInterface::LOAD_IC, *name, *code));
207 JSObject::UpdateMapCodeCache(receiver, name, code);
208 return code;
209 }
210
211
ComputeLoadNormal()212 Handle<Code> StubCache::ComputeLoadNormal() {
213 return isolate_->builtins()->LoadIC_Normal();
214 }
215
216
ComputeLoadGlobal(Handle<String> name,Handle<JSObject> receiver,Handle<GlobalObject> holder,Handle<JSGlobalPropertyCell> cell,bool is_dont_delete)217 Handle<Code> StubCache::ComputeLoadGlobal(Handle<String> name,
218 Handle<JSObject> receiver,
219 Handle<GlobalObject> holder,
220 Handle<JSGlobalPropertyCell> cell,
221 bool is_dont_delete) {
222 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
223 Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, NORMAL);
224 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
225 if (probe->IsCode()) return Handle<Code>::cast(probe);
226
227 LoadStubCompiler compiler(isolate_);
228 Handle<Code> code =
229 compiler.CompileLoadGlobal(receiver, holder, cell, name, is_dont_delete);
230 PROFILE(isolate_, CodeCreateEvent(Logger::LOAD_IC_TAG, *code, *name));
231 GDBJIT(AddCode(GDBJITInterface::LOAD_IC, *name, *code));
232 JSObject::UpdateMapCodeCache(receiver, name, code);
233 return code;
234 }
235
236
ComputeKeyedLoadField(Handle<String> name,Handle<JSObject> receiver,Handle<JSObject> holder,int field_index)237 Handle<Code> StubCache::ComputeKeyedLoadField(Handle<String> name,
238 Handle<JSObject> receiver,
239 Handle<JSObject> holder,
240 int field_index) {
241 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
242 Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, FIELD);
243 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
244 if (probe->IsCode()) return Handle<Code>::cast(probe);
245
246 KeyedLoadStubCompiler compiler(isolate_);
247 Handle<Code> code =
248 compiler.CompileLoadField(name, receiver, holder, field_index);
249 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, *name));
250 GDBJIT(AddCode(GDBJITInterface::KEYED_LOAD_IC, *name, *code));
251 JSObject::UpdateMapCodeCache(receiver, name, code);
252 return code;
253 }
254
255
ComputeKeyedLoadConstant(Handle<String> name,Handle<JSObject> receiver,Handle<JSObject> holder,Handle<JSFunction> value)256 Handle<Code> StubCache::ComputeKeyedLoadConstant(Handle<String> name,
257 Handle<JSObject> receiver,
258 Handle<JSObject> holder,
259 Handle<JSFunction> value) {
260 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
261 Code::Flags flags =
262 Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CONSTANT_FUNCTION);
263 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
264 if (probe->IsCode()) return Handle<Code>::cast(probe);
265
266 KeyedLoadStubCompiler compiler(isolate_);
267 Handle<Code> code =
268 compiler.CompileLoadConstant(name, receiver, holder, value);
269 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, *name));
270 GDBJIT(AddCode(GDBJITInterface::KEYED_LOAD_IC, *name, *code));
271 JSObject::UpdateMapCodeCache(receiver, name, code);
272 return code;
273 }
274
275
ComputeKeyedLoadInterceptor(Handle<String> name,Handle<JSObject> receiver,Handle<JSObject> holder)276 Handle<Code> StubCache::ComputeKeyedLoadInterceptor(Handle<String> name,
277 Handle<JSObject> receiver,
278 Handle<JSObject> holder) {
279 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
280 Code::Flags flags =
281 Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, INTERCEPTOR);
282 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
283 if (probe->IsCode()) return Handle<Code>::cast(probe);
284
285 KeyedLoadStubCompiler compiler(isolate_);
286 Handle<Code> code = compiler.CompileLoadInterceptor(receiver, holder, name);
287 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, *name));
288 GDBJIT(AddCode(GDBJITInterface::KEYED_LOAD_IC, *name, *code));
289 JSObject::UpdateMapCodeCache(receiver, name, code);
290 return code;
291 }
292
293
ComputeKeyedLoadCallback(Handle<String> name,Handle<JSObject> receiver,Handle<JSObject> holder,Handle<AccessorInfo> callback)294 Handle<Code> StubCache::ComputeKeyedLoadCallback(
295 Handle<String> name,
296 Handle<JSObject> receiver,
297 Handle<JSObject> holder,
298 Handle<AccessorInfo> callback) {
299 ASSERT(IC::GetCodeCacheForObject(*receiver, *holder) == OWN_MAP);
300 Code::Flags flags =
301 Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CALLBACKS);
302 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
303 if (probe->IsCode()) return Handle<Code>::cast(probe);
304
305 KeyedLoadStubCompiler compiler(isolate_);
306 Handle<Code> code =
307 compiler.CompileLoadCallback(name, receiver, holder, callback);
308 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, *name));
309 GDBJIT(AddCode(GDBJITInterface::KEYED_LOAD_IC, *name, *code));
310 JSObject::UpdateMapCodeCache(receiver, name, code);
311 return code;
312 }
313
314
ComputeKeyedLoadArrayLength(Handle<String> name,Handle<JSArray> receiver)315 Handle<Code> StubCache::ComputeKeyedLoadArrayLength(Handle<String> name,
316 Handle<JSArray> receiver) {
317 Code::Flags flags =
318 Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CALLBACKS);
319 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
320 if (probe->IsCode()) return Handle<Code>::cast(probe);
321
322 KeyedLoadStubCompiler compiler(isolate_);
323 Handle<Code> code = compiler.CompileLoadArrayLength(name);
324 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, *name));
325 GDBJIT(AddCode(GDBJITInterface::KEYED_LOAD_IC, *name, *code));
326 JSObject::UpdateMapCodeCache(receiver, name, code);
327 return code;
328 }
329
330
ComputeKeyedLoadStringLength(Handle<String> name,Handle<String> receiver)331 Handle<Code> StubCache::ComputeKeyedLoadStringLength(Handle<String> name,
332 Handle<String> receiver) {
333 Code::Flags flags =
334 Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CALLBACKS);
335 Handle<Map> map(receiver->map());
336 Handle<Object> probe(map->FindInCodeCache(*name, flags));
337 if (probe->IsCode()) return Handle<Code>::cast(probe);
338
339 KeyedLoadStubCompiler compiler(isolate_);
340 Handle<Code> code = compiler.CompileLoadStringLength(name);
341 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, *name));
342 GDBJIT(AddCode(GDBJITInterface::KEYED_LOAD_IC, *name, *code));
343 Map::UpdateCodeCache(map, name, code);
344 return code;
345 }
346
347
ComputeKeyedLoadFunctionPrototype(Handle<String> name,Handle<JSFunction> receiver)348 Handle<Code> StubCache::ComputeKeyedLoadFunctionPrototype(
349 Handle<String> name,
350 Handle<JSFunction> receiver) {
351 Code::Flags flags =
352 Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CALLBACKS);
353 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
354 if (probe->IsCode()) return Handle<Code>::cast(probe);
355
356 KeyedLoadStubCompiler compiler(isolate_);
357 Handle<Code> code = compiler.CompileLoadFunctionPrototype(name);
358 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, *name));
359 GDBJIT(AddCode(GDBJITInterface::KEYED_LOAD_IC, *name, *code));
360 JSObject::UpdateMapCodeCache(receiver, name, code);
361 return code;
362 }
363
364
ComputeStoreField(Handle<String> name,Handle<JSObject> receiver,int field_index,Handle<Map> transition,StrictModeFlag strict_mode)365 Handle<Code> StubCache::ComputeStoreField(Handle<String> name,
366 Handle<JSObject> receiver,
367 int field_index,
368 Handle<Map> transition,
369 StrictModeFlag strict_mode) {
370 PropertyType type = (transition.is_null()) ? FIELD : MAP_TRANSITION;
371 Code::Flags flags = Code::ComputeMonomorphicFlags(
372 Code::STORE_IC, type, strict_mode);
373 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
374 if (probe->IsCode()) return Handle<Code>::cast(probe);
375
376 StoreStubCompiler compiler(isolate_, strict_mode);
377 Handle<Code> code =
378 compiler.CompileStoreField(receiver, field_index, transition, name);
379 PROFILE(isolate_, CodeCreateEvent(Logger::STORE_IC_TAG, *code, *name));
380 GDBJIT(AddCode(GDBJITInterface::STORE_IC, *name, *code));
381 JSObject::UpdateMapCodeCache(receiver, name, code);
382 return code;
383 }
384
385
ComputeKeyedLoadOrStoreElement(Handle<JSObject> receiver,KeyedIC::StubKind stub_kind,StrictModeFlag strict_mode)386 Handle<Code> StubCache::ComputeKeyedLoadOrStoreElement(
387 Handle<JSObject> receiver,
388 KeyedIC::StubKind stub_kind,
389 StrictModeFlag strict_mode) {
390 KeyedAccessGrowMode grow_mode =
391 KeyedIC::GetGrowModeFromStubKind(stub_kind);
392 Code::ExtraICState extra_state =
393 Code::ComputeExtraICState(grow_mode, strict_mode);
394 Code::Flags flags =
395 Code::ComputeMonomorphicFlags(
396 stub_kind == KeyedIC::LOAD ? Code::KEYED_LOAD_IC
397 : Code::KEYED_STORE_IC,
398 NORMAL,
399 extra_state);
400 Handle<String> name;
401 switch (stub_kind) {
402 case KeyedIC::LOAD:
403 name = isolate()->factory()->KeyedLoadElementMonomorphic_symbol();
404 break;
405 case KeyedIC::STORE_NO_TRANSITION:
406 name = isolate()->factory()->KeyedStoreElementMonomorphic_symbol();
407 break;
408 case KeyedIC::STORE_AND_GROW_NO_TRANSITION:
409 name = isolate()->factory()->KeyedStoreAndGrowElementMonomorphic_symbol();
410 break;
411 default:
412 UNREACHABLE();
413 break;
414 }
415 Handle<Map> receiver_map(receiver->map());
416 Handle<Object> probe(receiver_map->FindInCodeCache(*name, flags));
417 if (probe->IsCode()) return Handle<Code>::cast(probe);
418
419 Handle<Code> code;
420 switch (stub_kind) {
421 case KeyedIC::LOAD: {
422 KeyedLoadStubCompiler compiler(isolate_);
423 code = compiler.CompileLoadElement(receiver_map);
424 break;
425 }
426 case KeyedIC::STORE_AND_GROW_NO_TRANSITION: {
427 KeyedStoreStubCompiler compiler(isolate_, strict_mode,
428 ALLOW_JSARRAY_GROWTH);
429 code = compiler.CompileStoreElement(receiver_map);
430 break;
431 }
432 case KeyedIC::STORE_NO_TRANSITION: {
433 KeyedStoreStubCompiler compiler(isolate_, strict_mode,
434 DO_NOT_ALLOW_JSARRAY_GROWTH);
435 code = compiler.CompileStoreElement(receiver_map);
436 break;
437 }
438 default:
439 UNREACHABLE();
440 break;
441 }
442
443 ASSERT(!code.is_null());
444
445 if (stub_kind == KeyedIC::LOAD) {
446 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, 0));
447 } else {
448 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_STORE_IC_TAG, *code, 0));
449 }
450 JSObject::UpdateMapCodeCache(receiver, name, code);
451 return code;
452 }
453
454
ComputeStoreNormal(StrictModeFlag strict_mode)455 Handle<Code> StubCache::ComputeStoreNormal(StrictModeFlag strict_mode) {
456 return (strict_mode == kStrictMode)
457 ? isolate_->builtins()->Builtins::StoreIC_Normal_Strict()
458 : isolate_->builtins()->Builtins::StoreIC_Normal();
459 }
460
461
ComputeStoreGlobal(Handle<String> name,Handle<GlobalObject> receiver,Handle<JSGlobalPropertyCell> cell,StrictModeFlag strict_mode)462 Handle<Code> StubCache::ComputeStoreGlobal(Handle<String> name,
463 Handle<GlobalObject> receiver,
464 Handle<JSGlobalPropertyCell> cell,
465 StrictModeFlag strict_mode) {
466 Code::Flags flags = Code::ComputeMonomorphicFlags(
467 Code::STORE_IC, NORMAL, strict_mode);
468 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
469 if (probe->IsCode()) return Handle<Code>::cast(probe);
470
471 StoreStubCompiler compiler(isolate_, strict_mode);
472 Handle<Code> code = compiler.CompileStoreGlobal(receiver, cell, name);
473 PROFILE(isolate_, CodeCreateEvent(Logger::STORE_IC_TAG, *code, *name));
474 GDBJIT(AddCode(GDBJITInterface::STORE_IC, *name, *code));
475 JSObject::UpdateMapCodeCache(receiver, name, code);
476 return code;
477 }
478
479
ComputeStoreCallback(Handle<String> name,Handle<JSObject> receiver,Handle<AccessorInfo> callback,StrictModeFlag strict_mode)480 Handle<Code> StubCache::ComputeStoreCallback(Handle<String> name,
481 Handle<JSObject> receiver,
482 Handle<AccessorInfo> callback,
483 StrictModeFlag strict_mode) {
484 ASSERT(v8::ToCData<Address>(callback->setter()) != 0);
485 Code::Flags flags = Code::ComputeMonomorphicFlags(
486 Code::STORE_IC, CALLBACKS, strict_mode);
487 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
488 if (probe->IsCode()) return Handle<Code>::cast(probe);
489
490 StoreStubCompiler compiler(isolate_, strict_mode);
491 Handle<Code> code = compiler.CompileStoreCallback(receiver, callback, name);
492 PROFILE(isolate_, CodeCreateEvent(Logger::STORE_IC_TAG, *code, *name));
493 GDBJIT(AddCode(GDBJITInterface::STORE_IC, *name, *code));
494 JSObject::UpdateMapCodeCache(receiver, name, code);
495 return code;
496 }
497
498
ComputeStoreInterceptor(Handle<String> name,Handle<JSObject> receiver,StrictModeFlag strict_mode)499 Handle<Code> StubCache::ComputeStoreInterceptor(Handle<String> name,
500 Handle<JSObject> receiver,
501 StrictModeFlag strict_mode) {
502 Code::Flags flags = Code::ComputeMonomorphicFlags(
503 Code::STORE_IC, INTERCEPTOR, strict_mode);
504 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
505 if (probe->IsCode()) return Handle<Code>::cast(probe);
506
507 StoreStubCompiler compiler(isolate_, strict_mode);
508 Handle<Code> code = compiler.CompileStoreInterceptor(receiver, name);
509 PROFILE(isolate_, CodeCreateEvent(Logger::STORE_IC_TAG, *code, *name));
510 GDBJIT(AddCode(GDBJITInterface::STORE_IC, *name, *code));
511 JSObject::UpdateMapCodeCache(receiver, name, code);
512 return code;
513 }
514
ComputeKeyedStoreField(Handle<String> name,Handle<JSObject> receiver,int field_index,Handle<Map> transition,StrictModeFlag strict_mode)515 Handle<Code> StubCache::ComputeKeyedStoreField(Handle<String> name,
516 Handle<JSObject> receiver,
517 int field_index,
518 Handle<Map> transition,
519 StrictModeFlag strict_mode) {
520 PropertyType type = (transition.is_null()) ? FIELD : MAP_TRANSITION;
521 Code::Flags flags = Code::ComputeMonomorphicFlags(
522 Code::KEYED_STORE_IC, type, strict_mode);
523 Handle<Object> probe(receiver->map()->FindInCodeCache(*name, flags));
524 if (probe->IsCode()) return Handle<Code>::cast(probe);
525
526 KeyedStoreStubCompiler compiler(isolate(), strict_mode,
527 DO_NOT_ALLOW_JSARRAY_GROWTH);
528 Handle<Code> code =
529 compiler.CompileStoreField(receiver, field_index, transition, name);
530 PROFILE(isolate_, CodeCreateEvent(Logger::KEYED_STORE_IC_TAG, *code, *name));
531 GDBJIT(AddCode(GDBJITInterface::KEYED_STORE_IC, *name, *code));
532 JSObject::UpdateMapCodeCache(receiver, name, code);
533 return code;
534 }
535
536
537 #define CALL_LOGGER_TAG(kind, type) \
538 (kind == Code::CALL_IC ? Logger::type : Logger::KEYED_##type)
539
ComputeCallConstant(int argc,Code::Kind kind,Code::ExtraICState extra_state,Handle<String> name,Handle<Object> object,Handle<JSObject> holder,Handle<JSFunction> function)540 Handle<Code> StubCache::ComputeCallConstant(int argc,
541 Code::Kind kind,
542 Code::ExtraICState extra_state,
543 Handle<String> name,
544 Handle<Object> object,
545 Handle<JSObject> holder,
546 Handle<JSFunction> function) {
547 // Compute the check type and the map.
548 InlineCacheHolderFlag cache_holder =
549 IC::GetCodeCacheForObject(*object, *holder);
550 Handle<JSObject> map_holder(IC::GetCodeCacheHolder(*object, cache_holder));
551
552 // Compute check type based on receiver/holder.
553 CheckType check = RECEIVER_MAP_CHECK;
554 if (object->IsString()) {
555 check = STRING_CHECK;
556 } else if (object->IsNumber()) {
557 check = NUMBER_CHECK;
558 } else if (object->IsBoolean()) {
559 check = BOOLEAN_CHECK;
560 }
561
562 Code::Flags flags =
563 Code::ComputeMonomorphicFlags(kind, CONSTANT_FUNCTION, extra_state,
564 cache_holder, argc);
565 Handle<Object> probe(map_holder->map()->FindInCodeCache(*name, flags));
566 if (probe->IsCode()) return Handle<Code>::cast(probe);
567
568 CallStubCompiler compiler(isolate_, argc, kind, extra_state, cache_holder);
569 Handle<Code> code =
570 compiler.CompileCallConstant(object, holder, function, name, check);
571 code->set_check_type(check);
572 ASSERT_EQ(flags, code->flags());
573 PROFILE(isolate_,
574 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_IC_TAG), *code, *name));
575 GDBJIT(AddCode(GDBJITInterface::CALL_IC, *name, *code));
576 JSObject::UpdateMapCodeCache(map_holder, name, code);
577 return code;
578 }
579
580
ComputeCallField(int argc,Code::Kind kind,Code::ExtraICState extra_state,Handle<String> name,Handle<Object> object,Handle<JSObject> holder,int index)581 Handle<Code> StubCache::ComputeCallField(int argc,
582 Code::Kind kind,
583 Code::ExtraICState extra_state,
584 Handle<String> name,
585 Handle<Object> object,
586 Handle<JSObject> holder,
587 int index) {
588 // Compute the check type and the map.
589 InlineCacheHolderFlag cache_holder =
590 IC::GetCodeCacheForObject(*object, *holder);
591 Handle<JSObject> map_holder(IC::GetCodeCacheHolder(*object, cache_holder));
592
593 // TODO(1233596): We cannot do receiver map check for non-JS objects
594 // because they may be represented as immediates without a
595 // map. Instead, we check against the map in the holder.
596 if (object->IsNumber() || object->IsBoolean() || object->IsString()) {
597 object = holder;
598 }
599
600 Code::Flags flags =
601 Code::ComputeMonomorphicFlags(kind, FIELD, extra_state,
602 cache_holder, argc);
603 Handle<Object> probe(map_holder->map()->FindInCodeCache(*name, flags));
604 if (probe->IsCode()) return Handle<Code>::cast(probe);
605
606 CallStubCompiler compiler(isolate_, argc, kind, extra_state, cache_holder);
607 Handle<Code> code =
608 compiler.CompileCallField(Handle<JSObject>::cast(object),
609 holder, index, name);
610 ASSERT_EQ(flags, code->flags());
611 PROFILE(isolate_,
612 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_IC_TAG), *code, *name));
613 GDBJIT(AddCode(GDBJITInterface::CALL_IC, *name, *code));
614 JSObject::UpdateMapCodeCache(map_holder, name, code);
615 return code;
616 }
617
618
ComputeCallInterceptor(int argc,Code::Kind kind,Code::ExtraICState extra_state,Handle<String> name,Handle<Object> object,Handle<JSObject> holder)619 Handle<Code> StubCache::ComputeCallInterceptor(int argc,
620 Code::Kind kind,
621 Code::ExtraICState extra_state,
622 Handle<String> name,
623 Handle<Object> object,
624 Handle<JSObject> holder) {
625 // Compute the check type and the map.
626 InlineCacheHolderFlag cache_holder =
627 IC::GetCodeCacheForObject(*object, *holder);
628 Handle<JSObject> map_holder(IC::GetCodeCacheHolder(*object, cache_holder));
629
630 // TODO(1233596): We cannot do receiver map check for non-JS objects
631 // because they may be represented as immediates without a
632 // map. Instead, we check against the map in the holder.
633 if (object->IsNumber() || object->IsBoolean() || object->IsString()) {
634 object = holder;
635 }
636
637 Code::Flags flags =
638 Code::ComputeMonomorphicFlags(kind, INTERCEPTOR, extra_state,
639 cache_holder, argc);
640 Handle<Object> probe(map_holder->map()->FindInCodeCache(*name, flags));
641 if (probe->IsCode()) return Handle<Code>::cast(probe);
642
643 CallStubCompiler compiler(isolate(), argc, kind, extra_state, cache_holder);
644 Handle<Code> code =
645 compiler.CompileCallInterceptor(Handle<JSObject>::cast(object),
646 holder, name);
647 ASSERT_EQ(flags, code->flags());
648 PROFILE(isolate(),
649 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_IC_TAG), *code, *name));
650 GDBJIT(AddCode(GDBJITInterface::CALL_IC, *name, *code));
651 JSObject::UpdateMapCodeCache(map_holder, name, code);
652 return code;
653 }
654
655
ComputeCallGlobal(int argc,Code::Kind kind,Code::ExtraICState extra_state,Handle<String> name,Handle<JSObject> receiver,Handle<GlobalObject> holder,Handle<JSGlobalPropertyCell> cell,Handle<JSFunction> function)656 Handle<Code> StubCache::ComputeCallGlobal(int argc,
657 Code::Kind kind,
658 Code::ExtraICState extra_state,
659 Handle<String> name,
660 Handle<JSObject> receiver,
661 Handle<GlobalObject> holder,
662 Handle<JSGlobalPropertyCell> cell,
663 Handle<JSFunction> function) {
664 InlineCacheHolderFlag cache_holder =
665 IC::GetCodeCacheForObject(*receiver, *holder);
666 Handle<JSObject> map_holder(IC::GetCodeCacheHolder(*receiver, cache_holder));
667 Code::Flags flags =
668 Code::ComputeMonomorphicFlags(kind, NORMAL, extra_state,
669 cache_holder, argc);
670 Handle<Object> probe(map_holder->map()->FindInCodeCache(*name, flags));
671 if (probe->IsCode()) return Handle<Code>::cast(probe);
672
673 CallStubCompiler compiler(isolate(), argc, kind, extra_state, cache_holder);
674 Handle<Code> code =
675 compiler.CompileCallGlobal(receiver, holder, cell, function, name);
676 ASSERT_EQ(flags, code->flags());
677 PROFILE(isolate(),
678 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_IC_TAG), *code, *name));
679 GDBJIT(AddCode(GDBJITInterface::CALL_IC, *name, *code));
680 JSObject::UpdateMapCodeCache(map_holder, name, code);
681 return code;
682 }
683
684
FillCache(Isolate * isolate,Handle<Code> code)685 static void FillCache(Isolate* isolate, Handle<Code> code) {
686 Handle<UnseededNumberDictionary> dictionary =
687 UnseededNumberDictionary::Set(isolate->factory()->non_monomorphic_cache(),
688 code->flags(),
689 code);
690 isolate->heap()->public_set_non_monomorphic_cache(*dictionary);
691 }
692
693
FindCallInitialize(int argc,RelocInfo::Mode mode,Code::Kind kind)694 Code* StubCache::FindCallInitialize(int argc,
695 RelocInfo::Mode mode,
696 Code::Kind kind) {
697 Code::ExtraICState extra_state =
698 CallICBase::StringStubState::encode(DEFAULT_STRING_STUB) |
699 CallICBase::Contextual::encode(mode == RelocInfo::CODE_TARGET_CONTEXT);
700 Code::Flags flags =
701 Code::ComputeFlags(kind, UNINITIALIZED, extra_state, NORMAL, argc);
702
703 // Use raw_unchecked... so we don't get assert failures during GC.
704 UnseededNumberDictionary* dictionary =
705 isolate()->heap()->raw_unchecked_non_monomorphic_cache();
706 int entry = dictionary->FindEntry(isolate(), flags);
707 ASSERT(entry != -1);
708 Object* code = dictionary->ValueAt(entry);
709 // This might be called during the marking phase of the collector
710 // hence the unchecked cast.
711 return reinterpret_cast<Code*>(code);
712 }
713
714
ComputeCallInitialize(int argc,RelocInfo::Mode mode,Code::Kind kind)715 Handle<Code> StubCache::ComputeCallInitialize(int argc,
716 RelocInfo::Mode mode,
717 Code::Kind kind) {
718 Code::ExtraICState extra_state =
719 CallICBase::StringStubState::encode(DEFAULT_STRING_STUB) |
720 CallICBase::Contextual::encode(mode == RelocInfo::CODE_TARGET_CONTEXT);
721 Code::Flags flags =
722 Code::ComputeFlags(kind, UNINITIALIZED, extra_state, NORMAL, argc);
723 Handle<UnseededNumberDictionary> cache =
724 isolate_->factory()->non_monomorphic_cache();
725 int entry = cache->FindEntry(isolate_, flags);
726 if (entry != -1) return Handle<Code>(Code::cast(cache->ValueAt(entry)));
727
728 StubCompiler compiler(isolate_);
729 Handle<Code> code = compiler.CompileCallInitialize(flags);
730 FillCache(isolate_, code);
731 return code;
732 }
733
734
ComputeCallInitialize(int argc,RelocInfo::Mode mode)735 Handle<Code> StubCache::ComputeCallInitialize(int argc, RelocInfo::Mode mode) {
736 return ComputeCallInitialize(argc, mode, Code::CALL_IC);
737 }
738
739
ComputeKeyedCallInitialize(int argc)740 Handle<Code> StubCache::ComputeKeyedCallInitialize(int argc) {
741 return ComputeCallInitialize(argc, RelocInfo::CODE_TARGET,
742 Code::KEYED_CALL_IC);
743 }
744
745
ComputeCallPreMonomorphic(int argc,Code::Kind kind,Code::ExtraICState extra_state)746 Handle<Code> StubCache::ComputeCallPreMonomorphic(
747 int argc,
748 Code::Kind kind,
749 Code::ExtraICState extra_state) {
750 Code::Flags flags =
751 Code::ComputeFlags(kind, PREMONOMORPHIC, extra_state, NORMAL, argc);
752 Handle<UnseededNumberDictionary> cache =
753 isolate_->factory()->non_monomorphic_cache();
754 int entry = cache->FindEntry(isolate_, flags);
755 if (entry != -1) return Handle<Code>(Code::cast(cache->ValueAt(entry)));
756
757 StubCompiler compiler(isolate_);
758 Handle<Code> code = compiler.CompileCallPreMonomorphic(flags);
759 FillCache(isolate_, code);
760 return code;
761 }
762
763
ComputeCallNormal(int argc,Code::Kind kind,Code::ExtraICState extra_state)764 Handle<Code> StubCache::ComputeCallNormal(int argc,
765 Code::Kind kind,
766 Code::ExtraICState extra_state) {
767 Code::Flags flags =
768 Code::ComputeFlags(kind, MONOMORPHIC, extra_state, NORMAL, argc);
769 Handle<UnseededNumberDictionary> cache =
770 isolate_->factory()->non_monomorphic_cache();
771 int entry = cache->FindEntry(isolate_, flags);
772 if (entry != -1) return Handle<Code>(Code::cast(cache->ValueAt(entry)));
773
774 StubCompiler compiler(isolate_);
775 Handle<Code> code = compiler.CompileCallNormal(flags);
776 FillCache(isolate_, code);
777 return code;
778 }
779
780
ComputeCallArguments(int argc,Code::Kind kind)781 Handle<Code> StubCache::ComputeCallArguments(int argc, Code::Kind kind) {
782 ASSERT(kind == Code::KEYED_CALL_IC);
783 Code::Flags flags =
784 Code::ComputeFlags(kind, MEGAMORPHIC, Code::kNoExtraICState,
785 NORMAL, argc);
786 Handle<UnseededNumberDictionary> cache =
787 isolate_->factory()->non_monomorphic_cache();
788 int entry = cache->FindEntry(isolate_, flags);
789 if (entry != -1) return Handle<Code>(Code::cast(cache->ValueAt(entry)));
790
791 StubCompiler compiler(isolate_);
792 Handle<Code> code = compiler.CompileCallArguments(flags);
793 FillCache(isolate_, code);
794 return code;
795 }
796
797
ComputeCallMegamorphic(int argc,Code::Kind kind,Code::ExtraICState extra_state)798 Handle<Code> StubCache::ComputeCallMegamorphic(
799 int argc,
800 Code::Kind kind,
801 Code::ExtraICState extra_state) {
802 Code::Flags flags =
803 Code::ComputeFlags(kind, MEGAMORPHIC, extra_state,
804 NORMAL, argc);
805 Handle<UnseededNumberDictionary> cache =
806 isolate_->factory()->non_monomorphic_cache();
807 int entry = cache->FindEntry(isolate_, flags);
808 if (entry != -1) return Handle<Code>(Code::cast(cache->ValueAt(entry)));
809
810 StubCompiler compiler(isolate_);
811 Handle<Code> code = compiler.CompileCallMegamorphic(flags);
812 FillCache(isolate_, code);
813 return code;
814 }
815
816
ComputeCallMiss(int argc,Code::Kind kind,Code::ExtraICState extra_state)817 Handle<Code> StubCache::ComputeCallMiss(int argc,
818 Code::Kind kind,
819 Code::ExtraICState extra_state) {
820 // MONOMORPHIC_PROTOTYPE_FAILURE state is used to make sure that miss stubs
821 // and monomorphic stubs are not mixed up together in the stub cache.
822 Code::Flags flags =
823 Code::ComputeFlags(kind, MONOMORPHIC_PROTOTYPE_FAILURE, extra_state,
824 NORMAL, argc, OWN_MAP);
825 Handle<UnseededNumberDictionary> cache =
826 isolate_->factory()->non_monomorphic_cache();
827 int entry = cache->FindEntry(isolate_, flags);
828 if (entry != -1) return Handle<Code>(Code::cast(cache->ValueAt(entry)));
829
830 StubCompiler compiler(isolate_);
831 Handle<Code> code = compiler.CompileCallMiss(flags);
832 FillCache(isolate_, code);
833 return code;
834 }
835
836
837 #ifdef ENABLE_DEBUGGER_SUPPORT
ComputeCallDebugBreak(int argc,Code::Kind kind)838 Handle<Code> StubCache::ComputeCallDebugBreak(int argc,
839 Code::Kind kind) {
840 // Extra IC state is irrelevant for debug break ICs. They jump to
841 // the actual call ic to carry out the work.
842 Code::Flags flags =
843 Code::ComputeFlags(kind, DEBUG_BREAK, Code::kNoExtraICState,
844 NORMAL, argc);
845 Handle<UnseededNumberDictionary> cache =
846 isolate_->factory()->non_monomorphic_cache();
847 int entry = cache->FindEntry(isolate_, flags);
848 if (entry != -1) return Handle<Code>(Code::cast(cache->ValueAt(entry)));
849
850 StubCompiler compiler(isolate_);
851 Handle<Code> code = compiler.CompileCallDebugBreak(flags);
852 FillCache(isolate_, code);
853 return code;
854 }
855
856
ComputeCallDebugPrepareStepIn(int argc,Code::Kind kind)857 Handle<Code> StubCache::ComputeCallDebugPrepareStepIn(int argc,
858 Code::Kind kind) {
859 // Extra IC state is irrelevant for debug break ICs. They jump to
860 // the actual call ic to carry out the work.
861 Code::Flags flags =
862 Code::ComputeFlags(kind, DEBUG_PREPARE_STEP_IN, Code::kNoExtraICState,
863 NORMAL, argc);
864 Handle<UnseededNumberDictionary> cache =
865 isolate_->factory()->non_monomorphic_cache();
866 int entry = cache->FindEntry(isolate_, flags);
867 if (entry != -1) return Handle<Code>(Code::cast(cache->ValueAt(entry)));
868
869 StubCompiler compiler(isolate_);
870 Handle<Code> code = compiler.CompileCallDebugPrepareStepIn(flags);
871 FillCache(isolate_, code);
872 return code;
873 }
874 #endif
875
876
Clear()877 void StubCache::Clear() {
878 Code* empty = isolate_->builtins()->builtin(Builtins::kIllegal);
879 for (int i = 0; i < kPrimaryTableSize; i++) {
880 primary_[i].key = heap()->empty_string();
881 primary_[i].value = empty;
882 }
883 for (int j = 0; j < kSecondaryTableSize; j++) {
884 secondary_[j].key = heap()->empty_string();
885 secondary_[j].value = empty;
886 }
887 }
888
889
CollectMatchingMaps(SmallMapList * types,String * name,Code::Flags flags,Handle<Context> global_context)890 void StubCache::CollectMatchingMaps(SmallMapList* types,
891 String* name,
892 Code::Flags flags,
893 Handle<Context> global_context) {
894 for (int i = 0; i < kPrimaryTableSize; i++) {
895 if (primary_[i].key == name) {
896 Map* map = primary_[i].value->FindFirstMap();
897 // Map can be NULL, if the stub is constant function call
898 // with a primitive receiver.
899 if (map == NULL) continue;
900
901 int offset = PrimaryOffset(name, flags, map);
902 if (entry(primary_, offset) == &primary_[i] &&
903 !TypeFeedbackOracle::CanRetainOtherContext(map, *global_context)) {
904 types->Add(Handle<Map>(map));
905 }
906 }
907 }
908
909 for (int i = 0; i < kSecondaryTableSize; i++) {
910 if (secondary_[i].key == name) {
911 Map* map = secondary_[i].value->FindFirstMap();
912 // Map can be NULL, if the stub is constant function call
913 // with a primitive receiver.
914 if (map == NULL) continue;
915
916 // Lookup in primary table and skip duplicates.
917 int primary_offset = PrimaryOffset(name, flags, map);
918 Entry* primary_entry = entry(primary_, primary_offset);
919 if (primary_entry->key == name) {
920 Map* primary_map = primary_entry->value->FindFirstMap();
921 if (map == primary_map) continue;
922 }
923
924 // Lookup in secondary table and add matches.
925 int offset = SecondaryOffset(name, flags, primary_offset);
926 if (entry(secondary_, offset) == &secondary_[i] &&
927 !TypeFeedbackOracle::CanRetainOtherContext(map, *global_context)) {
928 types->Add(Handle<Map>(map));
929 }
930 }
931 }
932 }
933
934
935 // ------------------------------------------------------------------------
936 // StubCompiler implementation.
937
938
RUNTIME_FUNCTION(MaybeObject *,LoadCallbackProperty)939 RUNTIME_FUNCTION(MaybeObject*, LoadCallbackProperty) {
940 ASSERT(args[0]->IsJSObject());
941 ASSERT(args[1]->IsJSObject());
942 AccessorInfo* callback = AccessorInfo::cast(args[3]);
943 Address getter_address = v8::ToCData<Address>(callback->getter());
944 v8::AccessorGetter fun = FUNCTION_CAST<v8::AccessorGetter>(getter_address);
945 ASSERT(fun != NULL);
946 v8::AccessorInfo info(&args[0]);
947 HandleScope scope(isolate);
948 v8::Handle<v8::Value> result;
949 {
950 // Leaving JavaScript.
951 VMState state(isolate, EXTERNAL);
952 ExternalCallbackScope call_scope(isolate, getter_address);
953 result = fun(v8::Utils::ToLocal(args.at<String>(4)), info);
954 }
955 RETURN_IF_SCHEDULED_EXCEPTION(isolate);
956 if (result.IsEmpty()) return HEAP->undefined_value();
957 return *v8::Utils::OpenHandle(*result);
958 }
959
960
RUNTIME_FUNCTION(MaybeObject *,StoreCallbackProperty)961 RUNTIME_FUNCTION(MaybeObject*, StoreCallbackProperty) {
962 JSObject* recv = JSObject::cast(args[0]);
963 AccessorInfo* callback = AccessorInfo::cast(args[1]);
964 Address setter_address = v8::ToCData<Address>(callback->setter());
965 v8::AccessorSetter fun = FUNCTION_CAST<v8::AccessorSetter>(setter_address);
966 ASSERT(fun != NULL);
967 Handle<String> name = args.at<String>(2);
968 Handle<Object> value = args.at<Object>(3);
969 HandleScope scope(isolate);
970 LOG(isolate, ApiNamedPropertyAccess("store", recv, *name));
971 CustomArguments custom_args(isolate, callback->data(), recv, recv);
972 v8::AccessorInfo info(custom_args.end());
973 {
974 // Leaving JavaScript.
975 VMState state(isolate, EXTERNAL);
976 ExternalCallbackScope call_scope(isolate, setter_address);
977 fun(v8::Utils::ToLocal(name), v8::Utils::ToLocal(value), info);
978 }
979 RETURN_IF_SCHEDULED_EXCEPTION(isolate);
980 return *value;
981 }
982
983
984 static const int kAccessorInfoOffsetInInterceptorArgs = 2;
985
986
987 /**
988 * Attempts to load a property with an interceptor (which must be present),
989 * but doesn't search the prototype chain.
990 *
991 * Returns |Heap::no_interceptor_result_sentinel()| if interceptor doesn't
992 * provide any value for the given name.
993 */
RUNTIME_FUNCTION(MaybeObject *,LoadPropertyWithInterceptorOnly)994 RUNTIME_FUNCTION(MaybeObject*, LoadPropertyWithInterceptorOnly) {
995 Handle<String> name_handle = args.at<String>(0);
996 Handle<InterceptorInfo> interceptor_info = args.at<InterceptorInfo>(1);
997 ASSERT(kAccessorInfoOffsetInInterceptorArgs == 2);
998 ASSERT(args[2]->IsJSObject()); // Receiver.
999 ASSERT(args[3]->IsJSObject()); // Holder.
1000 ASSERT(args.length() == 5); // Last arg is data object.
1001
1002 Address getter_address = v8::ToCData<Address>(interceptor_info->getter());
1003 v8::NamedPropertyGetter getter =
1004 FUNCTION_CAST<v8::NamedPropertyGetter>(getter_address);
1005 ASSERT(getter != NULL);
1006
1007 {
1008 // Use the interceptor getter.
1009 v8::AccessorInfo info(args.arguments() -
1010 kAccessorInfoOffsetInInterceptorArgs);
1011 HandleScope scope(isolate);
1012 v8::Handle<v8::Value> r;
1013 {
1014 // Leaving JavaScript.
1015 VMState state(isolate, EXTERNAL);
1016 r = getter(v8::Utils::ToLocal(name_handle), info);
1017 }
1018 RETURN_IF_SCHEDULED_EXCEPTION(isolate);
1019 if (!r.IsEmpty()) {
1020 return *v8::Utils::OpenHandle(*r);
1021 }
1022 }
1023
1024 return isolate->heap()->no_interceptor_result_sentinel();
1025 }
1026
1027
ThrowReferenceError(String * name)1028 static MaybeObject* ThrowReferenceError(String* name) {
1029 // If the load is non-contextual, just return the undefined result.
1030 // Note that both keyed and non-keyed loads may end up here, so we
1031 // can't use either LoadIC or KeyedLoadIC constructors.
1032 IC ic(IC::NO_EXTRA_FRAME, Isolate::Current());
1033 ASSERT(ic.target()->is_load_stub() || ic.target()->is_keyed_load_stub());
1034 if (!ic.SlowIsContextual()) return HEAP->undefined_value();
1035
1036 // Throw a reference error.
1037 HandleScope scope;
1038 Handle<String> name_handle(name);
1039 Handle<Object> error =
1040 FACTORY->NewReferenceError("not_defined",
1041 HandleVector(&name_handle, 1));
1042 return Isolate::Current()->Throw(*error);
1043 }
1044
1045
LoadWithInterceptor(Arguments * args,PropertyAttributes * attrs)1046 static MaybeObject* LoadWithInterceptor(Arguments* args,
1047 PropertyAttributes* attrs) {
1048 Handle<String> name_handle = args->at<String>(0);
1049 Handle<InterceptorInfo> interceptor_info = args->at<InterceptorInfo>(1);
1050 ASSERT(kAccessorInfoOffsetInInterceptorArgs == 2);
1051 Handle<JSObject> receiver_handle = args->at<JSObject>(2);
1052 Handle<JSObject> holder_handle = args->at<JSObject>(3);
1053 ASSERT(args->length() == 5); // Last arg is data object.
1054
1055 Isolate* isolate = receiver_handle->GetIsolate();
1056
1057 Address getter_address = v8::ToCData<Address>(interceptor_info->getter());
1058 v8::NamedPropertyGetter getter =
1059 FUNCTION_CAST<v8::NamedPropertyGetter>(getter_address);
1060 ASSERT(getter != NULL);
1061
1062 {
1063 // Use the interceptor getter.
1064 v8::AccessorInfo info(args->arguments() -
1065 kAccessorInfoOffsetInInterceptorArgs);
1066 HandleScope scope(isolate);
1067 v8::Handle<v8::Value> r;
1068 {
1069 // Leaving JavaScript.
1070 VMState state(isolate, EXTERNAL);
1071 r = getter(v8::Utils::ToLocal(name_handle), info);
1072 }
1073 RETURN_IF_SCHEDULED_EXCEPTION(isolate);
1074 if (!r.IsEmpty()) {
1075 *attrs = NONE;
1076 return *v8::Utils::OpenHandle(*r);
1077 }
1078 }
1079
1080 MaybeObject* result = holder_handle->GetPropertyPostInterceptor(
1081 *receiver_handle,
1082 *name_handle,
1083 attrs);
1084 RETURN_IF_SCHEDULED_EXCEPTION(isolate);
1085 return result;
1086 }
1087
1088
1089 /**
1090 * Loads a property with an interceptor performing post interceptor
1091 * lookup if interceptor failed.
1092 */
RUNTIME_FUNCTION(MaybeObject *,LoadPropertyWithInterceptorForLoad)1093 RUNTIME_FUNCTION(MaybeObject*, LoadPropertyWithInterceptorForLoad) {
1094 PropertyAttributes attr = NONE;
1095 Object* result;
1096 { MaybeObject* maybe_result = LoadWithInterceptor(&args, &attr);
1097 if (!maybe_result->ToObject(&result)) return maybe_result;
1098 }
1099
1100 // If the property is present, return it.
1101 if (attr != ABSENT) return result;
1102 return ThrowReferenceError(String::cast(args[0]));
1103 }
1104
1105
RUNTIME_FUNCTION(MaybeObject *,LoadPropertyWithInterceptorForCall)1106 RUNTIME_FUNCTION(MaybeObject*, LoadPropertyWithInterceptorForCall) {
1107 PropertyAttributes attr;
1108 MaybeObject* result = LoadWithInterceptor(&args, &attr);
1109 RETURN_IF_SCHEDULED_EXCEPTION(isolate);
1110 // This is call IC. In this case, we simply return the undefined result which
1111 // will lead to an exception when trying to invoke the result as a
1112 // function.
1113 return result;
1114 }
1115
1116
RUNTIME_FUNCTION(MaybeObject *,StoreInterceptorProperty)1117 RUNTIME_FUNCTION(MaybeObject*, StoreInterceptorProperty) {
1118 ASSERT(args.length() == 4);
1119 JSObject* recv = JSObject::cast(args[0]);
1120 String* name = String::cast(args[1]);
1121 Object* value = args[2];
1122 ASSERT(args.smi_at(3) == kStrictMode || args.smi_at(3) == kNonStrictMode);
1123 StrictModeFlag strict_mode = static_cast<StrictModeFlag>(args.smi_at(3));
1124 ASSERT(recv->HasNamedInterceptor());
1125 PropertyAttributes attr = NONE;
1126 MaybeObject* result = recv->SetPropertyWithInterceptor(
1127 name, value, attr, strict_mode);
1128 return result;
1129 }
1130
1131
RUNTIME_FUNCTION(MaybeObject *,KeyedLoadPropertyWithInterceptor)1132 RUNTIME_FUNCTION(MaybeObject*, KeyedLoadPropertyWithInterceptor) {
1133 JSObject* receiver = JSObject::cast(args[0]);
1134 ASSERT(args.smi_at(1) >= 0);
1135 uint32_t index = args.smi_at(1);
1136 return receiver->GetElementWithInterceptor(receiver, index);
1137 }
1138
1139
CompileCallInitialize(Code::Flags flags)1140 Handle<Code> StubCompiler::CompileCallInitialize(Code::Flags flags) {
1141 int argc = Code::ExtractArgumentsCountFromFlags(flags);
1142 Code::Kind kind = Code::ExtractKindFromFlags(flags);
1143 Code::ExtraICState extra_state = Code::ExtractExtraICStateFromFlags(flags);
1144 if (kind == Code::CALL_IC) {
1145 CallIC::GenerateInitialize(masm(), argc, extra_state);
1146 } else {
1147 KeyedCallIC::GenerateInitialize(masm(), argc);
1148 }
1149 Handle<Code> code = GetCodeWithFlags(flags, "CompileCallInitialize");
1150 isolate()->counters()->call_initialize_stubs()->Increment();
1151 PROFILE(isolate(),
1152 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_INITIALIZE_TAG),
1153 *code, code->arguments_count()));
1154 GDBJIT(AddCode(GDBJITInterface::CALL_INITIALIZE, *code));
1155 return code;
1156 }
1157
1158
CompileCallPreMonomorphic(Code::Flags flags)1159 Handle<Code> StubCompiler::CompileCallPreMonomorphic(Code::Flags flags) {
1160 int argc = Code::ExtractArgumentsCountFromFlags(flags);
1161 // The code of the PreMonomorphic stub is the same as the code
1162 // of the Initialized stub. They just differ on the code object flags.
1163 Code::Kind kind = Code::ExtractKindFromFlags(flags);
1164 Code::ExtraICState extra_state = Code::ExtractExtraICStateFromFlags(flags);
1165 if (kind == Code::CALL_IC) {
1166 CallIC::GenerateInitialize(masm(), argc, extra_state);
1167 } else {
1168 KeyedCallIC::GenerateInitialize(masm(), argc);
1169 }
1170 Handle<Code> code = GetCodeWithFlags(flags, "CompileCallPreMonomorphic");
1171 isolate()->counters()->call_premonomorphic_stubs()->Increment();
1172 PROFILE(isolate(),
1173 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_PRE_MONOMORPHIC_TAG),
1174 *code, code->arguments_count()));
1175 GDBJIT(AddCode(GDBJITInterface::CALL_PRE_MONOMORPHIC, *code));
1176 return code;
1177 }
1178
1179
CompileCallNormal(Code::Flags flags)1180 Handle<Code> StubCompiler::CompileCallNormal(Code::Flags flags) {
1181 int argc = Code::ExtractArgumentsCountFromFlags(flags);
1182 Code::Kind kind = Code::ExtractKindFromFlags(flags);
1183 if (kind == Code::CALL_IC) {
1184 // Call normal is always with a explict receiver.
1185 ASSERT(!CallIC::Contextual::decode(
1186 Code::ExtractExtraICStateFromFlags(flags)));
1187 CallIC::GenerateNormal(masm(), argc);
1188 } else {
1189 KeyedCallIC::GenerateNormal(masm(), argc);
1190 }
1191 Handle<Code> code = GetCodeWithFlags(flags, "CompileCallNormal");
1192 isolate()->counters()->call_normal_stubs()->Increment();
1193 PROFILE(isolate(),
1194 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_NORMAL_TAG),
1195 *code, code->arguments_count()));
1196 GDBJIT(AddCode(GDBJITInterface::CALL_NORMAL, *code));
1197 return code;
1198 }
1199
1200
CompileCallMegamorphic(Code::Flags flags)1201 Handle<Code> StubCompiler::CompileCallMegamorphic(Code::Flags flags) {
1202 int argc = Code::ExtractArgumentsCountFromFlags(flags);
1203 Code::Kind kind = Code::ExtractKindFromFlags(flags);
1204 Code::ExtraICState extra_state = Code::ExtractExtraICStateFromFlags(flags);
1205 if (kind == Code::CALL_IC) {
1206 CallIC::GenerateMegamorphic(masm(), argc, extra_state);
1207 } else {
1208 KeyedCallIC::GenerateMegamorphic(masm(), argc);
1209 }
1210 Handle<Code> code = GetCodeWithFlags(flags, "CompileCallMegamorphic");
1211 isolate()->counters()->call_megamorphic_stubs()->Increment();
1212 PROFILE(isolate(),
1213 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_MEGAMORPHIC_TAG),
1214 *code, code->arguments_count()));
1215 GDBJIT(AddCode(GDBJITInterface::CALL_MEGAMORPHIC, *code));
1216 return code;
1217 }
1218
1219
CompileCallArguments(Code::Flags flags)1220 Handle<Code> StubCompiler::CompileCallArguments(Code::Flags flags) {
1221 int argc = Code::ExtractArgumentsCountFromFlags(flags);
1222 KeyedCallIC::GenerateNonStrictArguments(masm(), argc);
1223 Handle<Code> code = GetCodeWithFlags(flags, "CompileCallArguments");
1224 PROFILE(isolate(),
1225 CodeCreateEvent(CALL_LOGGER_TAG(Code::ExtractKindFromFlags(flags),
1226 CALL_MEGAMORPHIC_TAG),
1227 *code, code->arguments_count()));
1228 GDBJIT(AddCode(GDBJITInterface::CALL_MEGAMORPHIC, *code));
1229 return code;
1230 }
1231
1232
CompileCallMiss(Code::Flags flags)1233 Handle<Code> StubCompiler::CompileCallMiss(Code::Flags flags) {
1234 int argc = Code::ExtractArgumentsCountFromFlags(flags);
1235 Code::Kind kind = Code::ExtractKindFromFlags(flags);
1236 Code::ExtraICState extra_state = Code::ExtractExtraICStateFromFlags(flags);
1237 if (kind == Code::CALL_IC) {
1238 CallIC::GenerateMiss(masm(), argc, extra_state);
1239 } else {
1240 KeyedCallIC::GenerateMiss(masm(), argc);
1241 }
1242 Handle<Code> code = GetCodeWithFlags(flags, "CompileCallMiss");
1243 isolate()->counters()->call_megamorphic_stubs()->Increment();
1244 PROFILE(isolate(),
1245 CodeCreateEvent(CALL_LOGGER_TAG(kind, CALL_MISS_TAG),
1246 *code, code->arguments_count()));
1247 GDBJIT(AddCode(GDBJITInterface::CALL_MISS, *code));
1248 return code;
1249 }
1250
1251
1252 #ifdef ENABLE_DEBUGGER_SUPPORT
CompileCallDebugBreak(Code::Flags flags)1253 Handle<Code> StubCompiler::CompileCallDebugBreak(Code::Flags flags) {
1254 Debug::GenerateCallICDebugBreak(masm());
1255 Handle<Code> code = GetCodeWithFlags(flags, "CompileCallDebugBreak");
1256 PROFILE(isolate(),
1257 CodeCreateEvent(CALL_LOGGER_TAG(Code::ExtractKindFromFlags(flags),
1258 CALL_DEBUG_BREAK_TAG),
1259 *code, code->arguments_count()));
1260 return code;
1261 }
1262
1263
CompileCallDebugPrepareStepIn(Code::Flags flags)1264 Handle<Code> StubCompiler::CompileCallDebugPrepareStepIn(Code::Flags flags) {
1265 // Use the same code for the the step in preparations as we do for the
1266 // miss case.
1267 int argc = Code::ExtractArgumentsCountFromFlags(flags);
1268 Code::Kind kind = Code::ExtractKindFromFlags(flags);
1269 if (kind == Code::CALL_IC) {
1270 // For the debugger extra ic state is irrelevant.
1271 CallIC::GenerateMiss(masm(), argc, Code::kNoExtraICState);
1272 } else {
1273 KeyedCallIC::GenerateMiss(masm(), argc);
1274 }
1275 Handle<Code> code = GetCodeWithFlags(flags, "CompileCallDebugPrepareStepIn");
1276 PROFILE(isolate(),
1277 CodeCreateEvent(
1278 CALL_LOGGER_TAG(kind, CALL_DEBUG_PREPARE_STEP_IN_TAG),
1279 *code,
1280 code->arguments_count()));
1281 return code;
1282 }
1283 #endif // ENABLE_DEBUGGER_SUPPORT
1284
1285 #undef CALL_LOGGER_TAG
1286
1287
GetCodeWithFlags(Code::Flags flags,const char * name)1288 Handle<Code> StubCompiler::GetCodeWithFlags(Code::Flags flags,
1289 const char* name) {
1290 // Create code object in the heap.
1291 CodeDesc desc;
1292 masm_.GetCode(&desc);
1293 Handle<Code> code = factory()->NewCode(desc, flags, masm_.CodeObject());
1294 #ifdef ENABLE_DISASSEMBLER
1295 if (FLAG_print_code_stubs) code->Disassemble(name);
1296 #endif
1297 return code;
1298 }
1299
1300
GetCodeWithFlags(Code::Flags flags,Handle<String> name)1301 Handle<Code> StubCompiler::GetCodeWithFlags(Code::Flags flags,
1302 Handle<String> name) {
1303 return (FLAG_print_code_stubs && !name.is_null())
1304 ? GetCodeWithFlags(flags, *name->ToCString())
1305 : GetCodeWithFlags(flags, reinterpret_cast<char*>(NULL));
1306 }
1307
1308
LookupPostInterceptor(Handle<JSObject> holder,Handle<String> name,LookupResult * lookup)1309 void StubCompiler::LookupPostInterceptor(Handle<JSObject> holder,
1310 Handle<String> name,
1311 LookupResult* lookup) {
1312 holder->LocalLookupRealNamedProperty(*name, lookup);
1313 if (lookup->IsProperty()) return;
1314
1315 lookup->NotFound();
1316 if (holder->GetPrototype()->IsNull()) return;
1317
1318 holder->GetPrototype()->Lookup(*name, lookup);
1319 }
1320
1321
GetCode(PropertyType type,Handle<String> name)1322 Handle<Code> LoadStubCompiler::GetCode(PropertyType type, Handle<String> name) {
1323 Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, type);
1324 Handle<Code> code = GetCodeWithFlags(flags, name);
1325 PROFILE(isolate(), CodeCreateEvent(Logger::LOAD_IC_TAG, *code, *name));
1326 GDBJIT(AddCode(GDBJITInterface::LOAD_IC, *name, *code));
1327 return code;
1328 }
1329
1330
GetCode(PropertyType type,Handle<String> name,InlineCacheState state)1331 Handle<Code> KeyedLoadStubCompiler::GetCode(PropertyType type,
1332 Handle<String> name,
1333 InlineCacheState state) {
1334 Code::Flags flags = Code::ComputeFlags(
1335 Code::KEYED_LOAD_IC, state, Code::kNoExtraICState, type);
1336 Handle<Code> code = GetCodeWithFlags(flags, name);
1337 PROFILE(isolate(), CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, *code, *name));
1338 GDBJIT(AddCode(GDBJITInterface::LOAD_IC, *name, *code));
1339 return code;
1340 }
1341
1342
GetCode(PropertyType type,Handle<String> name)1343 Handle<Code> StoreStubCompiler::GetCode(PropertyType type,
1344 Handle<String> name) {
1345 Code::Flags flags =
1346 Code::ComputeMonomorphicFlags(Code::STORE_IC, type, strict_mode_);
1347 Handle<Code> code = GetCodeWithFlags(flags, name);
1348 PROFILE(isolate(), CodeCreateEvent(Logger::STORE_IC_TAG, *code, *name));
1349 GDBJIT(AddCode(GDBJITInterface::STORE_IC, *name, *code));
1350 return code;
1351 }
1352
1353
GetCode(PropertyType type,Handle<String> name,InlineCacheState state)1354 Handle<Code> KeyedStoreStubCompiler::GetCode(PropertyType type,
1355 Handle<String> name,
1356 InlineCacheState state) {
1357 Code::ExtraICState extra_state =
1358 Code::ComputeExtraICState(grow_mode_, strict_mode_);
1359 Code::Flags flags =
1360 Code::ComputeFlags(Code::KEYED_STORE_IC, state, extra_state, type);
1361 Handle<Code> code = GetCodeWithFlags(flags, name);
1362 PROFILE(isolate(), CodeCreateEvent(Logger::KEYED_STORE_IC_TAG, *code, *name));
1363 GDBJIT(AddCode(GDBJITInterface::KEYED_STORE_IC, *name, *code));
1364 return code;
1365 }
1366
1367
GenerateStoreDictionaryElement(MacroAssembler * masm)1368 void KeyedStoreStubCompiler::GenerateStoreDictionaryElement(
1369 MacroAssembler* masm) {
1370 KeyedStoreIC::GenerateSlow(masm);
1371 }
1372
1373
CallStubCompiler(Isolate * isolate,int argc,Code::Kind kind,Code::ExtraICState extra_state,InlineCacheHolderFlag cache_holder)1374 CallStubCompiler::CallStubCompiler(Isolate* isolate,
1375 int argc,
1376 Code::Kind kind,
1377 Code::ExtraICState extra_state,
1378 InlineCacheHolderFlag cache_holder)
1379 : StubCompiler(isolate),
1380 arguments_(argc),
1381 kind_(kind),
1382 extra_state_(extra_state),
1383 cache_holder_(cache_holder) {
1384 }
1385
1386
HasCustomCallGenerator(Handle<JSFunction> function)1387 bool CallStubCompiler::HasCustomCallGenerator(Handle<JSFunction> function) {
1388 if (function->shared()->HasBuiltinFunctionId()) {
1389 BuiltinFunctionId id = function->shared()->builtin_function_id();
1390 #define CALL_GENERATOR_CASE(name) if (id == k##name) return true;
1391 CUSTOM_CALL_IC_GENERATORS(CALL_GENERATOR_CASE)
1392 #undef CALL_GENERATOR_CASE
1393 }
1394
1395 CallOptimization optimization(function);
1396 return optimization.is_simple_api_call();
1397 }
1398
1399
CompileCustomCall(Handle<Object> object,Handle<JSObject> holder,Handle<JSGlobalPropertyCell> cell,Handle<JSFunction> function,Handle<String> fname)1400 Handle<Code> CallStubCompiler::CompileCustomCall(
1401 Handle<Object> object,
1402 Handle<JSObject> holder,
1403 Handle<JSGlobalPropertyCell> cell,
1404 Handle<JSFunction> function,
1405 Handle<String> fname) {
1406 ASSERT(HasCustomCallGenerator(function));
1407
1408 if (function->shared()->HasBuiltinFunctionId()) {
1409 BuiltinFunctionId id = function->shared()->builtin_function_id();
1410 #define CALL_GENERATOR_CASE(name) \
1411 if (id == k##name) { \
1412 return CallStubCompiler::Compile##name##Call(object, \
1413 holder, \
1414 cell, \
1415 function, \
1416 fname); \
1417 }
1418 CUSTOM_CALL_IC_GENERATORS(CALL_GENERATOR_CASE)
1419 #undef CALL_GENERATOR_CASE
1420 }
1421 CallOptimization optimization(function);
1422 ASSERT(optimization.is_simple_api_call());
1423 return CompileFastApiCall(optimization,
1424 object,
1425 holder,
1426 cell,
1427 function,
1428 fname);
1429 }
1430
1431
GetCode(PropertyType type,Handle<String> name)1432 Handle<Code> CallStubCompiler::GetCode(PropertyType type, Handle<String> name) {
1433 int argc = arguments_.immediate();
1434 Code::Flags flags = Code::ComputeMonomorphicFlags(kind_,
1435 type,
1436 extra_state_,
1437 cache_holder_,
1438 argc);
1439 return GetCodeWithFlags(flags, name);
1440 }
1441
1442
GetCode(Handle<JSFunction> function)1443 Handle<Code> CallStubCompiler::GetCode(Handle<JSFunction> function) {
1444 Handle<String> function_name;
1445 if (function->shared()->name()->IsString()) {
1446 function_name = Handle<String>(String::cast(function->shared()->name()));
1447 }
1448 return GetCode(CONSTANT_FUNCTION, function_name);
1449 }
1450
1451
GetCode()1452 Handle<Code> ConstructStubCompiler::GetCode() {
1453 Code::Flags flags = Code::ComputeFlags(Code::STUB);
1454 Handle<Code> code = GetCodeWithFlags(flags, "ConstructStub");
1455 PROFILE(isolate(), CodeCreateEvent(Logger::STUB_TAG, *code, "ConstructStub"));
1456 GDBJIT(AddCode(GDBJITInterface::STUB, "ConstructStub", *code));
1457 return code;
1458 }
1459
1460
CallOptimization(LookupResult * lookup)1461 CallOptimization::CallOptimization(LookupResult* lookup) {
1462 if (lookup->IsFound() &&
1463 lookup->IsCacheable() &&
1464 lookup->type() == CONSTANT_FUNCTION) {
1465 // We only optimize constant function calls.
1466 Initialize(Handle<JSFunction>(lookup->GetConstantFunction()));
1467 } else {
1468 Initialize(Handle<JSFunction>::null());
1469 }
1470 }
1471
CallOptimization(Handle<JSFunction> function)1472 CallOptimization::CallOptimization(Handle<JSFunction> function) {
1473 Initialize(function);
1474 }
1475
1476
GetPrototypeDepthOfExpectedType(Handle<JSObject> object,Handle<JSObject> holder) const1477 int CallOptimization::GetPrototypeDepthOfExpectedType(
1478 Handle<JSObject> object,
1479 Handle<JSObject> holder) const {
1480 ASSERT(is_simple_api_call());
1481 if (expected_receiver_type_.is_null()) return 0;
1482 int depth = 0;
1483 while (!object.is_identical_to(holder)) {
1484 if (object->IsInstanceOf(*expected_receiver_type_)) return depth;
1485 object = Handle<JSObject>(JSObject::cast(object->GetPrototype()));
1486 ++depth;
1487 }
1488 if (holder->IsInstanceOf(*expected_receiver_type_)) return depth;
1489 return kInvalidProtoDepth;
1490 }
1491
1492
Initialize(Handle<JSFunction> function)1493 void CallOptimization::Initialize(Handle<JSFunction> function) {
1494 constant_function_ = Handle<JSFunction>::null();
1495 is_simple_api_call_ = false;
1496 expected_receiver_type_ = Handle<FunctionTemplateInfo>::null();
1497 api_call_info_ = Handle<CallHandlerInfo>::null();
1498
1499 if (function.is_null() || !function->is_compiled()) return;
1500
1501 constant_function_ = function;
1502 AnalyzePossibleApiFunction(function);
1503 }
1504
1505
AnalyzePossibleApiFunction(Handle<JSFunction> function)1506 void CallOptimization::AnalyzePossibleApiFunction(Handle<JSFunction> function) {
1507 if (!function->shared()->IsApiFunction()) return;
1508 Handle<FunctionTemplateInfo> info(function->shared()->get_api_func_data());
1509
1510 // Require a C++ callback.
1511 if (info->call_code()->IsUndefined()) return;
1512 api_call_info_ =
1513 Handle<CallHandlerInfo>(CallHandlerInfo::cast(info->call_code()));
1514
1515 // Accept signatures that either have no restrictions at all or
1516 // only have restrictions on the receiver.
1517 if (!info->signature()->IsUndefined()) {
1518 Handle<SignatureInfo> signature =
1519 Handle<SignatureInfo>(SignatureInfo::cast(info->signature()));
1520 if (!signature->args()->IsUndefined()) return;
1521 if (!signature->receiver()->IsUndefined()) {
1522 expected_receiver_type_ =
1523 Handle<FunctionTemplateInfo>(
1524 FunctionTemplateInfo::cast(signature->receiver()));
1525 }
1526 }
1527
1528 is_simple_api_call_ = true;
1529 }
1530
1531
1532 } } // namespace v8::internal
1533