src/arm/stub-cache-arm.cc - Issue 6894003: Better support for 'polymorphic' JS and external arrays

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Issue 6894003: Better support for 'polymorphic' JS and external arrays (Closed) Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge

Patch Set: merge with latest Created 9 years, 7 months ago

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1 // Copyright 2011 the V8 project authors. All rights reserved.	1 // Copyright 2011 the V8 project authors. All rights reserved.

2 // Redistribution and use in source and binary forms, with or without	2 // Redistribution and use in source and binary forms, with or without

3 // modification, are permitted provided that the following conditions are	3 // modification, are permitted provided that the following conditions are

4 // met:	4 // met:

5 //	5 //

6 // * Redistributions of source code must retain the above copyright	6 // * Redistributions of source code must retain the above copyright

7 // notice, this list of conditions and the following disclaimer.	7 // notice, this list of conditions and the following disclaimer.

8 // * Redistributions in binary form must reproduce the above	8 // * Redistributions in binary form must reproduce the above

9 // copyright notice, this list of conditions and the following	9 // copyright notice, this list of conditions and the following

10 // disclaimer in the documentation and/or other materials provided	10 // disclaimer in the documentation and/or other materials provided

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3077	3077

3078 GenerateLoadFunctionPrototype(masm(), r1, r2, r3, &miss);	3078 GenerateLoadFunctionPrototype(masm(), r1, r2, r3, &miss);

3079 __ bind(&miss);	3079 __ bind(&miss);

3080 __ DecrementCounter(counters->keyed_load_function_prototype(), 1, r2, r3);	3080 __ DecrementCounter(counters->keyed_load_function_prototype(), 1, r2, r3);

3081 GenerateLoadMiss(masm(), Code::KEYED_LOAD_IC);	3081 GenerateLoadMiss(masm(), Code::KEYED_LOAD_IC);

3082	3082

3083 return GetCode(CALLBACKS, name);	3083 return GetCode(CALLBACKS, name);

3084 }	3084 }

3085	3085

3086	3086

3087 MaybeObject* KeyedLoadStubCompiler::CompileLoadSpecialized(JSObject* receiver) {	3087 MaybeObject* KeyedLoadStubCompiler::CompileLoadFastElement(Map* receiver_map) {

	3088 // ----------- S t a t e -------------

	3089 // -- lr : return address

	3090 // -- r0 : key

	3091 // -- r1 : receiver

	3092 // -----------------------------------

	3093 KeyedLoadIC keyed_load_ic(isolate());
	Mads Ager (chromium) 2011/05/10 13:38:06 Isn't this called from a KeyedLoadIC instance? Can Isn't this called from a KeyedLoadIC instance? Can't we pass in the other stub to the generation instead? I find it a little strange to create a KeyedLoadIC instance here. danno 2011/05/11 14:20:19 Done. Show quoted text On 2011/05/10 13:38:06, Mads Ager wrote: > Isn't this called from a KeyedLoadIC instance? Can't we pass in the other stub > to the generation instead? I find it a little strange to create a KeyedLoadIC > instance here. Done.
	3094 MaybeObject* maybe_stub =

	3095 keyed_load_ic.ComputeMonomorphicBuiltinFastElementStub(
	Mads Ager (chromium) 2011/05/10 13:38:06 Are any of these stubs actually builtin? This is t Are any of these stubs actually builtin? This is the dynamically generated stub that does not perform map checks, right? Maybe find a name that does not contain 'Builtin'? danno 2011/05/11 14:20:19 Done. Show quoted text On 2011/05/10 13:38:06, Mads Ager wrote: > Are any of these stubs actually builtin? This is the dynamically generated stub > that does not perform map checks, right? Maybe find a name that does not contain > 'Builtin'? Done.
	3096 receiver_map->instance_type() == JS_ARRAY_TYPE);

	3097 Code* stub;

	3098 if (!maybe_stub->To(&stub)) return maybe_stub;

	3099 __ DispatchMap(r1,

	3100 r2,

	3101 Handle<Map>(receiver_map),

	3102 Handle<Code>(stub),

	3103 false);
	Mads Ager (chromium) 2011/05/10 13:38:06 Creating an enum for this would make this call sit Creating an enum for this would make this call site a bit easier to read. CHECK_SMI/DONT_CHECK_SMI? danno 2011/05/11 14:20:19 Really good idea. Mind if I do that in another CL? Really good idea. Mind if I do that in another CL? I would like to change all the CheckMaps, too, in the process. On 2011/05/10 13:38:06, Mads Ager wrote: Show quoted text > Creating an enum for this would make this call site a bit easier to read. > CHECK_SMI/DONT_CHECK_SMI?
	3104

	3105 Handle<Code> ic = isolate()->builtins()->KeyedLoadIC_Miss();

	3106 __ Jump(ic, RelocInfo::CODE_TARGET);

	3107

	3108 // Return the generated code.

	3109 return GetCode(NORMAL, NULL);

	3110 }

	3111

	3112

	3113 MaybeObject* KeyedLoadStubCompiler::CompileLoadMegamorphic(

	3114 MapList* receiver_maps,

	3115 CodeList* handler_ics) {

3088 // ----------- S t a t e -------------	3116 // ----------- S t a t e -------------

3089 // -- lr : return address	3117 // -- lr : return address

3090 // -- r0 : key	3118 // -- r0 : key

3091 // -- r1 : receiver	3119 // -- r1 : receiver

3092 // -----------------------------------	3120 // -----------------------------------

3093 Label miss;	3121 Label miss;

	3122 __ JumpIfSmi(r1, &miss);

3094	3123

3095 // Check that the receiver isn't a smi.	3124 int receiver_count = receiver_maps->length();

3096 __ tst(r1, Operand(kSmiTagMask));	3125 for (int current = 0; current < receiver_count; ++current) {

3097 __ b(eq, &miss);	3126 // Check map and tail call if there's a match

3098	3127 __ DispatchMap(r1,

3099 // Check that the map matches.	3128 r2,

3100 __ ldr(r2, FieldMemOperand(r1, HeapObject::kMapOffset));	3129 Handle<Map>(receiver_maps->at(current)),

3101 __ cmp(r2, Operand(Handle<Map>(receiver->map())));	3130 Handle<Code>(handler_ics->at(current)),

3102 __ b(ne, &miss);	3131 true);

3103	3132 }

3104 // Check that the key is a smi.

3105 __ tst(r0, Operand(kSmiTagMask));

3106 __ b(ne, &miss);

3107

3108 // Get the elements array.

3109 __ ldr(r2, FieldMemOperand(r1, JSObject::kElementsOffset));

3110 __ AssertFastElements(r2);

3111

3112 // Check that the key is within bounds.

3113 __ ldr(r3, FieldMemOperand(r2, FixedArray::kLengthOffset));

3114 __ cmp(r0, Operand(r3));

3115 __ b(hs, &miss);

3116

3117 // Load the result and make sure it's not the hole.

3118 __ add(r3, r2, Operand(FixedArray::kHeaderSize - kHeapObjectTag));

3119 ASSERT(kSmiTag == 0 && kSmiTagSize < kPointerSizeLog2);

3120 __ ldr(r4,

3121 MemOperand(r3, r0, LSL, kPointerSizeLog2 - kSmiTagSize));

3122 __ LoadRoot(ip, Heap::kTheHoleValueRootIndex);

3123 __ cmp(r4, ip);

3124 __ b(eq, &miss);

3125 __ mov(r0, r4);

3126 __ Ret();

3127	3133

3128 __ bind(&miss);	3134 __ bind(&miss);

3129 GenerateLoadMiss(masm(), Code::KEYED_LOAD_IC);	3135 Handle<Code> miss_ic = isolate()->builtins()->KeyedLoadIC_Miss();

	3136 __ Jump(miss_ic, RelocInfo::CODE_TARGET, al);

3130	3137

3131 // Return the generated code.	3138 // Return the generated code.

3132 return GetCode(NORMAL, NULL);	3139 return GetCode(NORMAL, NULL, MEGAMORPHIC);

3133 }	3140 }

3134	3141

3135	3142

3136 MaybeObject* KeyedStoreStubCompiler::CompileStoreField(JSObject* object,	3143 MaybeObject* KeyedStoreStubCompiler::CompileStoreField(JSObject* object,

3137 int index,	3144 int index,

3138 Map* transition,	3145 Map* transition,

3139 String* name) {	3146 String* name) {

3140 // ----------- S t a t e -------------	3147 // ----------- S t a t e -------------

3141 // -- r0 : value	3148 // -- r0 : value

3142 // -- r1 : name	3149 // -- r1 : name

(...skipping 21 matching lines...) Expand all Loading...
3164	3171

3165 __ DecrementCounter(counters->keyed_store_field(), 1, r3, r4);	3172 __ DecrementCounter(counters->keyed_store_field(), 1, r3, r4);

3166 Handle<Code> ic = masm()->isolate()->builtins()->KeyedStoreIC_Miss();	3173 Handle<Code> ic = masm()->isolate()->builtins()->KeyedStoreIC_Miss();

3167 __ Jump(ic, RelocInfo::CODE_TARGET);	3174 __ Jump(ic, RelocInfo::CODE_TARGET);

3168	3175

3169 // Return the generated code.	3176 // Return the generated code.

3170 return GetCode(transition == NULL ? FIELD : MAP_TRANSITION, name);	3177 return GetCode(transition == NULL ? FIELD : MAP_TRANSITION, name);

3171 }	3178 }

3172	3179

3173	3180

3174 MaybeObject* KeyedStoreStubCompiler::CompileStoreSpecialized(	3181 MaybeObject* KeyedStoreStubCompiler::CompileStoreFastElement(

3175 JSObject* receiver) {	3182 Map* receiver_map) {

3176 // ----------- S t a t e -------------	3183 // ----------- S t a t e -------------

3177 // -- r0 : value	3184 // -- r0 : value

3178 // -- r1 : key	3185 // -- r1 : key

3179 // -- r2 : receiver	3186 // -- r2 : receiver

3180 // -- lr : return address	3187 // -- lr : return address

3181 // -- r3 : scratch	3188 // -- r3 : scratch

3182 // -- r4 : scratch (elements)

3183 // -----------------------------------	3189 // -----------------------------------

3184 Label miss;	3190 KeyedStoreIC keyed_store_ic(isolate());
	Mads Ager (chromium) 2011/05/10 13:38:06 I would prefer passing in the actual stub here and I would prefer passing in the actual stub here and dealing with allocation failures at the higher level at the caller. Creating KeyedStoreICs outside of ic.cc seems a bit fishy to me. Same comment for the other occurrences. :-) danno 2011/05/11 14:20:19 Done. Show quoted text On 2011/05/10 13:38:06, Mads Ager wrote: > I would prefer passing in the actual stub here and dealing with allocation > failures at the higher level at the caller. Creating KeyedStoreICs outside of > ic.cc seems a bit fishy to me. > > Same comment for the other occurrences. :-) Done.
	3191 MaybeObject* maybe_stub =

	3192 keyed_store_ic.ComputeMonomorphicBuiltinFastElementStub(

	3193 receiver_map->instance_type() == JS_ARRAY_TYPE);

	3194 Code* stub;

	3195 if (!maybe_stub->To(&stub)) return maybe_stub;

	3196 __ DispatchMap(r2,

	3197 r3,

	3198 Handle<Map>(receiver_map),

	3199 Handle<Code>(stub),

	3200 false);

3185	3201

3186 Register value_reg = r0;	3202 Handle<Code> ic = isolate()->builtins()->KeyedStoreIC_Miss();

3187 Register key_reg = r1;

3188 Register receiver_reg = r2;

3189 Register scratch = r3;

3190 Register elements_reg = r4;

3191

3192 // Check that the receiver isn't a smi.

3193 __ tst(receiver_reg, Operand(kSmiTagMask));

3194 __ b(eq, &miss);

3195

3196 // Check that the map matches.

3197 __ ldr(scratch, FieldMemOperand(receiver_reg, HeapObject::kMapOffset));

3198 __ cmp(scratch, Operand(Handle<Map>(receiver->map())));

3199 __ b(ne, &miss);

3200

3201 // Check that the key is a smi.

3202 __ tst(key_reg, Operand(kSmiTagMask));

3203 __ b(ne, &miss);

3204

3205 // Get the elements array and make sure it is a fast element array, not 'cow'.

3206 __ ldr(elements_reg,

3207 FieldMemOperand(receiver_reg, JSObject::kElementsOffset));

3208 __ ldr(scratch, FieldMemOperand(elements_reg, HeapObject::kMapOffset));

3209 __ cmp(scratch, Operand(Handle<Map>(factory()->fixed_array_map())));

3210 __ b(ne, &miss);

3211

3212 // Check that the key is within bounds.

3213 if (receiver->IsJSArray()) {

3214 __ ldr(scratch, FieldMemOperand(receiver_reg, JSArray::kLengthOffset));

3215 } else {

3216 __ ldr(scratch, FieldMemOperand(elements_reg, FixedArray::kLengthOffset));

3217 }

3218 // Compare smis.

3219 __ cmp(key_reg, scratch);

3220 __ b(hs, &miss);

3221

3222 __ add(scratch,

3223 elements_reg, Operand(FixedArray::kHeaderSize - kHeapObjectTag));

3224 ASSERT(kSmiTag == 0 && kSmiTagSize < kPointerSizeLog2);

3225 __ str(value_reg,

3226 MemOperand(scratch, key_reg, LSL, kPointerSizeLog2 - kSmiTagSize));

3227 __ RecordWrite(scratch,

3228 Operand(key_reg, LSL, kPointerSizeLog2 - kSmiTagSize),

3229 receiver_reg , elements_reg);

3230

3231 // value_reg (r0) is preserved.

3232 // Done.

3233 __ Ret();

3234

3235 __ bind(&miss);

3236 Handle<Code> ic = masm()->isolate()->builtins()->KeyedStoreIC_Miss();

3237 __ Jump(ic, RelocInfo::CODE_TARGET);	3203 __ Jump(ic, RelocInfo::CODE_TARGET);

3238	3204

3239 // Return the generated code.	3205 // Return the generated code.

3240 return GetCode(NORMAL, NULL);	3206 return GetCode(NORMAL, NULL);

3241 }	3207 }

3242	3208

3243	3209

	3210 MaybeObject* KeyedStoreStubCompiler::CompileStoreMegamorphic(

	3211 MapList* receiver_maps,

	3212 CodeList* handler_ics) {

	3213 // ----------- S t a t e -------------

	3214 // -- r0 : value

	3215 // -- r1 : key

	3216 // -- r2 : receiver

	3217 // -- lr : return address

	3218 // -- r3 : scratch

	3219 // -----------------------------------

	3220 Label miss;

	3221 __ JumpIfSmi(r2, &miss);

	3222

	3223 int receiver_count = receiver_maps->length();

	3224 for (int current = 0; current < receiver_count; ++current) {

	3225 // Check map and tail call if there's a match

	3226 __ DispatchMap(r2,

	3227 r3,

	3228 Handle<Map>(receiver_maps->at(current)),

	3229 Handle<Code>(handler_ics->at(current)),

	3230 true);

	3231 }

	3232

	3233 __ bind(&miss);

	3234 Handle<Code> miss_ic = isolate()->builtins()->KeyedStoreIC_Miss();

	3235 __ Jump(miss_ic, RelocInfo::CODE_TARGET, al);

	3236

	3237 // Return the generated code.

	3238 return GetCode(NORMAL, NULL, MEGAMORPHIC);

	3239 }

	3240

	3241

3244 MaybeObject* ConstructStubCompiler::CompileConstructStub(JSFunction* function) {	3242 MaybeObject* ConstructStubCompiler::CompileConstructStub(JSFunction* function) {

3245 // ----------- S t a t e -------------	3243 // ----------- S t a t e -------------

3246 // -- r0 : argc	3244 // -- r0 : argc

3247 // -- r1 : constructor	3245 // -- r1 : constructor

3248 // -- lr : return address	3246 // -- lr : return address

3249 // -- [sp] : last argument	3247 // -- [sp] : last argument

3250 // -----------------------------------	3248 // -----------------------------------

3251 Label generic_stub_call;	3249 Label generic_stub_call;

3252	3250

3253 // Use r7 for holding undefined which is used in several places below.	3251 // Use r7 for holding undefined which is used in several places below.

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3378 // construction.	3376 // construction.

3379 __ bind(&generic_stub_call);	3377 __ bind(&generic_stub_call);

3380 Handle<Code> code = masm()->isolate()->builtins()->JSConstructStubGeneric();	3378 Handle<Code> code = masm()->isolate()->builtins()->JSConstructStubGeneric();

3381 __ Jump(code, RelocInfo::CODE_TARGET);	3379 __ Jump(code, RelocInfo::CODE_TARGET);

3382	3380

3383 // Return the generated code.	3381 // Return the generated code.

3384 return GetCode();	3382 return GetCode();

3385 }	3383 }

3386	3384

3387	3385

	3386 MaybeObject* ExternalArrayLoadStubCompiler::CompileLoad(

	3387 JSObject*receiver, ExternalArrayType array_type) {

	3388 // ----------- S t a t e -------------

	3389 // -- lr : return address

	3390 // -- r0 : key

	3391 // -- r1 : receiver

	3392 // -----------------------------------

	3393 KeyedLoadIC load_ic(isolate());

	3394 MaybeObject* maybe_stub =

	3395 load_ic.ComputeMonomorphicBuiltinExternalArrayStub(array_type);

	3396 Code* stub;

	3397 if (!maybe_stub->To(&stub)) return maybe_stub;

	3398 __ DispatchMap(r1,

	3399 r2,

	3400 Handle<Map>(receiver->map()),

	3401 Handle<Code>(stub),

	3402 false);

	3403

	3404 Handle<Code> ic = isolate()->builtins()->KeyedLoadIC_Miss();

	3405 __ Jump(ic, RelocInfo::CODE_TARGET);

	3406

	3407 // Return the generated code.

	3408 return GetCode();

	3409 }

	3410

	3411

	3412 MaybeObject* ExternalArrayStoreStubCompiler::CompileStore(

	3413 JSObject* receiver, ExternalArrayType array_type) {

	3414 // ----------- S t a t e -------------

	3415 // -- r0 : value

	3416 // -- r1 : name

	3417 // -- r2 : receiver

	3418 // -- lr : return address

	3419 // -----------------------------------

	3420 KeyedStoreIC store_ic(isolate());

	3421 MaybeObject* maybe_stub =

	3422 store_ic.ComputeMonomorphicBuiltinExternalArrayStub(array_type);

	3423 Code* stub;

	3424 if (!maybe_stub->To(&stub)) return maybe_stub;

	3425 __ DispatchMap(r2,

	3426 r3,

	3427 Handle<Map>(receiver->map()),

	3428 Handle<Code>(stub),

	3429 false);

	3430

	3431 Handle<Code> ic = isolate()->builtins()->KeyedStoreIC_Miss();

	3432 __ Jump(ic, RelocInfo::CODE_TARGET);

	3433

	3434 return GetCode();

	3435 }

	3436

	3437

	3438 #undef __

	3439 #define __ ACCESS_MASM(masm)

	3440

	3441

3388 static bool IsElementTypeSigned(ExternalArrayType array_type) {	3442 static bool IsElementTypeSigned(ExternalArrayType array_type) {

3389 switch (array_type) {	3443 switch (array_type) {

3390 case kExternalByteArray:	3444 case kExternalByteArray:

3391 case kExternalShortArray:	3445 case kExternalShortArray:

3392 case kExternalIntArray:	3446 case kExternalIntArray:

3393 return true;	3447 return true;

3394	3448

3395 case kExternalUnsignedByteArray:	3449 case kExternalUnsignedByteArray:

3396 case kExternalUnsignedShortArray:	3450 case kExternalUnsignedShortArray:

3397 case kExternalUnsignedIntArray:	3451 case kExternalUnsignedIntArray:

3398 return false;	3452 return false;

3399	3453

3400 default:	3454 default:

3401 UNREACHABLE();	3455 UNREACHABLE();

3402 return false;	3456 return false;

3403 }	3457 }

3404 }	3458 }

3405	3459

3406	3460

3407 MaybeObject* ExternalArrayStubCompiler::CompileKeyedLoadStub(	3461 void KeyedLoadStubCompiler::GenerateLoadExternalArray(

3408 JSObject* receiver_object,	3462 MacroAssembler* masm,

3409 ExternalArrayType array_type,	3463 ExternalArrayType array_type) {

3410 Code::Flags flags) {

3411 // ---------- S t a t e --------------	3464 // ---------- S t a t e --------------

3412 // -- lr : return address	3465 // -- lr : return address

3413 // -- r0 : key	3466 // -- r0 : key

3414 // -- r1 : receiver	3467 // -- r1 : receiver

3415 // -----------------------------------	3468 // -----------------------------------

3416 Label slow, failed_allocation;	3469 Label miss_force_generic, slow, failed_allocation;

3417	3470

3418 Register key = r0;	3471 Register key = r0;

3419 Register receiver = r1;	3472 Register receiver = r1;

3420	3473

3421 // Check that the object isn't a smi

3422 __ JumpIfSmi(receiver, &slow);

3423

3424 // Check that the key is a smi.	3474 // Check that the key is a smi.

3425 __ JumpIfNotSmi(key, &slow);	3475 __ JumpIfNotSmi(key, &miss_force_generic);

3426

3427 // Make sure that we've got the right map.

3428 __ ldr(r2, FieldMemOperand(receiver, HeapObject::kMapOffset));

3429 __ cmp(r2, Operand(Handle<Map>(receiver_object->map())));

3430 __ b(ne, &slow);

3431	3476

3432 __ ldr(r3, FieldMemOperand(receiver, JSObject::kElementsOffset));	3477 __ ldr(r3, FieldMemOperand(receiver, JSObject::kElementsOffset));

3433 // r3: elements array	3478 // r3: elements array

3434	3479

3435 // Check that the index is in range.	3480 // Check that the index is in range.

3436 __ ldr(ip, FieldMemOperand(r3, ExternalArray::kLengthOffset));	3481 __ ldr(ip, FieldMemOperand(r3, ExternalArray::kLengthOffset));

3437 __ cmp(ip, Operand(key, ASR, kSmiTagSize));	3482 __ cmp(ip, Operand(key, ASR, kSmiTagSize));

3438 // Unsigned comparison catches both negative and too-large values.	3483 // Unsigned comparison catches both negative and too-large values.

3439 __ b(lo, &slow);	3484 __ b(lo, &miss_force_generic);

3440	3485

3441 __ ldr(r3, FieldMemOperand(r3, ExternalArray::kExternalPointerOffset));	3486 __ ldr(r3, FieldMemOperand(r3, ExternalArray::kExternalPointerOffset));

3442 // r3: base pointer of external storage	3487 // r3: base pointer of external storage

3443	3488

3444 // We are not untagging smi key and instead work with it	3489 // We are not untagging smi key and instead work with it

3445 // as if it was premultiplied by 2.	3490 // as if it was premultiplied by 2.

3446 ASSERT((kSmiTag == 0) && (kSmiTagSize == 1));	3491 ASSERT((kSmiTag == 0) && (kSmiTagSize == 1));

3447	3492

3448 Register value = r2;	3493 Register value = r2;

3449 switch (array_type) {	3494 switch (array_type) {

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3566 __ b(ne, &box_int_1);	3611 __ b(ne, &box_int_1);

3567 // Tag integer as smi and return it.	3612 // Tag integer as smi and return it.

3568 __ mov(r0, Operand(value, LSL, kSmiTagSize));	3613 __ mov(r0, Operand(value, LSL, kSmiTagSize));

3569 __ Ret();	3614 __ Ret();

3570	3615

3571 Register hiword = value; // r2.	3616 Register hiword = value; // r2.

3572 Register loword = r3;	3617 Register loword = r3;

3573	3618

3574 __ bind(&box_int_0);	3619 __ bind(&box_int_0);

3575 // Integer does not have leading zeros.	3620 // Integer does not have leading zeros.

3576 GenerateUInt2Double(masm(), hiword, loword, r4, 0);	3621 GenerateUInt2Double(masm, hiword, loword, r4, 0);

3577 __ b(&done);	3622 __ b(&done);

3578	3623

3579 __ bind(&box_int_1);	3624 __ bind(&box_int_1);

3580 // Integer has one leading zero.	3625 // Integer has one leading zero.

3581 GenerateUInt2Double(masm(), hiword, loword, r4, 1);	3626 GenerateUInt2Double(masm, hiword, loword, r4, 1);

3582	3627

3583	3628

3584 __ bind(&done);	3629 __ bind(&done);

3585 // Integer was converted to double in registers hiword:loword.	3630 // Integer was converted to double in registers hiword:loword.

3586 // Wrap it into a HeapNumber. Don't use r0 and r1 as AllocateHeapNumber	3631 // Wrap it into a HeapNumber. Don't use r0 and r1 as AllocateHeapNumber

3587 // clobbers all registers - also when jumping due to exhausted young	3632 // clobbers all registers - also when jumping due to exhausted young

3588 // space.	3633 // space.

3589 __ LoadRoot(r6, Heap::kHeapNumberMapRootIndex);	3634 __ LoadRoot(r6, Heap::kHeapNumberMapRootIndex);

3590 __ AllocateHeapNumber(r4, r5, r7, r6, &slow);	3635 __ AllocateHeapNumber(r4, r5, r7, r6, &slow);

3591	3636

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3693	3738

3694 } else {	3739 } else {

3695 // Tag integer as smi and return it.	3740 // Tag integer as smi and return it.

3696 __ mov(r0, Operand(value, LSL, kSmiTagSize));	3741 __ mov(r0, Operand(value, LSL, kSmiTagSize));

3697 __ Ret();	3742 __ Ret();

3698 }	3743 }

3699	3744

3700 // Slow case, key and receiver still in r0 and r1.	3745 // Slow case, key and receiver still in r0 and r1.

3701 __ bind(&slow);	3746 __ bind(&slow);

3702 __ IncrementCounter(	3747 __ IncrementCounter(

3703 masm()->isolate()->counters()->keyed_load_external_array_slow(),	3748 masm->isolate()->counters()->keyed_load_external_array_slow(),

3704 1, r2, r3);	3749 1, r2, r3);

3705	3750

3706 // ---------- S t a t e --------------	3751 // ---------- S t a t e --------------

3707 // -- lr : return address	3752 // -- lr : return address

3708 // -- r0 : key	3753 // -- r0 : key

3709 // -- r1 : receiver	3754 // -- r1 : receiver

3710 // -----------------------------------	3755 // -----------------------------------

3711	3756

3712 __ Push(r1, r0);	3757 __ Push(r1, r0);

3713	3758

3714 __ TailCallRuntime(Runtime::kKeyedGetProperty, 2, 1);	3759 __ TailCallRuntime(Runtime::kKeyedGetProperty, 2, 1);

3715	3760

3716 return GetCode(flags);	3761 __ bind(&miss_force_generic);

	3762 Code* stub = masm->isolate()->builtins()->builtin(

	3763 Builtins::kKeyedLoadIC_MissForceGeneric);

	3764 __ Jump(Handle<Code>(stub), RelocInfo::CODE_TARGET);

3717 }	3765 }

3718	3766

3719	3767

3720 MaybeObject* ExternalArrayStubCompiler::CompileKeyedStoreStub(	3768 void KeyedStoreStubCompiler::GenerateStoreExternalArray(

3721 JSObject* receiver_object,	3769 MacroAssembler* masm,

3722 ExternalArrayType array_type,	3770 ExternalArrayType array_type) {

3723 Code::Flags flags) {

3724 // ---------- S t a t e --------------	3771 // ---------- S t a t e --------------

3725 // -- r0 : value	3772 // -- r0 : value

3726 // -- r1 : key	3773 // -- r1 : key

3727 // -- r2 : receiver	3774 // -- r2 : receiver

3728 // -- lr : return address	3775 // -- lr : return address

3729 // -----------------------------------	3776 // -----------------------------------

3730 Label slow, check_heap_number;	3777 Label slow, check_heap_number, miss_force_generic;

3731	3778

3732 // Register usage.	3779 // Register usage.

3733 Register value = r0;	3780 Register value = r0;

3734 Register key = r1;	3781 Register key = r1;

3735 Register receiver = r2;	3782 Register receiver = r2;

3736 // r3 mostly holds the elements array or the destination external array.	3783 // r3 mostly holds the elements array or the destination external array.

3737	3784

3738 // Check that the object isn't a smi.

3739 __ JumpIfSmi(receiver, &slow);

3740

3741 // Make sure that we've got the right map.

3742 __ ldr(r3, FieldMemOperand(receiver, HeapObject::kMapOffset));

3743 __ cmp(r3, Operand(Handle<Map>(receiver_object->map())));

3744 __ b(ne, &slow);

3745

3746 __ ldr(r3, FieldMemOperand(receiver, JSObject::kElementsOffset));	3785 __ ldr(r3, FieldMemOperand(receiver, JSObject::kElementsOffset));
	Mads Ager (chromium) 2011/05/10 13:38:06 Have you always checked that the receiver is not a Have you always checked that the receiver is not a smi when you get here? danno 2011/05/11 14:20:19 Yes, this stub is always tail-called by other stub Yes, this stub is always tail-called by other stubs that guarantee "non smi-ness". Added comments to that effect. On 2011/05/10 13:38:06, Mads Ager wrote: Show quoted text > Have you always checked that the receiver is not a smi when you get here?
3747	3786

3748 // Check that the key is a smi.	3787 // Check that the key is a smi.

3749 __ JumpIfNotSmi(key, &slow);	3788 __ JumpIfNotSmi(key, &miss_force_generic);

3750	3789

3751 // Check that the index is in range	3790 // Check that the index is in range

3752 __ SmiUntag(r4, key);	3791 __ SmiUntag(r4, key);

3753 __ ldr(ip, FieldMemOperand(r3, ExternalArray::kLengthOffset));	3792 __ ldr(ip, FieldMemOperand(r3, ExternalArray::kLengthOffset));

3754 __ cmp(r4, ip);	3793 __ cmp(r4, ip);

3755 // Unsigned comparison catches both negative and too-large values.	3794 // Unsigned comparison catches both negative and too-large values.

3756 __ b(hs, &slow);	3795 __ b(hs, &miss_force_generic);

3757	3796

3758 // Handle both smis and HeapNumbers in the fast path. Go to the	3797 // Handle both smis and HeapNumbers in the fast path. Go to the

3759 // runtime for all other kinds of values.	3798 // runtime for all other kinds of values.

3760 // r3: external array.	3799 // r3: external array.

3761 // r4: key (integer).	3800 // r4: key (integer).

3762 if (array_type == kExternalPixelArray) {	3801 if (array_type == kExternalPixelArray) {

3763 // Double to pixel conversion is only implemented in the runtime for now.	3802 // Double to pixel conversion is only implemented in the runtime for now.

3764 __ JumpIfNotSmi(value, &slow);	3803 __ JumpIfNotSmi(value, &slow);

3765 } else {	3804 } else {

3766 __ JumpIfNotSmi(value, &check_heap_number);	3805 __ JumpIfNotSmi(value, &check_heap_number);

(...skipping 17 matching lines...) Expand all Loading...
3784 case kExternalShortArray:	3823 case kExternalShortArray:

3785 case kExternalUnsignedShortArray:	3824 case kExternalUnsignedShortArray:

3786 __ strh(r5, MemOperand(r3, r4, LSL, 1));	3825 __ strh(r5, MemOperand(r3, r4, LSL, 1));

3787 break;	3826 break;

3788 case kExternalIntArray:	3827 case kExternalIntArray:

3789 case kExternalUnsignedIntArray:	3828 case kExternalUnsignedIntArray:

3790 __ str(r5, MemOperand(r3, r4, LSL, 2));	3829 __ str(r5, MemOperand(r3, r4, LSL, 2));

3791 break;	3830 break;

3792 case kExternalFloatArray:	3831 case kExternalFloatArray:

3793 // Perform int-to-float conversion and store to memory.	3832 // Perform int-to-float conversion and store to memory.

3794 StoreIntAsFloat(masm(), r3, r4, r5, r6, r7, r9);	3833 StoreIntAsFloat(masm, r3, r4, r5, r6, r7, r9);

3795 break;	3834 break;

3796 case kExternalDoubleArray:	3835 case kExternalDoubleArray:

3797 __ add(r3, r3, Operand(r4, LSL, 3));	3836 __ add(r3, r3, Operand(r4, LSL, 3));

3798 // r3: effective address of the double element	3837 // r3: effective address of the double element

3799 FloatingPointHelper::Destination destination;	3838 FloatingPointHelper::Destination destination;

3800 if (CpuFeatures::IsSupported(VFP3)) {	3839 if (CpuFeatures::IsSupported(VFP3)) {

3801 destination = FloatingPointHelper::kVFPRegisters;	3840 destination = FloatingPointHelper::kVFPRegisters;

3802 } else {	3841 } else {

3803 destination = FloatingPointHelper::kCoreRegisters;	3842 destination = FloatingPointHelper::kCoreRegisters;

3804 }	3843 }

3805 FloatingPointHelper::ConvertIntToDouble(	3844 FloatingPointHelper::ConvertIntToDouble(

3806 masm(), r5, destination,	3845 masm, r5, destination,

3807 d0, r6, r7, // These are: double_dst, dst1, dst2.	3846 d0, r6, r7, // These are: double_dst, dst1, dst2.

3808 r4, s2); // These are: scratch2, single_scratch.	3847 r4, s2); // These are: scratch2, single_scratch.

3809 if (destination == FloatingPointHelper::kVFPRegisters) {	3848 if (destination == FloatingPointHelper::kVFPRegisters) {

3810 CpuFeatures::Scope scope(VFP3);	3849 CpuFeatures::Scope scope(VFP3);

3811 __ vstr(d0, r3, 0);	3850 __ vstr(d0, r3, 0);

3812 } else {	3851 } else {

3813 __ str(r6, MemOperand(r3, 0));	3852 __ str(r6, MemOperand(r3, 0));

3814 __ str(r7, MemOperand(r3, Register::kSizeInBytes));	3853 __ str(r7, MemOperand(r3, Register::kSizeInBytes));

3815 }	3854 }

3816 break;	3855 break;

(...skipping 206 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
4023 __ str(r5, MemOperand(r3, r4, LSL, 2));	4062 __ str(r5, MemOperand(r3, r4, LSL, 2));

4024 break;	4063 break;

4025 default:	4064 default:

4026 UNREACHABLE();	4065 UNREACHABLE();

4027 break;	4066 break;

4028 }	4067 }

4029 }	4068 }

4030 }	4069 }

4031 }	4070 }

4032	4071

4033 // Slow case: call runtime.	4072 // Slow case, key and receiver still in r0 and r1.

4034 __ bind(&slow);	4073 __ bind(&slow);

	4074 __ IncrementCounter(

	4075 masm->isolate()->counters()->keyed_load_external_array_slow(),

	4076 1, r2, r3);

4035	4077

4036 // Entry registers are intact.

4037 // ---------- S t a t e --------------	4078 // ---------- S t a t e --------------

4038 // -- r0 : value

4039 // -- r1 : key

4040 // -- r2 : receiver

4041 // -- lr : return address	4079 // -- lr : return address

	4080 // -- r0 : key

	4081 // -- r1 : receiver

	4082 // -----------------------------------

	4083 Handle<Code> slow_ic =

	4084 masm->isolate()->builtins()->KeyedStoreIC_Slow();

	4085 __ Jump(slow_ic, RelocInfo::CODE_TARGET);

	4086

	4087 // Miss case, call the runtime.

	4088 __ bind(&miss_force_generic);

	4089

	4090 // ---------- S t a t e --------------

	4091 // -- lr : return address

	4092 // -- r0 : key

	4093 // -- r1 : receiver

4042 // -----------------------------------	4094 // -----------------------------------

4043	4095

4044 // Push receiver, key and value for runtime call.	4096 Handle<Code> miss_ic =

4045 __ Push(r2, r1, r0);	4097 masm->isolate()->builtins()->KeyedStoreIC_MissForceGeneric();

4046	4098 __ Jump(miss_ic, RelocInfo::CODE_TARGET);

4047 __ mov(r1, Operand(Smi::FromInt(NONE))); // PropertyAttributes

4048 __ mov(r0, Operand(Smi::FromInt(

4049 Code::ExtractExtraICStateFromFlags(flags) & kStrictMode)));

4050 __ Push(r1, r0);

4051

4052 __ TailCallRuntime(Runtime::kSetProperty, 5, 1);

4053

4054 return GetCode(flags);

4055 }	4099 }

4056	4100

4057	4101

	4102 void KeyedLoadStubCompiler::GenerateLoadFastElement(MacroAssembler* masm) {

	4103 // ----------- S t a t e -------------

	4104 // -- lr : return address

	4105 // -- r0 : key

	4106 // -- r1 : receiver

	4107 // -----------------------------------

	4108 Label miss_force_generic;

	4109

	4110 // Check that the key is a smi.

	4111 __ tst(r0, Operand(kSmiTagMask));

	4112 __ b(ne, &miss_force_generic);

	4113

	4114 // Get the elements array.

	4115 __ ldr(r2, FieldMemOperand(r1, JSObject::kElementsOffset));

	4116 __ AssertFastElements(r2);

	4117

	4118 // Check that the key is within bounds.

	4119 __ ldr(r3, FieldMemOperand(r2, FixedArray::kLengthOffset));

	4120 __ cmp(r0, Operand(r3));

	4121 __ b(hs, &miss_force_generic);

	4122

	4123 // Load the result and make sure it's not the hole.

	4124 __ add(r3, r2, Operand(FixedArray::kHeaderSize - kHeapObjectTag));

	4125 ASSERT(kSmiTag == 0 && kSmiTagSize < kPointerSizeLog2);

	4126 __ ldr(r4,

	4127 MemOperand(r3, r0, LSL, kPointerSizeLog2 - kSmiTagSize));

	4128 __ LoadRoot(ip, Heap::kTheHoleValueRootIndex);

	4129 __ cmp(r4, ip);

	4130 __ b(eq, &miss_force_generic);

	4131 __ mov(r0, r4);

	4132 __ Ret();

	4133

	4134 __ bind(&miss_force_generic);

	4135 Code* stub = masm->isolate()->builtins()->builtin(

	4136 Builtins::kKeyedLoadIC_MissForceGeneric);

	4137 __ Jump(Handle<Code>(stub), RelocInfo::CODE_TARGET);

	4138 }

	4139

	4140

	4141 void KeyedStoreStubCompiler::GenerateStoreFastElement(MacroAssembler* masm,

	4142 bool is_js_array) {

	4143 // ----------- S t a t e -------------

	4144 // -- r0 : value

	4145 // -- r1 : key

	4146 // -- r2 : receiver

	4147 // -- lr : return address

	4148 // -- r3 : scratch

	4149 // -- r4 : scratch (elements)

	4150 // -----------------------------------

	4151 Label miss_force_generic;

	4152

	4153 Register value_reg = r0;

	4154 Register key_reg = r1;

	4155 Register receiver_reg = r2;

	4156 Register scratch = r3;

	4157 Register elements_reg = r4;

	4158

	4159 // Check that the key is a smi.

	4160 __ tst(key_reg, Operand(kSmiTagMask));

	4161 __ b(ne, &miss_force_generic);

	4162

	4163 // Get the elements array and make sure it is a fast element array, not 'cow'.

	4164 __ ldr(elements_reg,

	4165 FieldMemOperand(receiver_reg, JSObject::kElementsOffset));

	4166 __ ldr(scratch, FieldMemOperand(elements_reg, HeapObject::kMapOffset));

	4167 Handle<Map> map =

	4168 Handle<Map>(masm->isolate()->factory()->fixed_array_map());

	4169 __ cmp(scratch, Operand(map));

	4170 __ b(ne, &miss_force_generic);

	4171

	4172 // Check that the key is within bounds.

	4173 if (is_js_array) {

	4174 __ ldr(scratch, FieldMemOperand(receiver_reg, JSArray::kLengthOffset));

	4175 } else {

	4176 __ ldr(scratch, FieldMemOperand(elements_reg, FixedArray::kLengthOffset));

	4177 }

	4178 // Compare smis.

	4179 __ cmp(key_reg, scratch);

	4180 __ b(hs, &miss_force_generic);

	4181

	4182 __ add(scratch,

	4183 elements_reg, Operand(FixedArray::kHeaderSize - kHeapObjectTag));

	4184 ASSERT(kSmiTag == 0 && kSmiTagSize < kPointerSizeLog2);

	4185 __ str(value_reg,

	4186 MemOperand(scratch, key_reg, LSL, kPointerSizeLog2 - kSmiTagSize));

	4187 __ RecordWrite(scratch,

	4188 Operand(key_reg, LSL, kPointerSizeLog2 - kSmiTagSize),

	4189 receiver_reg , elements_reg);

	4190

	4191 // value_reg (r0) is preserved.

	4192 // Done.

	4193 __ Ret();

	4194

	4195 __ bind(&miss_force_generic);

	4196 Handle<Code> ic =

	4197 masm->isolate()->builtins()->KeyedStoreIC_MissForceGeneric();

	4198 __ Jump(ic, RelocInfo::CODE_TARGET);

	4199 }

	4200

	4201

4058 #undef __	4202 #undef __

4059	4203

4060 } } // namespace v8::internal	4204 } } // namespace v8::internal

4061	4205

4062 #endif // V8_TARGET_ARCH_ARM	4206 #endif // V8_TARGET_ARCH_ARM

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