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| 1 // Copyright 2014 the V8 project authors. All rights reserved. | 1 // Copyright 2014 the V8 project authors. All rights reserved. |
| 2 // Use of this source code is governed by a BSD-style license that can be | 2 // Use of this source code is governed by a BSD-style license that can be |
| 3 // found in the LICENSE file. | 3 // found in the LICENSE file. |
| 4 | 4 |
| 5 #include "src/compiler/instruction-selector-impl.h" | 5 #include "src/compiler/instruction-selector-impl.h" |
| 6 #include "src/compiler/node-matchers.h" | 6 #include "src/compiler/node-matchers.h" |
| 7 #include "src/compiler/node-properties-inl.h" | 7 #include "src/compiler/node-properties-inl.h" |
| 8 | 8 |
| 9 namespace v8 { | 9 namespace v8 { |
| 10 namespace internal { | 10 namespace internal { |
| (...skipping 23 matching lines...) Expand all Loading... |
| 34 return !isolate()->heap()->InNewSpace(*value); | 34 return !isolate()->heap()->InNewSpace(*value); |
| 35 } | 35 } |
| 36 default: | 36 default: |
| 37 return false; | 37 return false; |
| 38 } | 38 } |
| 39 } | 39 } |
| 40 }; | 40 }; |
| 41 | 41 |
| 42 | 42 |
| 43 void InstructionSelector::VisitLoad(Node* node) { | 43 void InstructionSelector::VisitLoad(Node* node) { |
| 44 MachineType rep = OpParameter<MachineType>(node); | 44 MachineType rep = RepresentationOf(OpParameter<MachineType>(node)); |
| 45 IA32OperandGenerator g(this); | 45 IA32OperandGenerator g(this); |
| 46 Node* base = node->InputAt(0); | 46 Node* base = node->InputAt(0); |
| 47 Node* index = node->InputAt(1); | 47 Node* index = node->InputAt(1); |
| 48 | 48 |
| 49 InstructionOperand* output = rep == kMachineFloat64 | 49 InstructionOperand* output = rep == rFloat64 ? g.DefineAsDoubleRegister(node) |
| 50 ? g.DefineAsDoubleRegister(node) | 50 : g.DefineAsRegister(node); |
| 51 : g.DefineAsRegister(node); | |
| 52 ArchOpcode opcode; | 51 ArchOpcode opcode; |
| 52 // TODO(titzer): signed/unsigned small loads |
| 53 switch (rep) { | 53 switch (rep) { |
| 54 case kMachineFloat64: | 54 case rFloat64: |
| 55 opcode = kSSELoad; | 55 opcode = kSSELoad; |
| 56 break; | 56 break; |
| 57 case kMachineWord8: | 57 case rBit: // Fall through. |
| 58 case rWord8: |
| 58 opcode = kIA32LoadWord8; | 59 opcode = kIA32LoadWord8; |
| 59 break; | 60 break; |
| 60 case kMachineWord16: | 61 case rWord16: |
| 61 opcode = kIA32LoadWord16; | 62 opcode = kIA32LoadWord16; |
| 62 break; | 63 break; |
| 63 case kMachineTagged: // Fall through. | 64 case rTagged: // Fall through. |
| 64 case kMachineWord32: | 65 case rWord32: |
| 65 opcode = kIA32LoadWord32; | 66 opcode = kIA32LoadWord32; |
| 66 break; | 67 break; |
| 67 default: | 68 default: |
| 68 UNREACHABLE(); | 69 UNREACHABLE(); |
| 69 return; | 70 return; |
| 70 } | 71 } |
| 71 if (g.CanBeImmediate(base)) { | 72 if (g.CanBeImmediate(base)) { |
| 72 if (Int32Matcher(index).Is(0)) { // load [#base + #0] | 73 if (Int32Matcher(index).Is(0)) { // load [#base + #0] |
| 73 Emit(opcode | AddressingModeField::encode(kMode_MI), output, | 74 Emit(opcode | AddressingModeField::encode(kMode_MI), output, |
| 74 g.UseImmediate(base)); | 75 g.UseImmediate(base)); |
| (...skipping 12 matching lines...) Expand all Loading... |
| 87 } | 88 } |
| 88 | 89 |
| 89 | 90 |
| 90 void InstructionSelector::VisitStore(Node* node) { | 91 void InstructionSelector::VisitStore(Node* node) { |
| 91 IA32OperandGenerator g(this); | 92 IA32OperandGenerator g(this); |
| 92 Node* base = node->InputAt(0); | 93 Node* base = node->InputAt(0); |
| 93 Node* index = node->InputAt(1); | 94 Node* index = node->InputAt(1); |
| 94 Node* value = node->InputAt(2); | 95 Node* value = node->InputAt(2); |
| 95 | 96 |
| 96 StoreRepresentation store_rep = OpParameter<StoreRepresentation>(node); | 97 StoreRepresentation store_rep = OpParameter<StoreRepresentation>(node); |
| 97 MachineType rep = store_rep.rep; | 98 MachineType rep = RepresentationOf(store_rep.machine_type); |
| 98 if (store_rep.write_barrier_kind == kFullWriteBarrier) { | 99 if (store_rep.write_barrier_kind == kFullWriteBarrier) { |
| 99 DCHECK_EQ(kMachineTagged, rep); | 100 DCHECK_EQ(rTagged, rep); |
| 100 // TODO(dcarney): refactor RecordWrite function to take temp registers | 101 // TODO(dcarney): refactor RecordWrite function to take temp registers |
| 101 // and pass them here instead of using fixed regs | 102 // and pass them here instead of using fixed regs |
| 102 // TODO(dcarney): handle immediate indices. | 103 // TODO(dcarney): handle immediate indices. |
| 103 InstructionOperand* temps[] = {g.TempRegister(ecx), g.TempRegister(edx)}; | 104 InstructionOperand* temps[] = {g.TempRegister(ecx), g.TempRegister(edx)}; |
| 104 Emit(kIA32StoreWriteBarrier, NULL, g.UseFixed(base, ebx), | 105 Emit(kIA32StoreWriteBarrier, NULL, g.UseFixed(base, ebx), |
| 105 g.UseFixed(index, ecx), g.UseFixed(value, edx), ARRAY_SIZE(temps), | 106 g.UseFixed(index, ecx), g.UseFixed(value, edx), ARRAY_SIZE(temps), |
| 106 temps); | 107 temps); |
| 107 return; | 108 return; |
| 108 } | 109 } |
| 109 DCHECK_EQ(kNoWriteBarrier, store_rep.write_barrier_kind); | 110 DCHECK_EQ(kNoWriteBarrier, store_rep.write_barrier_kind); |
| 110 bool is_immediate = false; | 111 bool is_immediate = false; |
| 111 InstructionOperand* val; | 112 InstructionOperand* val; |
| 112 if (rep == kMachineFloat64) { | 113 if (rep == rFloat64) { |
| 113 val = g.UseDoubleRegister(value); | 114 val = g.UseDoubleRegister(value); |
| 114 } else { | 115 } else { |
| 115 is_immediate = g.CanBeImmediate(value); | 116 is_immediate = g.CanBeImmediate(value); |
| 116 if (is_immediate) { | 117 if (is_immediate) { |
| 117 val = g.UseImmediate(value); | 118 val = g.UseImmediate(value); |
| 118 } else if (rep == kMachineWord8) { | 119 } else if (rep == rWord8 || rep == rBit) { |
| 119 val = g.UseByteRegister(value); | 120 val = g.UseByteRegister(value); |
| 120 } else { | 121 } else { |
| 121 val = g.UseRegister(value); | 122 val = g.UseRegister(value); |
| 122 } | 123 } |
| 123 } | 124 } |
| 124 ArchOpcode opcode; | 125 ArchOpcode opcode; |
| 125 switch (rep) { | 126 switch (rep) { |
| 126 case kMachineFloat64: | 127 case rFloat64: |
| 127 opcode = kSSEStore; | 128 opcode = kSSEStore; |
| 128 break; | 129 break; |
| 129 case kMachineWord8: | 130 case rBit: // Fall through. |
| 131 case rWord8: |
| 130 opcode = is_immediate ? kIA32StoreWord8I : kIA32StoreWord8; | 132 opcode = is_immediate ? kIA32StoreWord8I : kIA32StoreWord8; |
| 131 break; | 133 break; |
| 132 case kMachineWord16: | 134 case rWord16: |
| 133 opcode = is_immediate ? kIA32StoreWord16I : kIA32StoreWord16; | 135 opcode = is_immediate ? kIA32StoreWord16I : kIA32StoreWord16; |
| 134 break; | 136 break; |
| 135 case kMachineTagged: // Fall through. | 137 case rTagged: // Fall through. |
| 136 case kMachineWord32: | 138 case rWord32: |
| 137 opcode = is_immediate ? kIA32StoreWord32I : kIA32StoreWord32; | 139 opcode = is_immediate ? kIA32StoreWord32I : kIA32StoreWord32; |
| 138 break; | 140 break; |
| 139 default: | 141 default: |
| 140 UNREACHABLE(); | 142 UNREACHABLE(); |
| 141 return; | 143 return; |
| 142 } | 144 } |
| 143 if (g.CanBeImmediate(base)) { | 145 if (g.CanBeImmediate(base)) { |
| 144 if (Int32Matcher(index).Is(0)) { // store [#base], %|#value | 146 if (Int32Matcher(index).Is(0)) { // store [#base], %|#value |
| 145 Emit(opcode | AddressingModeField::encode(kMode_MI), NULL, | 147 Emit(opcode | AddressingModeField::encode(kMode_MI), NULL, |
| 146 g.UseImmediate(base), val); | 148 g.UseImmediate(base), val); |
| (...skipping 404 matching lines...) Expand 10 before | Expand all | Expand 10 after Loading... |
| 551 if (descriptor->kind() == CallDescriptor::kCallAddress && | 553 if (descriptor->kind() == CallDescriptor::kCallAddress && |
| 552 buffer.pushed_count > 0) { | 554 buffer.pushed_count > 0) { |
| 553 DCHECK(deoptimization == NULL && continuation == NULL); | 555 DCHECK(deoptimization == NULL && continuation == NULL); |
| 554 Emit(kPopStack | MiscField::encode(buffer.pushed_count), NULL); | 556 Emit(kPopStack | MiscField::encode(buffer.pushed_count), NULL); |
| 555 } | 557 } |
| 556 } | 558 } |
| 557 | 559 |
| 558 } // namespace compiler | 560 } // namespace compiler |
| 559 } // namespace internal | 561 } // namespace internal |
| 560 } // namespace v8 | 562 } // namespace v8 |
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Chromium Code Reviews
Issue 470593002:
Unify MachineType and RepType. (Closed)
Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge