Index: src/mips/lithium-mips.cc |
diff --git a/src/mips/lithium-mips.cc b/src/mips/lithium-mips.cc |
index 97b91fac3995476829ce2f3d7347820ff4aa7a4b..9a0d3203bd974c37a72737d7c9e997380d2f7de3 100644 |
--- a/src/mips/lithium-mips.cc |
+++ b/src/mips/lithium-mips.cc |
@@ -843,69 +843,76 @@ void LChunkBuilder::VisitInstruction(HInstruction* current) { |
ASSERT(argument_count_ >= 0); |
if (instr != NULL) { |
- // Associate the hydrogen instruction first, since we may need it for |
- // the ClobbersRegisters() or ClobbersDoubleRegisters() calls below. |
- instr->set_hydrogen_value(current); |
+ AddInstruction(instr, current); |
+ } |
+ |
+ current_instruction_ = old_current; |
+} |
+ |
+ |
+void LChunkBuilder::AddInstruction(LInstruction* instr, |
+ HInstruction* hydrogen_val) { |
+// Associate the hydrogen instruction first, since we may need it for |
+ // the ClobbersRegisters() or ClobbersDoubleRegisters() calls below. |
+ instr->set_hydrogen_value(hydrogen_val); |
#if DEBUG |
- // Make sure that the lithium instruction has either no fixed register |
- // constraints in temps or the result OR no uses that are only used at |
- // start. If this invariant doesn't hold, the register allocator can decide |
- // to insert a split of a range immediately before the instruction due to an |
- // already allocated register needing to be used for the instruction's fixed |
- // register constraint. In this case, The register allocator won't see an |
- // interference between the split child and the use-at-start (it would if |
- // the it was just a plain use), so it is free to move the split child into |
- // the same register that is used for the use-at-start. |
- // See https://code.google.com/p/chromium/issues/detail?id=201590 |
- if (!(instr->ClobbersRegisters() && |
- instr->ClobbersDoubleRegisters(isolate()))) { |
- int fixed = 0; |
- int used_at_start = 0; |
- for (UseIterator it(instr); !it.Done(); it.Advance()) { |
- LUnallocated* operand = LUnallocated::cast(it.Current()); |
- if (operand->IsUsedAtStart()) ++used_at_start; |
- } |
- if (instr->Output() != NULL) { |
- if (LUnallocated::cast(instr->Output())->HasFixedPolicy()) ++fixed; |
- } |
- for (TempIterator it(instr); !it.Done(); it.Advance()) { |
- LUnallocated* operand = LUnallocated::cast(it.Current()); |
- if (operand->HasFixedPolicy()) ++fixed; |
- } |
- ASSERT(fixed == 0 || used_at_start == 0); |
+ // Make sure that the lithium instruction has either no fixed register |
+ // constraints in temps or the result OR no uses that are only used at |
+ // start. If this invariant doesn't hold, the register allocator can decide |
+ // to insert a split of a range immediately before the instruction due to an |
+ // already allocated register needing to be used for the instruction's fixed |
+ // register constraint. In this case, The register allocator won't see an |
+ // interference between the split child and the use-at-start (it would if |
+ // the it was just a plain use), so it is free to move the split child into |
+ // the same register that is used for the use-at-start. |
+ // See https://code.google.com/p/chromium/issues/detail?id=201590 |
+ if (!(instr->ClobbersRegisters() && |
+ instr->ClobbersDoubleRegisters(isolate()))) { |
+ int fixed = 0; |
+ int used_at_start = 0; |
+ for (UseIterator it(instr); !it.Done(); it.Advance()) { |
+ LUnallocated* operand = LUnallocated::cast(it.Current()); |
+ if (operand->IsUsedAtStart()) ++used_at_start; |
+ } |
+ if (instr->Output() != NULL) { |
+ if (LUnallocated::cast(instr->Output())->HasFixedPolicy()) ++fixed; |
} |
+ for (TempIterator it(instr); !it.Done(); it.Advance()) { |
+ LUnallocated* operand = LUnallocated::cast(it.Current()); |
+ if (operand->HasFixedPolicy()) ++fixed; |
+ } |
+ ASSERT(fixed == 0 || used_at_start == 0); |
+ } |
#endif |
- if (FLAG_stress_pointer_maps && !instr->HasPointerMap()) { |
- instr = AssignPointerMap(instr); |
- } |
- if (FLAG_stress_environments && !instr->HasEnvironment()) { |
- instr = AssignEnvironment(instr); |
+ if (FLAG_stress_pointer_maps && !instr->HasPointerMap()) { |
+ instr = AssignPointerMap(instr); |
+ } |
+ if (FLAG_stress_environments && !instr->HasEnvironment()) { |
+ instr = AssignEnvironment(instr); |
+ } |
+ chunk_->AddInstruction(instr, current_block_); |
+ |
+ if (instr->IsCall()) { |
+ HValue* hydrogen_value_for_lazy_bailout = hydrogen_val; |
+ LInstruction* instruction_needing_environment = NULL; |
+ if (hydrogen_val->HasObservableSideEffects()) { |
+ HSimulate* sim = HSimulate::cast(hydrogen_val->next()); |
+ instruction_needing_environment = instr; |
+ sim->ReplayEnvironment(current_block_->last_environment()); |
+ hydrogen_value_for_lazy_bailout = sim; |
} |
- chunk_->AddInstruction(instr, current_block_); |
- |
- if (instr->IsCall()) { |
- HValue* hydrogen_value_for_lazy_bailout = current; |
- LInstruction* instruction_needing_environment = NULL; |
- if (current->HasObservableSideEffects()) { |
- HSimulate* sim = HSimulate::cast(current->next()); |
- instruction_needing_environment = instr; |
- sim->ReplayEnvironment(current_block_->last_environment()); |
- hydrogen_value_for_lazy_bailout = sim; |
- } |
- LInstruction* bailout = AssignEnvironment(new(zone()) LLazyBailout()); |
- bailout->set_hydrogen_value(hydrogen_value_for_lazy_bailout); |
- chunk_->AddInstruction(bailout, current_block_); |
- if (instruction_needing_environment != NULL) { |
- // Store the lazy deopt environment with the instruction if needed. |
- // Right now it is only used for LInstanceOfKnownGlobal. |
- instruction_needing_environment-> |
- SetDeferredLazyDeoptimizationEnvironment(bailout->environment()); |
- } |
+ LInstruction* bailout = AssignEnvironment(new(zone()) LLazyBailout()); |
+ bailout->set_hydrogen_value(hydrogen_value_for_lazy_bailout); |
+ chunk_->AddInstruction(bailout, current_block_); |
+ if (instruction_needing_environment != NULL) { |
+ // Store the lazy deopt environment with the instruction if needed. |
+ // Right now it is only used for LInstanceOfKnownGlobal. |
+ instruction_needing_environment-> |
+ SetDeferredLazyDeoptimizationEnvironment(bailout->environment()); |
} |
} |
- current_instruction_ = old_current; |
} |