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cobalt / cobalt / 3933d9286b8c6b81e480dfbd894336405c89faa3 / . / src / v8 / src / compiler / raw-machine-assembler.cc
blob: ed67c06cc76afd34f408f895e5ec7da9c02f7e2e [file] [log] [blame]
// Copyright 2014 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/compiler/raw-machine-assembler.h"
#include "src/compiler/node-properties.h"
#include "src/compiler/pipeline.h"
#include "src/compiler/scheduler.h"
#include "src/factory-inl.h"
namespace v8 {
namespace internal {
namespace compiler {
RawMachineAssembler::RawMachineAssembler(
Isolate* isolate, Graph* graph, CallDescriptor* call_descriptor,
MachineRepresentation word, MachineOperatorBuilder::Flags flags,
MachineOperatorBuilder::AlignmentRequirements alignment_requirements)
: isolate_(isolate),
graph_(graph),
schedule_(new (zone()) Schedule(zone())),
machine_(zone(), word, flags, alignment_requirements),
common_(zone()),
call_descriptor_(call_descriptor),
parameters_(parameter_count(), zone()),
current_block_(schedule()->start()) {
int param_count = static_cast<int>(parameter_count());
// Add an extra input for the JSFunction parameter to the start node.
graph->SetStart(graph->NewNode(common_.Start(param_count + 1)));
for (size_t i = 0; i < parameter_count(); ++i) {
parameters_[i] =
AddNode(common()->Parameter(static_cast<int>(i)), graph->start());
}
graph->SetEnd(graph->NewNode(common_.End(0)));
}
Node* RawMachineAssembler::NullConstant() {
return HeapConstant(isolate()->factory()->null_value());
}
Node* RawMachineAssembler::UndefinedConstant() {
return HeapConstant(isolate()->factory()->undefined_value());
}
Node* RawMachineAssembler::RelocatableIntPtrConstant(intptr_t value,
RelocInfo::Mode rmode) {
return kPointerSize == 8
? RelocatableInt64Constant(value, rmode)
: RelocatableInt32Constant(static_cast<int>(value), rmode);
}
Schedule* RawMachineAssembler::Export() {
// Compute the correct codegen order.
DCHECK(schedule_->rpo_order()->empty());
OFStream os(stdout);
if (FLAG_trace_turbo_scheduler) {
PrintF("--- RAW SCHEDULE -------------------------------------------\n");
os << *schedule_;
}
schedule_->EnsureCFGWellFormedness();
Scheduler::ComputeSpecialRPO(zone(), schedule_);
schedule_->PropagateDeferredMark();
if (FLAG_trace_turbo_scheduler) {
PrintF("--- EDGE SPLIT AND PROPAGATED DEFERRED SCHEDULE ------------\n");
os << *schedule_;
}
// Invalidate RawMachineAssembler.
Schedule* schedule = schedule_;
schedule_ = nullptr;
return schedule;
}
Node* RawMachineAssembler::Parameter(size_t index) {
DCHECK(index < parameter_count());
return parameters_[index];
}
void RawMachineAssembler::Goto(RawMachineLabel* label) {
DCHECK(current_block_ != schedule()->end());
schedule()->AddGoto(CurrentBlock(), Use(label));
current_block_ = nullptr;
}
void RawMachineAssembler::Branch(Node* condition, RawMachineLabel* true_val,
RawMachineLabel* false_val) {
DCHECK(current_block_ != schedule()->end());
Node* branch = MakeNode(common()->Branch(), 1, &condition);
schedule()->AddBranch(CurrentBlock(), branch, Use(true_val), Use(false_val));
current_block_ = nullptr;
}
void RawMachineAssembler::Continuations(Node* call, RawMachineLabel* if_success,
RawMachineLabel* if_exception) {
DCHECK_NOT_NULL(schedule_);
DCHECK_NOT_NULL(current_block_);
schedule()->AddCall(CurrentBlock(), call, Use(if_success), Use(if_exception));
current_block_ = nullptr;
}
void RawMachineAssembler::Switch(Node* index, RawMachineLabel* default_label,
const int32_t* case_values,
RawMachineLabel** case_labels,
size_t case_count) {
DCHECK_NE(schedule()->end(), current_block_);
size_t succ_count = case_count + 1;
Node* switch_node = AddNode(common()->Switch(succ_count), index);
BasicBlock** succ_blocks = zone()->NewArray<BasicBlock*>(succ_count);
for (size_t index = 0; index < case_count; ++index) {
int32_t case_value = case_values[index];
BasicBlock* case_block = schedule()->NewBasicBlock();
Node* case_node =
graph()->NewNode(common()->IfValue(case_value), switch_node);
schedule()->AddNode(case_block, case_node);
schedule()->AddGoto(case_block, Use(case_labels[index]));
succ_blocks[index] = case_block;
}
BasicBlock* default_block = schedule()->NewBasicBlock();
Node* default_node = graph()->NewNode(common()->IfDefault(), switch_node);
schedule()->AddNode(default_block, default_node);
schedule()->AddGoto(default_block, Use(default_label));
succ_blocks[case_count] = default_block;
schedule()->AddSwitch(CurrentBlock(), switch_node, succ_blocks, succ_count);
current_block_ = nullptr;
}
void RawMachineAssembler::Return(Node* value) {
Node* values[] = {Int32Constant(0), value};
Node* ret = MakeNode(common()->Return(1), 2, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::Return(Node* v1, Node* v2) {
Node* values[] = {Int32Constant(0), v1, v2};
Node* ret = MakeNode(common()->Return(2), 3, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::Return(Node* v1, Node* v2, Node* v3) {
Node* values[] = {Int32Constant(0), v1, v2, v3};
Node* ret = MakeNode(common()->Return(3), 4, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::Return(Node* v1, Node* v2, Node* v3, Node* v4) {
Node* values[] = {Int32Constant(0), v1, v2, v3, v4};
Node* ret = MakeNode(common()->Return(4), 5, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::Return(int count, Node* vs[]) {
typedef Node* Node_ptr;
Node** values = new Node_ptr[count + 1];
values[0] = Int32Constant(0);
for (int i = 0; i < count; ++i) values[i + 1] = vs[i];
Node* ret = MakeNode(common()->Return(count), count + 1, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
delete[] values;
}
void RawMachineAssembler::PopAndReturn(Node* pop, Node* value) {
Node* values[] = {pop, value};
Node* ret = MakeNode(common()->Return(1), 2, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::PopAndReturn(Node* pop, Node* v1, Node* v2) {
Node* values[] = {pop, v1, v2};
Node* ret = MakeNode(common()->Return(2), 3, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::PopAndReturn(Node* pop, Node* v1, Node* v2,
Node* v3) {
Node* values[] = {pop, v1, v2, v3};
Node* ret = MakeNode(common()->Return(3), 4, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::PopAndReturn(Node* pop, Node* v1, Node* v2, Node* v3,
Node* v4) {
Node* values[] = {pop, v1, v2, v3, v4};
Node* ret = MakeNode(common()->Return(4), 5, values);
schedule()->AddReturn(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::DebugAbort(Node* message) {
AddNode(machine()->DebugAbort(), message);
}
void RawMachineAssembler::DebugBreak() { AddNode(machine()->DebugBreak()); }
void RawMachineAssembler::Unreachable() {
Node* ret = MakeNode(common()->Throw(), 0, nullptr);
schedule()->AddThrow(CurrentBlock(), ret);
current_block_ = nullptr;
}
void RawMachineAssembler::Comment(const char* msg) {
AddNode(machine()->Comment(msg));
}
Node* RawMachineAssembler::CallN(CallDescriptor* desc, int input_count,
Node* const* inputs) {
DCHECK(!desc->NeedsFrameState());
// +1 is for target.
DCHECK_EQ(input_count, desc->ParameterCount() + 1);
return AddNode(common()->Call(desc), input_count, inputs);
}
Node* RawMachineAssembler::CallNWithFrameState(CallDescriptor* desc,
int input_count,
Node* const* inputs) {
DCHECK(desc->NeedsFrameState());
// +2 is for target and frame state.
DCHECK_EQ(input_count, desc->ParameterCount() + 2);
return AddNode(common()->Call(desc), input_count, inputs);
}
Node* RawMachineAssembler::TailCallN(CallDescriptor* desc, int input_count,
Node* const* inputs) {
// +1 is for target.
DCHECK_EQ(input_count, desc->ParameterCount() + 1);
Node* tail_call = MakeNode(common()->TailCall(desc), input_count, inputs);
schedule()->AddTailCall(CurrentBlock(), tail_call);
current_block_ = nullptr;
return tail_call;
}
Node* RawMachineAssembler::CallCFunction0(MachineType return_type,
Node* function) {
MachineSignature::Builder builder(zone(), 1, 0);
builder.AddReturn(return_type);
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), function);
}
Node* RawMachineAssembler::CallCFunction1(MachineType return_type,
MachineType arg0_type, Node* function,
Node* arg0) {
MachineSignature::Builder builder(zone(), 1, 1);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), function, arg0);
}
Node* RawMachineAssembler::CallCFunction1WithCallerSavedRegisters(
MachineType return_type, MachineType arg0_type, Node* function, Node* arg0,
SaveFPRegsMode mode) {
MachineSignature::Builder builder(zone(), 1, 1);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
descriptor->set_save_fp_mode(mode);
return AddNode(common()->CallWithCallerSavedRegisters(descriptor), function,
arg0);
}
Node* RawMachineAssembler::CallCFunction2(MachineType return_type,
MachineType arg0_type,
MachineType arg1_type, Node* function,
Node* arg0, Node* arg1) {
MachineSignature::Builder builder(zone(), 1, 2);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
builder.AddParam(arg1_type);
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), function, arg0, arg1);
}
Node* RawMachineAssembler::CallCFunction3(MachineType return_type,
MachineType arg0_type,
MachineType arg1_type,
MachineType arg2_type, Node* function,
Node* arg0, Node* arg1, Node* arg2) {
MachineSignature::Builder builder(zone(), 1, 3);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
builder.AddParam(arg1_type);
builder.AddParam(arg2_type);
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), function, arg0, arg1, arg2);
}
Node* RawMachineAssembler::CallCFunction3WithCallerSavedRegisters(
MachineType return_type, MachineType arg0_type, MachineType arg1_type,
MachineType arg2_type, Node* function, Node* arg0, Node* arg1, Node* arg2,
SaveFPRegsMode mode) {
MachineSignature::Builder builder(zone(), 1, 3);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
builder.AddParam(arg1_type);
builder.AddParam(arg2_type);
CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
descriptor->set_save_fp_mode(mode);
return AddNode(common()->CallWithCallerSavedRegisters(descriptor), function,
arg0, arg1, arg2);
}
Node* RawMachineAssembler::CallCFunction4(
MachineType return_type, MachineType arg0_type, MachineType arg1_type,
MachineType arg2_type, MachineType arg3_type, Node* function, Node* arg0,
Node* arg1, Node* arg2, Node* arg3) {
MachineSignature::Builder builder(zone(), 1, 4);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
builder.AddParam(arg1_type);
builder.AddParam(arg2_type);
builder.AddParam(arg3_type);
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), function, arg0, arg1, arg2, arg3);
}
Node* RawMachineAssembler::CallCFunction5(
MachineType return_type, MachineType arg0_type, MachineType arg1_type,
MachineType arg2_type, MachineType arg3_type, MachineType arg4_type,
Node* function, Node* arg0, Node* arg1, Node* arg2, Node* arg3,
Node* arg4) {
MachineSignature::Builder builder(zone(), 1, 5);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
builder.AddParam(arg1_type);
builder.AddParam(arg2_type);
builder.AddParam(arg3_type);
builder.AddParam(arg4_type);
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), function, arg0, arg1, arg2, arg3,
arg4);
}
Node* RawMachineAssembler::CallCFunction6(
MachineType return_type, MachineType arg0_type, MachineType arg1_type,
MachineType arg2_type, MachineType arg3_type, MachineType arg4_type,
MachineType arg5_type, Node* function, Node* arg0, Node* arg1, Node* arg2,
Node* arg3, Node* arg4, Node* arg5) {
MachineSignature::Builder builder(zone(), 1, 6);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
builder.AddParam(arg1_type);
builder.AddParam(arg2_type);
builder.AddParam(arg3_type);
builder.AddParam(arg4_type);
builder.AddParam(arg5_type);
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), function, arg0, arg1, arg2, arg3,
arg4, arg5);
}
Node* RawMachineAssembler::CallCFunction8(
MachineType return_type, MachineType arg0_type, MachineType arg1_type,
MachineType arg2_type, MachineType arg3_type, MachineType arg4_type,
MachineType arg5_type, MachineType arg6_type, MachineType arg7_type,
Node* function, Node* arg0, Node* arg1, Node* arg2, Node* arg3, Node* arg4,
Node* arg5, Node* arg6, Node* arg7) {
MachineSignature::Builder builder(zone(), 1, 8);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
builder.AddParam(arg1_type);
builder.AddParam(arg2_type);
builder.AddParam(arg3_type);
builder.AddParam(arg4_type);
builder.AddParam(arg5_type);
builder.AddParam(arg6_type);
builder.AddParam(arg7_type);
Node* args[] = {function, arg0, arg1, arg2, arg3, arg4, arg5, arg6, arg7};
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), arraysize(args), args);
}
Node* RawMachineAssembler::CallCFunction9(
MachineType return_type, MachineType arg0_type, MachineType arg1_type,
MachineType arg2_type, MachineType arg3_type, MachineType arg4_type,
MachineType arg5_type, MachineType arg6_type, MachineType arg7_type,
MachineType arg8_type, Node* function, Node* arg0, Node* arg1, Node* arg2,
Node* arg3, Node* arg4, Node* arg5, Node* arg6, Node* arg7, Node* arg8) {
MachineSignature::Builder builder(zone(), 1, 9);
builder.AddReturn(return_type);
builder.AddParam(arg0_type);
builder.AddParam(arg1_type);
builder.AddParam(arg2_type);
builder.AddParam(arg3_type);
builder.AddParam(arg4_type);
builder.AddParam(arg5_type);
builder.AddParam(arg6_type);
builder.AddParam(arg7_type);
builder.AddParam(arg8_type);
Node* args[] = {function, arg0, arg1, arg2, arg3,
arg4, arg5, arg6, arg7, arg8};
const CallDescriptor* descriptor =
Linkage::GetSimplifiedCDescriptor(zone(), builder.Build());
return AddNode(common()->Call(descriptor), arraysize(args), args);
}
BasicBlock* RawMachineAssembler::Use(RawMachineLabel* label) {
label->used_ = true;
return EnsureBlock(label);
}
BasicBlock* RawMachineAssembler::EnsureBlock(RawMachineLabel* label) {
if (label->block_ == nullptr) {
label->block_ = schedule()->NewBasicBlock();
}
return label->block_;
}
void RawMachineAssembler::Bind(RawMachineLabel* label) {
DCHECK_NULL(current_block_);
DCHECK(!label->bound_);
label->bound_ = true;
current_block_ = EnsureBlock(label);
current_block_->set_deferred(label->deferred_);
}
#if DEBUG
void RawMachineAssembler::Bind(RawMachineLabel* label,
AssemblerDebugInfo info) {
if (current_block_ != nullptr) {
std::stringstream str;
str << "Binding label without closing previous block:"
<< "\n# label: " << info
<< "\n# previous block: " << *current_block_;
FATAL("%s", str.str().c_str());
}
Bind(label);
current_block_->set_debug_info(info);
}
void RawMachineAssembler::PrintCurrentBlock(std::ostream& os) {
os << CurrentBlock();
}
bool RawMachineAssembler::InsideBlock() { return current_block_ != nullptr; }
void RawMachineAssembler::SetInitialDebugInformation(
AssemblerDebugInfo debug_info) {
CurrentBlock()->set_debug_info(debug_info);
}
#endif // DEBUG
BasicBlock* RawMachineAssembler::CurrentBlock() {
DCHECK(current_block_);
return current_block_;
}
Node* RawMachineAssembler::Phi(MachineRepresentation rep, int input_count,
Node* const* inputs) {
Node** buffer = new (zone()->New(sizeof(Node*) * (input_count + 1)))
Node*[input_count + 1];
std::copy(inputs, inputs + input_count, buffer);
buffer[input_count] = graph()->start();
return AddNode(common()->Phi(rep, input_count), input_count + 1, buffer);
}
void RawMachineAssembler::AppendPhiInput(Node* phi, Node* new_input) {
const Operator* op = phi->op();
const Operator* new_op = common()->ResizeMergeOrPhi(op, phi->InputCount());
phi->InsertInput(zone(), phi->InputCount() - 1, new_input);
NodeProperties::ChangeOp(phi, new_op);
}
Node* RawMachineAssembler::AddNode(const Operator* op, int input_count,
Node* const* inputs) {
DCHECK_NOT_NULL(schedule_);
DCHECK_NOT_NULL(current_block_);
Node* node = MakeNode(op, input_count, inputs);
schedule()->AddNode(CurrentBlock(), node);
return node;
}
Node* RawMachineAssembler::MakeNode(const Operator* op, int input_count,
Node* const* inputs) {
// The raw machine assembler nodes do not have effect and control inputs,
// so we disable checking input counts here.
return graph()->NewNodeUnchecked(op, input_count, inputs);
}
RawMachineLabel::~RawMachineLabel() {
#if DEBUG
if (bound_ == used_) return;
std::stringstream str;
if (bound_) {
str << "A label has been bound but it's not used."
<< "\n# label: " << *block_;
} else {
str << "A label has been used but it's not bound.";
}
FATAL("%s", str.str().c_str());
#endif // DEBUG
}
} // namespace compiler
} // namespace internal
} // namespace v8