src/compiler/graph-builder.cc - platform/external/chromium_org/v8 - Git at Google

 // Copyright 2013 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/graph-builder.h"

 #include "src/compiler.h"
 #include "src/compiler/generic-graph.h"
 #include "src/compiler/generic-node.h"
 #include "src/compiler/generic-node-inl.h"
 #include "src/compiler/graph-visualizer.h"
 #include "src/compiler/node-properties.h"
 #include "src/compiler/node-properties-inl.h"
 #include "src/compiler/operator-properties.h"
 #include "src/compiler/operator-properties-inl.h"

 namespace v8 {
 namespace internal {
 namespace compiler {


 StructuredGraphBuilder::StructuredGraphBuilder(Graph* graph,
                                                CommonOperatorBuilder* common)
     : GraphBuilder(graph),
       common_(common),
       environment_(NULL),
       current_context_(NULL),
       exit_control_(NULL) {}


 Node* StructuredGraphBuilder::MakeNode(Operator* op, int value_input_count,
                                        Node** value_inputs) {
   bool has_context = OperatorProperties::HasContextInput(op);
   bool has_control = OperatorProperties::GetControlInputCount(op) == 1;
   bool has_effect = OperatorProperties::GetEffectInputCount(op) == 1;

   DCHECK(OperatorProperties::GetControlInputCount(op) < 2);
   DCHECK(OperatorProperties::GetEffectInputCount(op) < 2);

   Node* result = NULL;
   if (!has_context && !has_control && !has_effect) {
     result = graph()->NewNode(op, value_input_count, value_inputs);
   } else {
     int input_count_with_deps = value_input_count;
     if (has_context) ++input_count_with_deps;
     if (has_control) ++input_count_with_deps;
     if (has_effect) ++input_count_with_deps;
     void* raw_buffer = alloca(kPointerSize * input_count_with_deps);
     Node** buffer = reinterpret_cast<Node**>(raw_buffer);
     memcpy(buffer, value_inputs, kPointerSize * value_input_count);
     Node** current_input = buffer + value_input_count;
     if (has_context) {
       *current_input++ = current_context();
     }
     if (has_effect) {
       *current_input++ = environment_->GetEffectDependency();
     }
     if (has_control) {
       *current_input++ = environment_->GetControlDependency();
     }
     result = graph()->NewNode(op, input_count_with_deps, buffer);
     if (has_effect) {
       environment_->UpdateEffectDependency(result);
     }
     if (OperatorProperties::HasControlOutput(result->op()) &&
         !environment()->IsMarkedAsUnreachable()) {
       environment_->UpdateControlDependency(result);
     }
   }

   return result;
 }


 void StructuredGraphBuilder::UpdateControlDependencyToLeaveFunction(
     Node* exit) {
   if (environment()->IsMarkedAsUnreachable()) return;
   if (exit_control() != NULL) {
     exit = MergeControl(exit_control(), exit);
   }
   environment()->MarkAsUnreachable();
   set_exit_control(exit);
 }


 StructuredGraphBuilder::Environment* StructuredGraphBuilder::CopyEnvironment(
     Environment* env) {
   return new (zone()) Environment(*env);
 }


 StructuredGraphBuilder::Environment::Environment(
     StructuredGraphBuilder* builder, Node* control_dependency)
     : builder_(builder),
       control_dependency_(control_dependency),
       effect_dependency_(control_dependency),
       values_(NodeVector::allocator_type(zone())) {}


 StructuredGraphBuilder::Environment::Environment(const Environment& copy)
     : builder_(copy.builder()),
       control_dependency_(copy.control_dependency_),
       effect_dependency_(copy.effect_dependency_),
       values_(copy.values_) {}


 void StructuredGraphBuilder::Environment::Merge(Environment* other) {
   DCHECK(values_.size() == other->values_.size());

   // Nothing to do if the other environment is dead.
   if (other->IsMarkedAsUnreachable()) return;

   // Resurrect a dead environment by copying the contents of the other one and
   // placing a singleton merge as the new control dependency.
   if (this->IsMarkedAsUnreachable()) {
     Node* other_control = other->control_dependency_;
     control_dependency_ = graph()->NewNode(common()->Merge(1), other_control);
     effect_dependency_ = other->effect_dependency_;
     values_ = other->values_;
     return;
   }

   // Create a merge of the control dependencies of both environments and update
   // the current environment's control dependency accordingly.
   Node* control = builder_->MergeControl(this->GetControlDependency(),
                                          other->GetControlDependency());
   UpdateControlDependency(control);

   // Create a merge of the effect dependencies of both environments and update
   // the current environment's effect dependency accordingly.
   Node* effect = builder_->MergeEffect(this->GetEffectDependency(),
                                        other->GetEffectDependency(), control);
   UpdateEffectDependency(effect);

   // Introduce Phi nodes for values that have differing input at merge points,
   // potentially extending an existing Phi node if possible.
   for (int i = 0; i < static_cast<int>(values_.size()); ++i) {
     values_[i] = builder_->MergeValue(values_[i], other->values_[i], control);
   }
 }


 void StructuredGraphBuilder::Environment::PrepareForLoop() {
   Node* control = GetControlDependency();
   for (int i = 0; i < static_cast<int>(values()->size()); ++i) {
     Node* phi = builder_->NewPhi(1, values()->at(i), control);
     values()->at(i) = phi;
   }
   Node* effect = builder_->NewEffectPhi(1, GetEffectDependency(), control);
   UpdateEffectDependency(effect);
 }


 Node* StructuredGraphBuilder::NewPhi(int count, Node* input, Node* control) {
   Operator* phi_op = common()->Phi(count);
   void* raw_buffer = alloca(kPointerSize * (count + 1));
   Node** buffer = reinterpret_cast<Node**>(raw_buffer);
   MemsetPointer(buffer, input, count);
   buffer[count] = control;
   return graph()->NewNode(phi_op, count + 1, buffer);
 }


 // TODO(mstarzinger): Revisit this once we have proper effect states.
 Node* StructuredGraphBuilder::NewEffectPhi(int count, Node* input,
                                            Node* control) {
   Operator* phi_op = common()->EffectPhi(count);
   void* raw_buffer = alloca(kPointerSize * (count + 1));
   Node** buffer = reinterpret_cast<Node**>(raw_buffer);
   MemsetPointer(buffer, input, count);
   buffer[count] = control;
   return graph()->NewNode(phi_op, count + 1, buffer);
 }


 Node* StructuredGraphBuilder::MergeControl(Node* control, Node* other) {
   int inputs = OperatorProperties::GetControlInputCount(control->op()) + 1;
   if (control->opcode() == IrOpcode::kLoop) {
     // Control node for loop exists, add input.
     Operator* op = common()->Loop(inputs);
     control->AppendInput(zone(), other);
     control->set_op(op);
   } else if (control->opcode() == IrOpcode::kMerge) {
     // Control node for merge exists, add input.
     Operator* op = common()->Merge(inputs);
     control->AppendInput(zone(), other);
     control->set_op(op);
   } else {
     // Control node is a singleton, introduce a merge.
     Operator* op = common()->Merge(inputs);
     control = graph()->NewNode(op, control, other);
   }
   return control;
 }


 Node* StructuredGraphBuilder::MergeEffect(Node* value, Node* other,
                                           Node* control) {
   int inputs = OperatorProperties::GetControlInputCount(control->op());
   if (value->opcode() == IrOpcode::kEffectPhi &&
       NodeProperties::GetControlInput(value) == control) {
     // Phi already exists, add input.
     value->set_op(common()->EffectPhi(inputs));
     value->InsertInput(zone(), inputs - 1, other);
   } else if (value != other) {
     // Phi does not exist yet, introduce one.
     value = NewEffectPhi(inputs, value, control);
     value->ReplaceInput(inputs - 1, other);
   }
   return value;
 }


 Node* StructuredGraphBuilder::MergeValue(Node* value, Node* other,
                                          Node* control) {
   int inputs = OperatorProperties::GetControlInputCount(control->op());
   if (value->opcode() == IrOpcode::kPhi &&
       NodeProperties::GetControlInput(value) == control) {
     // Phi already exists, add input.
     value->set_op(common()->Phi(inputs));
     value->InsertInput(zone(), inputs - 1, other);
   } else if (value != other) {
     // Phi does not exist yet, introduce one.
     value = NewPhi(inputs, value, control);
     value->ReplaceInput(inputs - 1, other);
   }
   return value;
 }


 Node* StructuredGraphBuilder::dead_control() {
   if (!dead_control_.is_set()) {
     Node* dead_node = graph()->NewNode(common_->Dead());
     dead_control_.set(dead_node);
     return dead_node;
   }
   return dead_control_.get();
 }
 }
 }
 }  // namespace v8::internal::compiler
	// Copyright 2013 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/graph-builder.h"

	#include "src/compiler.h"
	#include "src/compiler/generic-graph.h"
	#include "src/compiler/generic-node.h"
	#include "src/compiler/generic-node-inl.h"
	#include "src/compiler/graph-visualizer.h"
	#include "src/compiler/node-properties.h"
	#include "src/compiler/node-properties-inl.h"
	#include "src/compiler/operator-properties.h"
	#include "src/compiler/operator-properties-inl.h"

	namespace v8 {
	namespace internal {
	namespace compiler {


	StructuredGraphBuilder::StructuredGraphBuilder(Graph* graph,
	CommonOperatorBuilder* common)
	: GraphBuilder(graph),
	common_(common),
	environment_(NULL),
	current_context_(NULL),
	exit_control_(NULL) {}


	Node* StructuredGraphBuilder::MakeNode(Operator* op, int value_input_count,
	Node** value_inputs) {
	bool has_context = OperatorProperties::HasContextInput(op);
	bool has_control = OperatorProperties::GetControlInputCount(op) == 1;
	bool has_effect = OperatorProperties::GetEffectInputCount(op) == 1;

	DCHECK(OperatorProperties::GetControlInputCount(op) < 2);
	DCHECK(OperatorProperties::GetEffectInputCount(op) < 2);

	Node* result = NULL;
	if (!has_context && !has_control && !has_effect) {
	result = graph()->NewNode(op, value_input_count, value_inputs);
	} else {
	int input_count_with_deps = value_input_count;
	if (has_context) ++input_count_with_deps;
	if (has_control) ++input_count_with_deps;
	if (has_effect) ++input_count_with_deps;
	void* raw_buffer = alloca(kPointerSize * input_count_with_deps);
	Node buffer = reinterpret_cast<Node>(raw_buffer);
	memcpy(buffer, value_inputs, kPointerSize * value_input_count);
	Node** current_input = buffer + value_input_count;
	if (has_context) {
	*current_input++ = current_context();
	}
	if (has_effect) {
	*current_input++ = environment_->GetEffectDependency();
	}
	if (has_control) {
	*current_input++ = environment_->GetControlDependency();
	}
	result = graph()->NewNode(op, input_count_with_deps, buffer);
	if (has_effect) {
	environment_->UpdateEffectDependency(result);
	}
	if (OperatorProperties::HasControlOutput(result->op()) &&
	!environment()->IsMarkedAsUnreachable()) {
	environment_->UpdateControlDependency(result);
	}
	}

	return result;
	}


	void StructuredGraphBuilder::UpdateControlDependencyToLeaveFunction(
	Node* exit) {
	if (environment()->IsMarkedAsUnreachable()) return;
	if (exit_control() != NULL) {
	exit = MergeControl(exit_control(), exit);
	}
	environment()->MarkAsUnreachable();
	set_exit_control(exit);
	}


	StructuredGraphBuilder::Environment* StructuredGraphBuilder::CopyEnvironment(
	Environment* env) {
	return new (zone()) Environment(*env);
	}


	StructuredGraphBuilder::Environment::Environment(
	StructuredGraphBuilder* builder, Node* control_dependency)
	: builder_(builder),
	control_dependency_(control_dependency),
	effect_dependency_(control_dependency),
	values_(NodeVector::allocator_type(zone())) {}


	StructuredGraphBuilder::Environment::Environment(const Environment& copy)
	: builder_(copy.builder()),
	control_dependency_(copy.control_dependency_),
	effect_dependency_(copy.effect_dependency_),
	values_(copy.values_) {}


	void StructuredGraphBuilder::Environment::Merge(Environment* other) {
	DCHECK(values_.size() == other->values_.size());

	// Nothing to do if the other environment is dead.
	if (other->IsMarkedAsUnreachable()) return;

	// Resurrect a dead environment by copying the contents of the other one and
	// placing a singleton merge as the new control dependency.
	if (this->IsMarkedAsUnreachable()) {
	Node* other_control = other->control_dependency_;
	control_dependency_ = graph()->NewNode(common()->Merge(1), other_control);
	effect_dependency_ = other->effect_dependency_;
	values_ = other->values_;
	return;
	}

	// Create a merge of the control dependencies of both environments and update
	// the current environment's control dependency accordingly.
	Node* control = builder_->MergeControl(this->GetControlDependency(),
	other->GetControlDependency());
	UpdateControlDependency(control);

	// Create a merge of the effect dependencies of both environments and update
	// the current environment's effect dependency accordingly.
	Node* effect = builder_->MergeEffect(this->GetEffectDependency(),
	other->GetEffectDependency(), control);
	UpdateEffectDependency(effect);

	// Introduce Phi nodes for values that have differing input at merge points,
	// potentially extending an existing Phi node if possible.
	for (int i = 0; i < static_cast<int>(values_.size()); ++i) {
	values_[i] = builder_->MergeValue(values_[i], other->values_[i], control);
	}
	}


	void StructuredGraphBuilder::Environment::PrepareForLoop() {
	Node* control = GetControlDependency();
	for (int i = 0; i < static_cast<int>(values()->size()); ++i) {
	Node* phi = builder_->NewPhi(1, values()->at(i), control);
	values()->at(i) = phi;
	}
	Node* effect = builder_->NewEffectPhi(1, GetEffectDependency(), control);
	UpdateEffectDependency(effect);
	}


	Node* StructuredGraphBuilder::NewPhi(int count, Node* input, Node* control) {
	Operator* phi_op = common()->Phi(count);
	void* raw_buffer = alloca(kPointerSize * (count + 1));
	Node buffer = reinterpret_cast<Node>(raw_buffer);
	MemsetPointer(buffer, input, count);
	buffer[count] = control;
	return graph()->NewNode(phi_op, count + 1, buffer);
	}


	// TODO(mstarzinger): Revisit this once we have proper effect states.
	Node* StructuredGraphBuilder::NewEffectPhi(int count, Node* input,
	Node* control) {
	Operator* phi_op = common()->EffectPhi(count);
	void* raw_buffer = alloca(kPointerSize * (count + 1));
	Node buffer = reinterpret_cast<Node>(raw_buffer);
	MemsetPointer(buffer, input, count);
	buffer[count] = control;
	return graph()->NewNode(phi_op, count + 1, buffer);
	}


	Node* StructuredGraphBuilder::MergeControl(Node* control, Node* other) {
	int inputs = OperatorProperties::GetControlInputCount(control->op()) + 1;
	if (control->opcode() == IrOpcode::kLoop) {
	// Control node for loop exists, add input.
	Operator* op = common()->Loop(inputs);
	control->AppendInput(zone(), other);
	control->set_op(op);
	} else if (control->opcode() == IrOpcode::kMerge) {
	// Control node for merge exists, add input.
	Operator* op = common()->Merge(inputs);
	control->AppendInput(zone(), other);
	control->set_op(op);
	} else {
	// Control node is a singleton, introduce a merge.
	Operator* op = common()->Merge(inputs);
	control = graph()->NewNode(op, control, other);
	}
	return control;
	}


	Node* StructuredGraphBuilder::MergeEffect(Node* value, Node* other,
	Node* control) {
	int inputs = OperatorProperties::GetControlInputCount(control->op());
	if (value->opcode() == IrOpcode::kEffectPhi &&
	NodeProperties::GetControlInput(value) == control) {
	// Phi already exists, add input.
	value->set_op(common()->EffectPhi(inputs));
	value->InsertInput(zone(), inputs - 1, other);
	} else if (value != other) {
	// Phi does not exist yet, introduce one.
	value = NewEffectPhi(inputs, value, control);
	value->ReplaceInput(inputs - 1, other);
	}
	return value;
	}


	Node* StructuredGraphBuilder::MergeValue(Node* value, Node* other,
	Node* control) {
	int inputs = OperatorProperties::GetControlInputCount(control->op());
	if (value->opcode() == IrOpcode::kPhi &&
	NodeProperties::GetControlInput(value) == control) {
	// Phi already exists, add input.
	value->set_op(common()->Phi(inputs));
	value->InsertInput(zone(), inputs - 1, other);
	} else if (value != other) {
	// Phi does not exist yet, introduce one.
	value = NewPhi(inputs, value, control);
	value->ReplaceInput(inputs - 1, other);
	}
	return value;
	}


	Node* StructuredGraphBuilder::dead_control() {
	if (!dead_control_.is_set()) {
	Node* dead_node = graph()->NewNode(common_->Dead());
	dead_control_.set(dead_node);
	return dead_node;
	}
	return dead_control_.get();
	}
	}
	}
	} // namespace v8::internal::compiler