// Copyright 2016 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.
#ifndef V8_COMPILER_LOOP_VARIABLE_OPTIMIZER_H_
#define V8_COMPILER_LOOP_VARIABLE_OPTIMIZER_H_
#include "src/zone/zone-containers.h"
namespace v8 {
namespace internal {
namespace compiler {
class CommonOperatorBuilder;
class Graph;
class Node;
class InductionVariable : public ZoneObject {
public:
Node* phi() const { return phi_; }
Node* arith() const { return arith_; }
Node* increment() const { return increment_; }
Node* init_value() const { return init_value_; }
enum ConstraintKind { kStrict, kNonStrict };
enum ArithmeticType { kAddition, kSubtraction };
struct Bound {
Bound(Node* bound, ConstraintKind kind) : bound(bound), kind(kind) {}
Node* bound;
ConstraintKind kind;
};
const ZoneVector<Bound>& lower_bounds() { return lower_bounds_; }
const ZoneVector<Bound>& upper_bounds() { return upper_bounds_; }
ArithmeticType Type() { return arithmeticType_; }
private:
friend class LoopVariableOptimizer;
InductionVariable(Node* phi, Node* arith, Node* increment, Node* init_value,
Zone* zone, ArithmeticType arithmeticType)
: phi_(phi),
arith_(arith),
increment_(increment),
init_value_(init_value),
lower_bounds_(zone),
upper_bounds_(zone),
arithmeticType_(arithmeticType) {}
void AddUpperBound(Node* bound, ConstraintKind kind);
void AddLowerBound(Node* bound, ConstraintKind kind);
Node* phi_;
Node* arith_;
Node* increment_;
Node* init_value_;
ZoneVector<Bound> lower_bounds_;
ZoneVector<Bound> upper_bounds_;
ArithmeticType arithmeticType_;
};
class LoopVariableOptimizer {
public:
void Run();
LoopVariableOptimizer(Graph* graph, CommonOperatorBuilder* common,
Zone* zone);
const ZoneMap<int, InductionVariable*>& induction_variables() {
return induction_vars_;
}
void ChangeToInductionVariablePhis();
void ChangeToPhisAndInsertGuards();
private:
const int kAssumedLoopEntryIndex = 0;
const int kFirstBackedge = 1;
class Constraint;
class VariableLimits;
void VisitBackedge(Node* from, Node* loop);
void VisitNode(Node* node);
void VisitMerge(Node* node);
void VisitLoop(Node* node);
void VisitIf(Node* node, bool polarity);
void VisitStart(Node* node);
void VisitLoopExit(Node* node);
void VisitOtherControl(Node* node);
void AddCmpToLimits(VariableLimits* limits, Node* node,
InductionVariable::ConstraintKind kind, bool polarity);
void TakeConditionsFromFirstControl(Node* node);
const InductionVariable* FindInductionVariable(Node* node);
InductionVariable* TryGetInductionVariable(Node* phi);
void DetectInductionVariables(Node* loop);
Graph* graph() { return graph_; }
CommonOperatorBuilder* common() { return common_; }
Zone* zone() { return zone_; }
Graph* graph_;
CommonOperatorBuilder* common_;
Zone* zone_;
ZoneVector<const VariableLimits*> limits_;
ZoneMap<int, InductionVariable*> induction_vars_;
};
} // namespace compiler
} // namespace internal
} // namespace v8
#endif // V8_COMPILER_LOOP_VARIABLE_OPTIMIZER_H_