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// Copyright 2006-2008 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "v8.h"
#include "ast.h"
#include "scopes.h"
#include "usage-analyzer.h"
namespace v8 {
namespace internal {
// Weight boundaries
static const int MinWeight = 1;
static const int MaxWeight = 1000000;
static const int InitialWeight = 100;
class UsageComputer: public AstVisitor {
public:
static bool Traverse(AstNode* node);
// AST node visit functions.
#define DECLARE_VISIT(type) void Visit##type(type* node);
AST_NODE_LIST(DECLARE_VISIT)
#undef DECLARE_VISIT
void VisitVariable(Variable* var);
private:
int weight_;
bool is_write_;
UsageComputer(int weight, bool is_write);
virtual ~UsageComputer();
// Helper functions
void RecordUses(UseCount* uses);
void Read(Expression* x);
void Write(Expression* x);
void ReadList(ZoneList<Expression*>* list);
void ReadList(ZoneList<ObjectLiteral::Property*>* list);
friend class WeightScaler;
};
class WeightScaler BASE_EMBEDDED {
public:
WeightScaler(UsageComputer* uc, float scale);
~WeightScaler();
private:
UsageComputer* uc_;
int old_weight_;
};
// ----------------------------------------------------------------------------
// Implementation of UsageComputer
bool UsageComputer::Traverse(AstNode* node) {
UsageComputer uc(InitialWeight, false);
uc.Visit(node);
return !uc.HasStackOverflow();
}
void UsageComputer::VisitBlock(Block* node) {
VisitStatements(node->statements());
}
void UsageComputer::VisitDeclaration(Declaration* node) {
Write(node->proxy());
if (node->fun() != NULL)
VisitFunctionLiteral(node->fun());
}
void UsageComputer::VisitExpressionStatement(ExpressionStatement* node) {
Visit(node->expression());
}
void UsageComputer::VisitEmptyStatement(EmptyStatement* node) {
// nothing to do
}
void UsageComputer::VisitIfStatement(IfStatement* node) {
Read(node->condition());
{ WeightScaler ws(this, 0.5); // executed 50% of the time
Visit(node->then_statement());
Visit(node->else_statement());
}
}
void UsageComputer::VisitContinueStatement(ContinueStatement* node) {
// nothing to do
}
void UsageComputer::VisitBreakStatement(BreakStatement* node) {
// nothing to do
}
void UsageComputer::VisitReturnStatement(ReturnStatement* node) {
Read(node->expression());
}
void UsageComputer::VisitWithEnterStatement(WithEnterStatement* node) {
Read(node->expression());
}
void UsageComputer::VisitWithExitStatement(WithExitStatement* node) {
// nothing to do
}
void UsageComputer::VisitSwitchStatement(SwitchStatement* node) {
Read(node->tag());
ZoneList<CaseClause*>* cases = node->cases();
for (int i = cases->length(); i-- > 0;) {
WeightScaler ws(this, static_cast<float>(1.0 / cases->length()));
CaseClause* clause = cases->at(i);
if (!clause->is_default())
Read(clause->label());
VisitStatements(clause->statements());
}
}
void UsageComputer::VisitDoWhileStatement(DoWhileStatement* node) {
WeightScaler ws(this, 10.0);
Read(node->cond());
Visit(node->body());
}
void UsageComputer::VisitWhileStatement(WhileStatement* node) {
WeightScaler ws(this, 10.0);
Read(node->cond());
Visit(node->body());
}
void UsageComputer::VisitForStatement(ForStatement* node) {
if (node->init() != NULL) Visit(node->init());
{ WeightScaler ws(this, 10.0); // executed in each iteration
if (node->cond() != NULL) Read(node->cond());
if (node->next() != NULL) Visit(node->next());
Visit(node->body());
}
}
void UsageComputer::VisitForInStatement(ForInStatement* node) {
WeightScaler ws(this, 10.0);
Write(node->each());
Read(node->enumerable());
Visit(node->body());
}
void UsageComputer::VisitTryCatchStatement(TryCatchStatement* node) {
Visit(node->try_block());
{ WeightScaler ws(this, 0.25);
Write(node->catch_var());
Visit(node->catch_block());
}
}
void UsageComputer::VisitTryFinallyStatement(TryFinallyStatement* node) {
Visit(node->try_block());
Visit(node->finally_block());
}
void UsageComputer::VisitDebuggerStatement(DebuggerStatement* node) {
}
void UsageComputer::VisitFunctionLiteral(FunctionLiteral* node) {
ZoneList<Declaration*>* decls = node->scope()->declarations();
for (int i = 0; i < decls->length(); i++) VisitDeclaration(decls->at(i));
VisitStatements(node->body());
}
void UsageComputer::VisitFunctionBoilerplateLiteral(
FunctionBoilerplateLiteral* node) {
// Do nothing.
}
void UsageComputer::VisitConditional(Conditional* node) {
Read(node->condition());
{ WeightScaler ws(this, 0.5);
Read(node->then_expression());
Read(node->else_expression());
}
}
void UsageComputer::VisitSlot(Slot* node) {
UNREACHABLE();
}
void UsageComputer::VisitVariable(Variable* node) {
RecordUses(node->var_uses());
}
void UsageComputer::VisitVariableProxy(VariableProxy* node) {
// The proxy may refer to a variable in which case it was bound via
// VariableProxy::BindTo.
RecordUses(node->var_uses());
}
void UsageComputer::VisitLiteral(Literal* node) {
// nothing to do
}
void UsageComputer::VisitRegExpLiteral(RegExpLiteral* node) {
// nothing to do
}
void UsageComputer::VisitObjectLiteral(ObjectLiteral* node) {
ReadList(node->properties());
}
void UsageComputer::VisitArrayLiteral(ArrayLiteral* node) {
ReadList(node->values());
}
void UsageComputer::VisitCatchExtensionObject(CatchExtensionObject* node) {
Read(node->value());
}
void UsageComputer::VisitAssignment(Assignment* node) {
if (node->op() != Token::ASSIGN)
Read(node->target());
Write(node->target());
Read(node->value());
}
void UsageComputer::VisitThrow(Throw* node) {
Read(node->exception());
}
void UsageComputer::VisitProperty(Property* node) {
// In any case (read or write) we read both the
// node's object and the key.
Read(node->obj());
Read(node->key());
// If the node's object is a variable proxy,
// we have a 'simple' object property access. We count
// the access via the variable or proxy's object uses.
VariableProxy* proxy = node->obj()->AsVariableProxy();
if (proxy != NULL) {
RecordUses(proxy->obj_uses());
}
}
void UsageComputer::VisitCall(Call* node) {
Read(node->expression());
ReadList(node->arguments());
}
void UsageComputer::VisitCallNew(CallNew* node) {
Read(node->expression());
ReadList(node->arguments());
}
void UsageComputer::VisitCallRuntime(CallRuntime* node) {
ReadList(node->arguments());
}
void UsageComputer::VisitUnaryOperation(UnaryOperation* node) {
Read(node->expression());
}
void UsageComputer::VisitCountOperation(CountOperation* node) {
Read(node->expression());
Write(node->expression());
}
void UsageComputer::VisitBinaryOperation(BinaryOperation* node) {
Read(node->left());
Read(node->right());
}
void UsageComputer::VisitCompareOperation(CompareOperation* node) {
Read(node->left());
Read(node->right());
}
void UsageComputer::VisitThisFunction(ThisFunction* node) {
}
UsageComputer::UsageComputer(int weight, bool is_write) {
weight_ = weight;
is_write_ = is_write;
}
UsageComputer::~UsageComputer() {
// nothing to do
}
void UsageComputer::RecordUses(UseCount* uses) {
if (is_write_)
uses->RecordWrite(weight_);
else
uses->RecordRead(weight_);
}
void UsageComputer::Read(Expression* x) {
if (is_write_) {
UsageComputer uc(weight_, false);
uc.Visit(x);
} else {
Visit(x);
}
}
void UsageComputer::Write(Expression* x) {
if (!is_write_) {
UsageComputer uc(weight_, true);
uc.Visit(x);
} else {
Visit(x);
}
}
void UsageComputer::ReadList(ZoneList<Expression*>* list) {
for (int i = list->length(); i-- > 0; )
Read(list->at(i));
}
void UsageComputer::ReadList(ZoneList<ObjectLiteral::Property*>* list) {
for (int i = list->length(); i-- > 0; )
Read(list->at(i)->value());
}
// ----------------------------------------------------------------------------
// Implementation of WeightScaler
WeightScaler::WeightScaler(UsageComputer* uc, float scale) {
uc_ = uc;
old_weight_ = uc->weight_;
int new_weight = static_cast<int>(uc->weight_ * scale);
if (new_weight <= 0) new_weight = MinWeight;
else if (new_weight > MaxWeight) new_weight = MaxWeight;
uc->weight_ = new_weight;
}
WeightScaler::~WeightScaler() {
uc_->weight_ = old_weight_;
}
// ----------------------------------------------------------------------------
// Interface to variable usage analysis
bool AnalyzeVariableUsage(FunctionLiteral* lit) {
if (!FLAG_usage_computation) return true;
HistogramTimerScope timer(&Counters::usage_analysis);
return UsageComputer::Traverse(lit);
}
} } // namespace v8::internal
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