diff options
Diffstat (limited to 'deps/v8/src/data-flow.cc')
| -rw-r--r-- | deps/v8/src/data-flow.cc | 906 |
1 files changed, 906 insertions, 0 deletions
diff --git a/deps/v8/src/data-flow.cc b/deps/v8/src/data-flow.cc index 5e9d217d2a..6b45da02b9 100644 --- a/deps/v8/src/data-flow.cc +++ b/deps/v8/src/data-flow.cc @@ -33,6 +33,540 @@ namespace v8 { namespace internal { +void FlowGraph::AppendInstruction(AstNode* instruction) { + ASSERT(instruction != NULL); + if (is_empty() || !exit()->IsBlockNode()) { + AppendNode(new BlockNode()); + } + BlockNode::cast(exit())->AddInstruction(instruction); +} + + +void FlowGraph::AppendNode(Node* node) { + ASSERT(node != NULL); + if (is_empty()) { + entry_ = exit_ = node; + } else { + exit()->AddSuccessor(node); + node->AddPredecessor(exit()); + exit_ = node; + } +} + + +void FlowGraph::AppendGraph(FlowGraph* graph) { + ASSERT(!graph->is_empty()); + if (is_empty()) { + entry_ = graph->entry(); + exit_ = graph->exit(); + } else { + exit()->AddSuccessor(graph->entry()); + graph->entry()->AddPredecessor(exit()); + exit_ = graph->exit(); + } +} + + +void FlowGraph::Split(BranchNode* branch, + FlowGraph* left, + FlowGraph* right, + JoinNode* merge) { + // Graphs are in edge split form. Add empty blocks if necessary. + if (left->is_empty()) left->AppendNode(new BlockNode()); + if (right->is_empty()) right->AppendNode(new BlockNode()); + + // Add the branch, left flowgraph and merge. + AppendNode(branch); + AppendGraph(left); + AppendNode(merge); + + // Splice in the right flowgraph. + right->AppendNode(merge); + branch->AddSuccessor(right->entry()); + right->entry()->AddPredecessor(branch); +} + + +void FlowGraph::Loop(JoinNode* merge, + FlowGraph* condition, + BranchNode* branch, + FlowGraph* body) { + // Add the merge, condition and branch. Add merge's predecessors in + // left-to-right order. + AppendNode(merge); + body->AppendNode(merge); + AppendGraph(condition); + AppendNode(branch); + + // Splice in the body flowgraph. + branch->AddSuccessor(body->entry()); + body->entry()->AddPredecessor(branch); +} + + +void EntryNode::Traverse(bool mark, + ZoneList<Node*>* preorder, + ZoneList<Node*>* postorder) { + ASSERT(successor_ != NULL); + preorder->Add(this); + if (!successor_->IsMarkedWith(mark)) { + successor_->MarkWith(mark); + successor_->Traverse(mark, preorder, postorder); + } + postorder->Add(this); +} + + +void ExitNode::Traverse(bool mark, + ZoneList<Node*>* preorder, + ZoneList<Node*>* postorder) { + preorder->Add(this); + postorder->Add(this); +} + + +void BlockNode::Traverse(bool mark, + ZoneList<Node*>* preorder, + ZoneList<Node*>* postorder) { + ASSERT(successor_ != NULL); + preorder->Add(this); + if (!successor_->IsMarkedWith(mark)) { + successor_->MarkWith(mark); + successor_->Traverse(mark, preorder, postorder); + } + postorder->Add(this); +} + + +void BranchNode::Traverse(bool mark, + ZoneList<Node*>* preorder, + ZoneList<Node*>* postorder) { + ASSERT(successor0_ != NULL && successor1_ != NULL); + preorder->Add(this); + if (!successor0_->IsMarkedWith(mark)) { + successor0_->MarkWith(mark); + successor0_->Traverse(mark, preorder, postorder); + } + if (!successor1_->IsMarkedWith(mark)) { + successor1_->MarkWith(mark); + successor1_->Traverse(mark, preorder, postorder); + } + postorder->Add(this); +} + + +void JoinNode::Traverse(bool mark, + ZoneList<Node*>* preorder, + ZoneList<Node*>* postorder) { + ASSERT(successor_ != NULL); + preorder->Add(this); + if (!successor_->IsMarkedWith(mark)) { + successor_->MarkWith(mark); + successor_->Traverse(mark, preorder, postorder); + } + postorder->Add(this); +} + + +void FlowGraphBuilder::Build(FunctionLiteral* lit) { + graph_ = FlowGraph::Empty(); + graph_.AppendNode(new EntryNode()); + global_exit_ = new ExitNode(); + VisitStatements(lit->body()); + + if (HasStackOverflow()) { + graph_ = FlowGraph::Empty(); + return; + } + + graph_.AppendNode(global_exit_); + + // Build preorder and postorder traversal orders. All the nodes in + // the graph have the same mark flag. For the traversal, use that + // flag's negation. Traversal will flip all the flags. + bool mark = graph_.entry()->IsMarkedWith(false); + graph_.entry()->MarkWith(mark); + graph_.entry()->Traverse(mark, &preorder_, &postorder_); +} + + +void FlowGraphBuilder::VisitDeclaration(Declaration* decl) { + UNREACHABLE(); +} + + +void FlowGraphBuilder::VisitBlock(Block* stmt) { + VisitStatements(stmt->statements()); +} + + +void FlowGraphBuilder::VisitExpressionStatement(ExpressionStatement* stmt) { + Visit(stmt->expression()); +} + + +void FlowGraphBuilder::VisitEmptyStatement(EmptyStatement* stmt) { + // Nothing to do. +} + + +void FlowGraphBuilder::VisitIfStatement(IfStatement* stmt) { + Visit(stmt->condition()); + + BranchNode* branch = new BranchNode(); + FlowGraph original = graph_; + graph_ = FlowGraph::Empty(); + Visit(stmt->then_statement()); + + FlowGraph left = graph_; + graph_ = FlowGraph::Empty(); + Visit(stmt->else_statement()); + + JoinNode* join = new JoinNode(); + original.Split(branch, &left, &graph_, join); + graph_ = original; +} + + +void FlowGraphBuilder::VisitContinueStatement(ContinueStatement* stmt) { + SetStackOverflow(); +} + + +void FlowGraphBuilder::VisitBreakStatement(BreakStatement* stmt) { + SetStackOverflow(); +} + + +void FlowGraphBuilder::VisitReturnStatement(ReturnStatement* stmt) { + Visit(stmt->expression()); + graph_.AppendInstruction(stmt); + graph_.AppendNode(global_exit()); +} + + +void FlowGraphBuilder::VisitWithEnterStatement(WithEnterStatement* stmt) { + Visit(stmt->expression()); + graph_.AppendInstruction(stmt); +} + + +void FlowGraphBuilder::VisitWithExitStatement(WithExitStatement* stmt) { + graph_.AppendInstruction(stmt); +} + + +void FlowGraphBuilder::VisitSwitchStatement(SwitchStatement* stmt) { + SetStackOverflow(); +} + + +void FlowGraphBuilder::VisitDoWhileStatement(DoWhileStatement* stmt) { + JoinNode* join = new JoinNode(); + FlowGraph original = graph_; + graph_ = FlowGraph::Empty(); + Visit(stmt->body()); + + FlowGraph body = graph_; + graph_ = FlowGraph::Empty(); + Visit(stmt->cond()); + + BranchNode* branch = new BranchNode(); + + // Add body, condition and branch. + original.AppendNode(join); + original.AppendGraph(&body); + original.AppendGraph(&graph_); // The condition. + original.AppendNode(branch); + + // Tie the knot. + branch->AddSuccessor(join); + join->AddPredecessor(branch); + + graph_ = original; +} + + +void FlowGraphBuilder::VisitWhileStatement(WhileStatement* stmt) { + JoinNode* join = new JoinNode(); + FlowGraph original = graph_; + graph_ = FlowGraph::Empty(); + Visit(stmt->cond()); + + BranchNode* branch = new BranchNode(); + FlowGraph condition = graph_; + graph_ = FlowGraph::Empty(); + Visit(stmt->body()); + + original.Loop(join, &condition, branch, &graph_); + graph_ = original; +} + + +void FlowGraphBuilder::VisitForStatement(ForStatement* stmt) { + if (stmt->init() != NULL) Visit(stmt->init()); + + JoinNode* join = new JoinNode(); + FlowGraph original = graph_; + graph_ = FlowGraph::Empty(); + if (stmt->cond() != NULL) Visit(stmt->cond()); + + BranchNode* branch = new BranchNode(); + FlowGraph condition = graph_; + graph_ = FlowGraph::Empty(); + Visit(stmt->body()); + + if (stmt->next() != NULL) Visit(stmt->next()); + + original.Loop(join, &condition, branch, &graph_); + graph_ = original; +} + + +void FlowGraphBuilder::VisitForInStatement(ForInStatement* stmt) { + Visit(stmt->enumerable()); + + JoinNode* join = new JoinNode(); + FlowGraph empty; + BranchNode* branch = new BranchNode(); + FlowGraph original = graph_; + graph_ = FlowGraph::Empty(); + Visit(stmt->body()); + + original.Loop(join, &empty, branch, &graph_); + graph_ = original; +} + + +void FlowGraphBuilder::VisitTryCatchStatement(TryCatchStatement* stmt) { + SetStackOverflow(); +} + + +void FlowGraphBuilder::VisitTryFinallyStatement(TryFinallyStatement* stmt) { + SetStackOverflow(); +} + + +void FlowGraphBuilder::VisitDebuggerStatement(DebuggerStatement* stmt) { + graph_.AppendInstruction(stmt); +} + + +void FlowGraphBuilder::VisitFunctionLiteral(FunctionLiteral* expr) { + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitFunctionBoilerplateLiteral( + FunctionBoilerplateLiteral* expr) { + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitConditional(Conditional* expr) { + Visit(expr->condition()); + + BranchNode* branch = new BranchNode(); + FlowGraph original = graph_; + graph_ = FlowGraph::Empty(); + Visit(expr->then_expression()); + + FlowGraph left = graph_; + graph_ = FlowGraph::Empty(); + Visit(expr->else_expression()); + + JoinNode* join = new JoinNode(); + original.Split(branch, &left, &graph_, join); + graph_ = original; +} + + +void FlowGraphBuilder::VisitSlot(Slot* expr) { + UNREACHABLE(); +} + + +void FlowGraphBuilder::VisitVariableProxy(VariableProxy* expr) { + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitLiteral(Literal* expr) { + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitRegExpLiteral(RegExpLiteral* expr) { + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitObjectLiteral(ObjectLiteral* expr) { + ZoneList<ObjectLiteral::Property*>* properties = expr->properties(); + for (int i = 0, len = properties->length(); i < len; i++) { + Visit(properties->at(i)->value()); + } + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitArrayLiteral(ArrayLiteral* expr) { + ZoneList<Expression*>* values = expr->values(); + for (int i = 0, len = values->length(); i < len; i++) { + Visit(values->at(i)); + } + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitCatchExtensionObject(CatchExtensionObject* expr) { + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitAssignment(Assignment* expr) { + Variable* var = expr->target()->AsVariableProxy()->AsVariable(); + Property* prop = expr->target()->AsProperty(); + // Left-hand side can be a variable or property (or reference error) but + // not both. + ASSERT(var == NULL || prop == NULL); + if (var != NULL) { + Visit(expr->value()); + if (var->IsStackAllocated()) definitions_.Add(expr); + + } else if (prop != NULL) { + Visit(prop->obj()); + if (!prop->key()->IsPropertyName()) Visit(prop->key()); + Visit(expr->value()); + } + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitThrow(Throw* expr) { + Visit(expr->exception()); + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitProperty(Property* expr) { + Visit(expr->obj()); + if (!expr->key()->IsPropertyName()) Visit(expr->key()); + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitCall(Call* expr) { + Visit(expr->expression()); + ZoneList<Expression*>* arguments = expr->arguments(); + for (int i = 0, len = arguments->length(); i < len; i++) { + Visit(arguments->at(i)); + } + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitCallNew(CallNew* expr) { + Visit(expr->expression()); + ZoneList<Expression*>* arguments = expr->arguments(); + for (int i = 0, len = arguments->length(); i < len; i++) { + Visit(arguments->at(i)); + } + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitCallRuntime(CallRuntime* expr) { + ZoneList<Expression*>* arguments = expr->arguments(); + for (int i = 0, len = arguments->length(); i < len; i++) { + Visit(arguments->at(i)); + } + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitUnaryOperation(UnaryOperation* expr) { + Visit(expr->expression()); + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitCountOperation(CountOperation* expr) { + Visit(expr->expression()); + Variable* var = expr->expression()->AsVariableProxy()->AsVariable(); + if (var != NULL && var->IsStackAllocated()) { + definitions_.Add(expr); + } + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitBinaryOperation(BinaryOperation* expr) { + Visit(expr->left()); + + switch (expr->op()) { + case Token::COMMA: + Visit(expr->right()); + break; + + case Token::OR: { + BranchNode* branch = new BranchNode(); + FlowGraph original = graph_; + graph_ = FlowGraph::Empty(); + Visit(expr->right()); + FlowGraph empty; + JoinNode* join = new JoinNode(); + original.Split(branch, &empty, &graph_, join); + graph_ = original; + break; + } + + case Token::AND: { + BranchNode* branch = new BranchNode(); + FlowGraph original = graph_; + graph_ = FlowGraph::Empty(); + Visit(expr->right()); + FlowGraph empty; + JoinNode* join = new JoinNode(); + original.Split(branch, &graph_, &empty, join); + graph_ = original; + break; + } + + case Token::BIT_OR: + case Token::BIT_XOR: + case Token::BIT_AND: + case Token::SHL: + case Token::SAR: + case Token::SHR: + case Token::ADD: + case Token::SUB: + case Token::MUL: + case Token::DIV: + case Token::MOD: + Visit(expr->right()); + graph_.AppendInstruction(expr); + break; + + default: + UNREACHABLE(); + } +} + + +void FlowGraphBuilder::VisitCompareOperation(CompareOperation* expr) { + Visit(expr->left()); + Visit(expr->right()); + graph_.AppendInstruction(expr); +} + + +void FlowGraphBuilder::VisitThisFunction(ThisFunction* expr) { + graph_.AppendInstruction(expr); +} + + void AstLabeler::Label(CompilationInfo* info) { info_ = info; VisitStatements(info_->function()->body()); @@ -204,6 +738,9 @@ void AstLabeler::VisitAssignment(Assignment* expr) { USE(proxy); ASSERT(proxy != NULL && proxy->var()->is_this()); info()->set_has_this_properties(true); + + prop->obj()->set_num(AstNode::kNoNumber); + prop->key()->set_num(AstNode::kNoNumber); Visit(expr->value()); expr->set_num(next_number_++); } @@ -220,6 +757,9 @@ void AstLabeler::VisitProperty(Property* expr) { USE(proxy); ASSERT(proxy != NULL && proxy->var()->is_this()); info()->set_has_this_properties(true); + + expr->obj()->set_num(AstNode::kNoNumber); + expr->key()->set_num(AstNode::kNoNumber); expr->set_num(next_number_++); } @@ -558,4 +1098,370 @@ void LivenessAnalyzer::VisitThisFunction(ThisFunction* expr) { } +#ifdef DEBUG + +// Print a textual representation of an instruction in a flow graph. Using +// the AstVisitor is overkill because there is no recursion here. It is +// only used for printing in debug mode. +class TextInstructionPrinter: public AstVisitor { + public: + TextInstructionPrinter() {} + + private: + // AST node visit functions. +#define DECLARE_VISIT(type) virtual void Visit##type(type* node); + AST_NODE_LIST(DECLARE_VISIT) +#undef DECLARE_VISIT + + DISALLOW_COPY_AND_ASSIGN(TextInstructionPrinter); +}; + + +void TextInstructionPrinter::VisitDeclaration(Declaration* decl) { + UNREACHABLE(); +} + + +void TextInstructionPrinter::VisitBlock(Block* stmt) { + PrintF("Block"); +} + + +void TextInstructionPrinter::VisitExpressionStatement( + ExpressionStatement* stmt) { + PrintF("ExpressionStatement"); +} + + +void TextInstructionPrinter::VisitEmptyStatement(EmptyStatement* stmt) { + PrintF("EmptyStatement"); +} + + +void TextInstructionPrinter::VisitIfStatement(IfStatement* stmt) { + PrintF("IfStatement"); +} + + +void TextInstructionPrinter::VisitContinueStatement(ContinueStatement* stmt) { + UNREACHABLE(); +} + + +void TextInstructionPrinter::VisitBreakStatement(BreakStatement* stmt) { + UNREACHABLE(); +} + + +void TextInstructionPrinter::VisitReturnStatement(ReturnStatement* stmt) { + PrintF("return @%d", stmt->expression()->num()); +} + + +void TextInstructionPrinter::VisitWithEnterStatement(WithEnterStatement* stmt) { + PrintF("WithEnterStatement"); +} + + +void TextInstructionPrinter::VisitWithExitStatement(WithExitStatement* stmt) { + PrintF("WithExitStatement"); +} + + +void TextInstructionPrinter::VisitSwitchStatement(SwitchStatement* stmt) { + UNREACHABLE(); +} + + +void TextInstructionPrinter::VisitDoWhileStatement(DoWhileStatement* stmt) { + PrintF("DoWhileStatement"); +} + + +void TextInstructionPrinter::VisitWhileStatement(WhileStatement* stmt) { + PrintF("WhileStatement"); +} + + +void TextInstructionPrinter::VisitForStatement(ForStatement* stmt) { + PrintF("ForStatement"); +} + + +void TextInstructionPrinter::VisitForInStatement(ForInStatement* stmt) { + PrintF("ForInStatement"); +} + + +void TextInstructionPrinter::VisitTryCatchStatement(TryCatchStatement* stmt) { + UNREACHABLE(); +} + + +void TextInstructionPrinter::VisitTryFinallyStatement( + TryFinallyStatement* stmt) { + UNREACHABLE(); +} + + +void TextInstructionPrinter::VisitDebuggerStatement(DebuggerStatement* stmt) { + PrintF("DebuggerStatement"); +} + + +void TextInstructionPrinter::VisitFunctionLiteral(FunctionLiteral* expr) { + PrintF("FunctionLiteral"); +} + + +void TextInstructionPrinter::VisitFunctionBoilerplateLiteral( + FunctionBoilerplateLiteral* expr) { + PrintF("FunctionBoilerplateLiteral"); +} + + +void TextInstructionPrinter::VisitConditional(Conditional* expr) { + PrintF("Conditional"); +} + + +void TextInstructionPrinter::VisitSlot(Slot* expr) { + UNREACHABLE(); +} + + +void TextInstructionPrinter::VisitVariableProxy(VariableProxy* expr) { + Variable* var = expr->AsVariable(); + if (var != NULL) { + SmartPointer<char> name = var->name()->ToCString(); + PrintF("%s", *name); + } else { + ASSERT(expr->AsProperty() != NULL); + VisitProperty(expr->AsProperty()); + } +} + + +void TextInstructionPrinter::VisitLiteral(Literal* expr) { + expr->handle()->ShortPrint(); +} + + +void TextInstructionPrinter::VisitRegExpLiteral(RegExpLiteral* expr) { + PrintF("RegExpLiteral"); +} + + +void TextInstructionPrinter::VisitObjectLiteral(ObjectLiteral* expr) { + PrintF("ObjectLiteral"); +} + + +void TextInstructionPrinter::VisitArrayLiteral(ArrayLiteral* expr) { + PrintF("ArrayLiteral"); +} + + +void TextInstructionPrinter::VisitCatchExtensionObject( + CatchExtensionObject* expr) { + PrintF("CatchExtensionObject"); +} + + +void TextInstructionPrinter::VisitAssignment(Assignment* expr) { + Variable* var = expr->target()->AsVariableProxy()->AsVariable(); + Property* prop = expr->target()->AsProperty(); + + if (var != NULL) { + SmartPointer<char> name = var->name()->ToCString(); + PrintF("%s %s @%d", + *name, + Token::String(expr->op()), + expr->value()->num()); + } else if (prop != NULL) { + if (prop->key()->IsPropertyName()) { + PrintF("@%d.", prop->obj()->num()); + ASSERT(prop->key()->AsLiteral() != NULL); + prop->key()->AsLiteral()->handle()->Print(); + PrintF(" %s @%d", + Token::String(expr->op()), + expr->value()->num()); + } else { + PrintF("@%d[@%d] %s @%d", + prop->obj()->num(), + prop->key()->num(), + Token::String(expr->op()), + expr->value()->num()); + } + } else { + // Throw reference error. + Visit(expr->target()); + } +} + + +void TextInstructionPrinter::VisitThrow(Throw* expr) { + PrintF("throw @%d", expr->exception()->num()); +} + + +void TextInstructionPrinter::VisitProperty(Property* expr) { + if (expr->key()->IsPropertyName()) { + PrintF("@%d.", expr->obj()->num()); + ASSERT(expr->key()->AsLiteral() != NULL); + expr->key()->AsLiteral()->handle()->Print(); + } else { + PrintF("@%d[@%d]", expr->obj()->num(), expr->key()->num()); + } +} + + +void TextInstructionPrinter::VisitCall(Call* expr) { + PrintF("@%d(", expr->expression()->num()); + ZoneList<Expression*>* arguments = expr->arguments(); + for (int i = 0, len = arguments->length(); i < len; i++) { + if (i != 0) PrintF(", "); + PrintF("@%d", arguments->at(i)->num()); + } + PrintF(")"); +} + + +void TextInstructionPrinter::VisitCallNew(CallNew* expr) { + PrintF("new @%d(", expr->expression()->num()); + ZoneList<Expression*>* arguments = expr->arguments(); + for (int i = 0, len = arguments->length(); i < len; i++) { + if (i != 0) PrintF(", "); + PrintF("@%d", arguments->at(i)->num()); + } + PrintF(")"); +} + + +void TextInstructionPrinter::VisitCallRuntime(CallRuntime* expr) { + SmartPointer<char> name = expr->name()->ToCString(); + PrintF("%s(", *name); + ZoneList<Expression*>* arguments = expr->arguments(); + for (int i = 0, len = arguments->length(); i < len; i++) { + if (i != 0) PrintF(", "); + PrintF("@%d", arguments->at(i)->num()); + } + PrintF(")"); +} + + +void TextInstructionPrinter::VisitUnaryOperation(UnaryOperation* expr) { + PrintF("%s(@%d)", Token::String(expr->op()), expr->expression()->num()); +} + + +void TextInstructionPrinter::VisitCountOperation(CountOperation* expr) { + if (expr->is_prefix()) { + PrintF("%s@%d", Token::String(expr->op()), expr->expression()->num()); + } else { + PrintF("@%d%s", expr->expression()->num(), Token::String(expr->op())); + } +} + + +void TextInstructionPrinter::VisitBinaryOperation(BinaryOperation* expr) { + ASSERT(expr->op() != Token::COMMA); + ASSERT(expr->op() != Token::OR); + ASSERT(expr->op() != Token::AND); + PrintF("@%d %s @%d", + expr->left()->num(), + Token::String(expr->op()), + expr->right()->num()); +} + + +void TextInstructionPrinter::VisitCompareOperation(CompareOperation* expr) { + PrintF("@%d %s @%d", + expr->left()->num(), + Token::String(expr->op()), + expr->right()->num()); +} + + +void TextInstructionPrinter::VisitThisFunction(ThisFunction* expr) { + PrintF("ThisFunction"); +} + + +static int node_count = 0; +static int instruction_count = 0; + + +void Node::AssignNumbers() { + set_number(node_count++); +} + + +void BlockNode::AssignNumbers() { + set_number(node_count++); + for (int i = 0, len = instructions_.length(); i < len; i++) { + instructions_[i]->set_num(instruction_count++); + } +} + + +void EntryNode::PrintText() { + PrintF("L%d: Entry\n", number()); + PrintF("goto L%d\n\n", successor_->number()); +} + +void ExitNode::PrintText() { + PrintF("L%d: Exit\n\n", number()); +} + + +void BlockNode::PrintText() { + // Print the instructions in the block. + PrintF("L%d: Block\n", number()); + TextInstructionPrinter printer; + for (int i = 0, len = instructions_.length(); i < len; i++) { + PrintF("%d ", instructions_[i]->num()); + printer.Visit(instructions_[i]); + PrintF("\n"); + } + PrintF("goto L%d\n\n", successor_->number()); +} + + +void BranchNode::PrintText() { + PrintF("L%d: Branch\n", number()); + PrintF("goto (L%d, L%d)\n\n", successor0_->number(), successor1_->number()); +} + + +void JoinNode::PrintText() { + PrintF("L%d: Join(", number()); + for (int i = 0, len = predecessors_.length(); i < len; i++) { + if (i != 0) PrintF(", "); + PrintF("L%d", predecessors_[i]->number()); + } + PrintF(")\ngoto L%d\n\n", successor_->number()); +} + + +void FlowGraph::PrintText(ZoneList<Node*>* postorder) { + PrintF("\n========\n"); + + // Number nodes and instructions in reverse postorder. + node_count = 0; + instruction_count = 0; + for (int i = postorder->length() - 1; i >= 0; i--) { + postorder->at(i)->AssignNumbers(); + } + + // Print basic blocks in reverse postorder. + for (int i = postorder->length() - 1; i >= 0; i--) { + postorder->at(i)->PrintText(); + } +} + + +#endif // defined(DEBUG) + + } } // namespace v8::internal |