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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [go/] [gofrontend/] [dataflow.cc] - Rev 867
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// dataflow.cc -- Go frontend dataflow. // Copyright 2009 The Go 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 "go-system.h" #include "gogo.h" #include "expressions.h" #include "statements.h" #include "dataflow.h" // This class is used to traverse the tree to look for uses of // variables. class Dataflow_traverse_expressions : public Traverse { public: Dataflow_traverse_expressions(Dataflow* dataflow, Statement* statement) : Traverse(traverse_blocks | traverse_expressions), dataflow_(dataflow), statement_(statement) { } protected: // Only look at top-level expressions: do not descend into blocks. // They will be examined via Dataflow_traverse_statements. int block(Block*) { return TRAVERSE_SKIP_COMPONENTS; } int expression(Expression**); private: // The dataflow information. Dataflow* dataflow_; // The Statement in which we are looking. Statement* statement_; }; // Given an expression, return the Named_object that it refers to, if // it is a local variable. static Named_object* get_var(Expression* expr) { Var_expression* ve = expr->var_expression(); if (ve == NULL) return NULL; Named_object* no = ve->named_object(); go_assert(no->is_variable() || no->is_result_variable()); if (no->is_variable() && no->var_value()->is_global()) return NULL; return no; } // Look for a reference to a variable in an expression. int Dataflow_traverse_expressions::expression(Expression** expr) { Named_object* no = get_var(*expr); if (no != NULL) this->dataflow_->add_ref(no, this->statement_); return TRAVERSE_CONTINUE; } // This class is used to handle an assignment statement. class Dataflow_traverse_assignment : public Traverse_assignments { public: Dataflow_traverse_assignment(Dataflow* dataflow, Statement* statement) : dataflow_(dataflow), statement_(statement) { } protected: void initialize_variable(Named_object*); void assignment(Expression** lhs, Expression** rhs); void value(Expression**, bool, bool); private: // The dataflow information. Dataflow* dataflow_; // The Statement in which we are looking. Statement* statement_; }; // Handle a variable initialization. void Dataflow_traverse_assignment::initialize_variable(Named_object* var) { Expression* init = var->var_value()->init(); this->dataflow_->add_def(var, init, this->statement_, true); if (init != NULL) { Expression* e = init; this->value(&e, true, true); go_assert(e == init); } } // Handle an assignment in a statement. void Dataflow_traverse_assignment::assignment(Expression** plhs, Expression** prhs) { Named_object* no = get_var(*plhs); if (no != NULL) { Expression* rhs = prhs == NULL ? NULL : *prhs; this->dataflow_->add_def(no, rhs, this->statement_, false); } else { // If this is not a variable it may be some computed lvalue, and // we want to look for references to variables in that lvalue. this->value(plhs, false, false); } if (prhs != NULL) this->value(prhs, true, false); } // Handle a value in a statement. void Dataflow_traverse_assignment::value(Expression** pexpr, bool, bool) { Named_object* no = get_var(*pexpr); if (no != NULL) this->dataflow_->add_ref(no, this->statement_); else { Dataflow_traverse_expressions dte(this->dataflow_, this->statement_); Expression::traverse(pexpr, &dte); } } // This class is used to traverse the tree to look for statements. class Dataflow_traverse_statements : public Traverse { public: Dataflow_traverse_statements(Dataflow* dataflow) : Traverse(traverse_statements), dataflow_(dataflow) { } protected: int statement(Block*, size_t* pindex, Statement*); private: // The dataflow information. Dataflow* dataflow_; }; // For each Statement, we look for expressions. int Dataflow_traverse_statements::statement(Block* block, size_t* pindex, Statement *statement) { Dataflow_traverse_assignment dta(this->dataflow_, statement); if (!statement->traverse_assignments(&dta)) { Dataflow_traverse_expressions dte(this->dataflow_, statement); statement->traverse(block, pindex, &dte); } return TRAVERSE_CONTINUE; } // Compare variables. bool Dataflow::Compare_vars::operator()(const Named_object* no1, const Named_object* no2) const { if (no1->name() < no2->name()) return true; if (no1->name() > no2->name()) return false; // We can have two different variables with the same name. Location loc1 = no1->location(); Location loc2 = no2->location(); if (loc1 < loc2) return false; if (loc1 > loc2) return true; if (no1 == no2) return false; // We can't have two variables with the same name in the same // location. go_unreachable(); } // Class Dataflow. Dataflow::Dataflow() : defs_(), refs_() { } // Build the dataflow information. void Dataflow::initialize(Gogo* gogo) { Dataflow_traverse_statements dts(this); gogo->traverse(&dts); } // Add a definition of a variable. void Dataflow::add_def(Named_object* var, Expression* val, Statement* statement, bool is_init) { Defs* defnull = NULL; std::pair<Defmap::iterator, bool> ins = this->defs_.insert(std::make_pair(var, defnull)); if (ins.second) ins.first->second = new Defs; Def def; def.statement = statement; def.val = val; def.is_init = is_init; ins.first->second->push_back(def); } // Add a reference to a variable. void Dataflow::add_ref(Named_object* var, Statement* statement) { Refs* refnull = NULL; std::pair<Refmap::iterator, bool> ins = this->refs_.insert(std::make_pair(var, refnull)); if (ins.second) ins.first->second = new Refs; Ref ref; ref.statement = statement; ins.first->second->push_back(ref); } // Return the definitions of a variable. const Dataflow::Defs* Dataflow::find_defs(Named_object* var) const { Defmap::const_iterator p = this->defs_.find(var); if (p == this->defs_.end()) return NULL; else return p->second; } // Return the references of a variable. const Dataflow::Refs* Dataflow::find_refs(Named_object* var) const { Refmap::const_iterator p = this->refs_.find(var); if (p == this->refs_.end()) return NULL; else return p->second; }
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