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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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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [go/] [gofrontend/] [dataflow.cc] - Blame information for rev 714

Line No.	Rev	Author	Line
1	714	jeremybenn	`// dataflow.cc -- Go frontend dataflow.`
2
3			`// Copyright 2009 The Go Authors. All rights reserved.`
4			`// Use of this source code is governed by a BSD-style`
5			`// license that can be found in the LICENSE file.`
6
7			`#include "go-system.h"`
8
9			`#include "gogo.h"`
10			`#include "expressions.h"`
11			`#include "statements.h"`
12			`#include "dataflow.h"`
13
14			`// This class is used to traverse the tree to look for uses of`
15			`// variables.`
16
17			`class Dataflow_traverse_expressions : public Traverse`
18			`{`
19			`public:`
20			`Dataflow_traverse_expressions(Dataflow* dataflow, Statement* statement)`
21			`: Traverse(traverse_blocks \| traverse_expressions),`
22			`dataflow_(dataflow), statement_(statement)`
23			`{ }`
24
25			`protected:`
26			`// Only look at top-level expressions: do not descend into blocks.`
27			`// They will be examined via Dataflow_traverse_statements.`
28			`int`
29			`block(Block*)`
30			`{ return TRAVERSE_SKIP_COMPONENTS; }`
31
32			`int`
33			`expression(Expression**);`
34
35			`private:`
36			`// The dataflow information.`
37			`Dataflow* dataflow_;`
38			`// The Statement in which we are looking.`
39			`Statement* statement_;`
40			`};`
41
42			`// Given an expression, return the Named_object that it refers to, if`
43			`// it is a local variable.`
44
45			`static Named_object*`
46			`get_var(Expression* expr)`
47			`{`
48			`Var_expression* ve = expr->var_expression();`
49			`if (ve == NULL)`
50			`return NULL;`
51			`Named_object* no = ve->named_object();`
52			`go_assert(no->is_variable() \|\| no->is_result_variable());`
53			`if (no->is_variable() && no->var_value()->is_global())`
54			`return NULL;`
55			`return no;`
56			`}`
57
58			`// Look for a reference to a variable in an expression.`
59
60			`int`
61			`Dataflow_traverse_expressions::expression(Expression** expr)`
62			`{`
63			`Named_object* no = get_var(*expr);`
64			`if (no != NULL)`
65			`this->dataflow_->add_ref(no, this->statement_);`
66			`return TRAVERSE_CONTINUE;`
67			`}`
68
69			`// This class is used to handle an assignment statement.`
70
71			`class Dataflow_traverse_assignment : public Traverse_assignments`
72			`{`
73			`public:`
74			`Dataflow_traverse_assignment(Dataflow* dataflow, Statement* statement)`
75			`: dataflow_(dataflow), statement_(statement)`
76			`{ }`
77
78			`protected:`
79			`void`
80			`initialize_variable(Named_object*);`
81
82			`void`
83			`assignment(Expression lhs, Expression rhs);`
84
85			`void`
86			`value(Expression**, bool, bool);`
87
88			`private:`
89			`// The dataflow information.`
90			`Dataflow* dataflow_;`
91			`// The Statement in which we are looking.`
92			`Statement* statement_;`
93			`};`
94
95			`// Handle a variable initialization.`
96
97			`void`
98			`Dataflow_traverse_assignment::initialize_variable(Named_object* var)`
99			`{`
100			`Expression* init = var->var_value()->init();`
101			`this->dataflow_->add_def(var, init, this->statement_, true);`
102			`if (init != NULL)`
103			`{`
104			`Expression* e = init;`
105			`this->value(&e, true, true);`
106			`go_assert(e == init);`
107			`}`
108			`}`
109
110			`// Handle an assignment in a statement.`
111
112			`void`
113			`Dataflow_traverse_assignment::assignment(Expression plhs, Expression prhs)`
114			`{`
115			`Named_object* no = get_var(*plhs);`
116			`if (no != NULL)`
117			`{`
118			`Expression* rhs = prhs == NULL ? NULL : *prhs;`
119			`this->dataflow_->add_def(no, rhs, this->statement_, false);`
120			`}`
121			`else`
122			`{`
123			`// If this is not a variable it may be some computed lvalue, and`
124			`// we want to look for references to variables in that lvalue.`
125			`this->value(plhs, false, false);`
126			`}`
127			`if (prhs != NULL)`
128			`this->value(prhs, true, false);`
129			`}`
130
131			`// Handle a value in a statement.`
132
133			`void`
134			`Dataflow_traverse_assignment::value(Expression** pexpr, bool, bool)`
135			`{`
136			`Named_object* no = get_var(*pexpr);`
137			`if (no != NULL)`
138			`this->dataflow_->add_ref(no, this->statement_);`
139			`else`
140			`{`
141			`Dataflow_traverse_expressions dte(this->dataflow_, this->statement_);`
142			`Expression::traverse(pexpr, &dte);`
143			`}`
144			`}`
145
146			`// This class is used to traverse the tree to look for statements.`
147
148			`class Dataflow_traverse_statements : public Traverse`
149			`{`
150			`public:`
151			`Dataflow_traverse_statements(Dataflow* dataflow)`
152			`: Traverse(traverse_statements),`
153			`dataflow_(dataflow)`
154			`{ }`
155
156			`protected:`
157			`int`
158			`statement(Block, size_t pindex, Statement*);`
159
160			`private:`
161			`// The dataflow information.`
162			`Dataflow* dataflow_;`
163			`};`
164
165			`// For each Statement, we look for expressions.`
166
167			`int`
168			`Dataflow_traverse_statements::statement(Block* block, size_t* pindex,`
169			`Statement *statement)`
170			`{`
171			`Dataflow_traverse_assignment dta(this->dataflow_, statement);`
172			`if (!statement->traverse_assignments(&dta))`
173			`{`
174			`Dataflow_traverse_expressions dte(this->dataflow_, statement);`
175			`statement->traverse(block, pindex, &dte);`
176			`}`
177			`return TRAVERSE_CONTINUE;`
178			`}`
179
180			`// Compare variables.`
181
182			`bool`
183			`Dataflow::Compare_vars::operator()(const Named_object* no1,`
184			`const Named_object* no2) const`
185			`{`
186			`if (no1->name() < no2->name())`
187			`return true;`
188			`if (no1->name() > no2->name())`
189			`return false;`
190
191			`// We can have two different variables with the same name.`
192			`Location loc1 = no1->location();`
193			`Location loc2 = no2->location();`
194			`if (loc1 < loc2)`
195			`return false;`
196			`if (loc1 > loc2)`
197			`return true;`
198
199			`if (no1 == no2)`
200			`return false;`
201
202			`// We can't have two variables with the same name in the same`
203			`// location.`
204			`go_unreachable();`
205			`}`
206
207			`// Class Dataflow.`
208
209			`Dataflow::Dataflow()`
210			`: defs_(), refs_()`
211			`{`
212			`}`
213
214			`// Build the dataflow information.`
215
216			`void`
217			`Dataflow::initialize(Gogo* gogo)`
218			`{`
219			`Dataflow_traverse_statements dts(this);`
220			`gogo->traverse(&dts);`
221			`}`
222
223			`// Add a definition of a variable.`
224
225			`void`
226			`Dataflow::add_def(Named_object* var, Expression* val, Statement* statement,`
227			`bool is_init)`
228			`{`
229			`Defs* defnull = NULL;`
230			`std::pair<Defmap::iterator, bool> ins =`
231			`this->defs_.insert(std::make_pair(var, defnull));`
232			`if (ins.second)`
233			`ins.first->second = new Defs;`
234			`Def def;`
235			`def.statement = statement;`
236			`def.val = val;`
237			`def.is_init = is_init;`
238			`ins.first->second->push_back(def);`
239			`}`
240
241			`// Add a reference to a variable.`
242
243			`void`
244			`Dataflow::add_ref(Named_object* var, Statement* statement)`
245			`{`
246			`Refs* refnull = NULL;`
247			`std::pair<Refmap::iterator, bool> ins =`
248			`this->refs_.insert(std::make_pair(var, refnull));`
249			`if (ins.second)`
250			`ins.first->second = new Refs;`
251			`Ref ref;`
252			`ref.statement = statement;`
253			`ins.first->second->push_back(ref);`
254			`}`
255
256			`// Return the definitions of a variable.`
257
258			`const Dataflow::Defs*`
259			`Dataflow::find_defs(Named_object* var) const`
260			`{`
261			`Defmap::const_iterator p = this->defs_.find(var);`
262			`if (p == this->defs_.end())`
263			`return NULL;`
264			`else`
265			`return p->second;`
266			`}`
267
268			`// Return the references of a variable.`
269
270			`const Dataflow::Refs*`
271			`Dataflow::find_refs(Named_object* var) const`
272			`{`
273			`Refmap::const_iterator p = this->refs_.find(var);`
274			`if (p == this->refs_.end())`
275			`return NULL;`
276			`else`
277			`return p->second;`
278			`}`