llvm-mirror/include/llvm/SymbolTable.h

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//===-- llvm/SymbolTable.h - Implement a type planned symtab ------*- C++ -*-=//
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//
// This file implements a symbol table that has planed broken up by type.
// Identical types may have overlapping symbol names as long as they are
// distinct.
//
// Note that this implements a chained symbol table. If a name being 'lookup'd
// isn't found in the current symbol table, then the parent symbol table is
// searched.
//
// This chaining behavior does NOT affect iterators though: only the lookup
// method
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_SYMBOL_TABLE_H
#define LLVM_SYMBOL_TABLE_H
#include "llvm/Value.h"
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#include <map>
#ifndef NDEBUG // Only for assertions
#include "llvm/Type.h"
#include "llvm/ConstPoolVals.h"
#endif
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class Type;
class SymbolTable : public AbstractTypeUser,
public map<const Type *, map<const string, Value *> > {
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public:
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typedef map<const string, Value *> VarMap;
typedef map<const Type *, VarMap> super;
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private:
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SymbolTable *ParentSymTab;
friend class SymTabValue;
inline void setParentSymTab(SymbolTable *P) { ParentSymTab = P; }
public:
typedef VarMap::iterator type_iterator;
typedef VarMap::const_iterator type_const_iterator;
inline SymbolTable(SymbolTable *P = 0) {
ParentSymTab = P;
InternallyInconsistent = false;
}
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~SymbolTable();
SymbolTable *getParentSymTab() { return ParentSymTab; }
// lookup - Returns null on failure...
Value *lookup(const Type *Ty, const string &name);
// insert - Add named definition to the symbol table...
inline void insert(Value *N) {
assert(N->hasName() && "Value must be named to go into symbol table!");
insertEntry(N->getName(), N->getType(), N);
}
// insert - Insert a constant or type into the symbol table with the specified
// name... There can be a many to one mapping between names and
// (constant/type)s.
//
inline void insert(const string &Name, Value *V) {
assert((isa<Type>(V) || isa<ConstPoolVal>(V)) &&
"Can only insert types and constants here!");
insertEntry(Name, V->getType(), V);
}
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void remove(Value *N);
Value *type_remove(const type_iterator &It) {
return removeEntry(find(It->second->getType()), It);
}
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// getUniqueName - Given a base name, return a string that is either equal to
// it (or derived from it) that does not already occur in the symbol table for
// the specified type.
//
string getUniqueName(const Type *Ty, const string &BaseName);
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inline unsigned type_size(const Type *TypeID) const {
return find(TypeID)->second.size();
}
// Note that type_begin / type_end only work if you know that an element of
// TypeID is already in the symbol table!!!
//
inline type_iterator type_begin(const Type *TypeID) {
return find(TypeID)->second.begin();
}
inline type_const_iterator type_begin(const Type *TypeID) const {
return find(TypeID)->second.begin();
}
inline type_iterator type_end(const Type *TypeID) {
return find(TypeID)->second.end();
}
inline type_const_iterator type_end(const Type *TypeID) const {
return find(TypeID)->second.end();
}
void dump() const; // Debug method, print out symbol table
private:
// InternallyInconsistent - There are times when the symbol table is
// internally inconsistent with the rest of the program. In this one case, a
// value exists with a Name, and it's not in the symbol table. When we call
// V->setName(""), it tries to remove itself from the symbol table and dies.
// We know this is happening, and so if the flag InternallyInconsistent is
// set, removal from the symbol table is a noop.
//
bool InternallyInconsistent;
inline super::value_type operator[](const Type *Ty) {
assert(0 && "Should not use this operator to access symbol table!");
return super::value_type();
}
// insertEntry - Insert a value into the symbol table with the specified
// name...
//
void insertEntry(const string &Name, const Type *Ty, Value *V);
// removeEntry - Remove a value from the symbol table...
//
Value *removeEntry(iterator Plane, type_iterator Entry);
// This function is called when one of the types in the type plane are refined
virtual void refineAbstractType(const DerivedType *OldTy, const Type *NewTy);
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};
#endif