//===-- llvm/ValueHolder.h - Class to hold multiple values -------*- C++ -*--=// // // This defines a class that is used as a fancy Definition container. It is // special because it helps keep the symbol table of the container method up to // date with the goings on inside of it. // // This is used to represent things like the instructions of a basic block and // the arguments to a method. // //===----------------------------------------------------------------------===// #ifndef LLVM_VALUEHOLDER_H #define LLVM_VALUEHOLDER_H #include // ValueSubClass - The type of objects that I hold // ItemParentType - I call setParent() on all of my "ValueSubclass" items, and // this is the value that I pass in. // SymTabType - This is the class type (which should be derived from // SymTabValue), whose symtab I insert my ValueSubClass items // into. Most of the time it is ItemParentType, but // Instructions have item parents of bb's but symtabtype's of // a Method // template class ValueHolder { vector ValueList; ItemParentType *ItemParent; SymTabType *Parent; ValueHolder(const ValueHolder &V); // DO NOT IMPLEMENT public: inline ValueHolder(ItemParentType *IP, SymTabType *parent = 0) { assert(IP && "Item parent may not be null!"); ItemParent = IP; Parent = 0; setParent(parent); } inline ~ValueHolder() { // The caller should have called delete_all first... assert(empty() && "ValueHolder contains definitions!"); assert(Parent == 0 && "Should have been unlinked from method!"); } inline const SymTabType *getParent() const { return Parent; } inline SymTabType *getParent() { return Parent; } void setParent(SymTabType *Parent); // Defined in ValueHolderImpl.h inline unsigned size() const { return ValueList.size(); } inline bool empty() const { return ValueList.empty(); } inline const ValueSubclass *front() const { return ValueList.front(); } inline ValueSubclass *front() { return ValueList.front(); } inline const ValueSubclass *back() const { return ValueList.back(); } inline ValueSubclass *back() { return ValueList.back(); } inline const ValueSubclass *operator[](unsigned i) const { return ValueList[i]; } inline ValueSubclass *operator[](unsigned i) { return ValueList[i]; } //===--------------------------------------------------------------------===// // sub-Definition iterator code //===--------------------------------------------------------------------===// // typedef vector::iterator iterator; typedef vector::const_iterator const_iterator; typedef reverse_iterator const_reverse_iterator; typedef reverse_iterator reverse_iterator; inline iterator begin() { return ValueList.begin(); } inline const_iterator begin() const { return ValueList.begin(); } inline iterator end () { return ValueList.end(); } inline const_iterator end () const { return ValueList.end(); } inline reverse_iterator rbegin() { return ValueList.rbegin(); } inline const_reverse_iterator rbegin() const { return ValueList.rbegin(); } inline reverse_iterator rend () { return ValueList.rend(); } inline const_reverse_iterator rend () const { return ValueList.rend(); } void delete_all() { // Delete all removes and deletes all elements while (!empty()) { iterator it = end(); delete remove(--it); // Delete all instructions... } } // ValueHolder::remove(iterator &) this removes the element at the location // specified by the iterator, and leaves the iterator pointing to the element // that used to follow the element deleted. // ValueSubclass *remove(iterator &DI); // Defined in ValueHolderImpl.h ValueSubclass *remove(const iterator &DI); // Defined in ValueHolderImpl.h void remove(ValueSubclass *D); // Defined in ValueHolderImpl.h ValueSubclass *pop_back(); // Defined in ValueHolderImpl.h void push_front(ValueSubclass *Inst); // Defined in ValueHolderImpl.h void push_back(ValueSubclass *Inst); // Defined in ValueHolderImpl.h // ValueHolder::insert - This method inserts the specified value *BEFORE* the // indicated iterator position, and returns an interator to the newly inserted // value. // iterator insert(iterator Pos, ValueSubclass *Inst); }; #endif