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Separate Types from Values because Type no longer inherits from Value. The changes for this are too numerous to list. In essence, any data structure that contained a Value was doubled so that Types could be contained similarly. New members include Types, TypeMap, CompactionTypes, and CompactionTypeMap. Functions taking a Value* were overloaded with a variant that takes a Type* that acts on the new data structures. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@14608 91177308-0d34-0410-b5e6-96231b3b80d8
180 lines
6.2 KiB
C++
180 lines
6.2 KiB
C++
//===-- Analysis/SlotCalculator.h - Calculate value slots -------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This class calculates the slots that values will land in. This is useful for
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// when writing bytecode or assembly out, because you have to know these things.
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//
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// Specifically, this class calculates the "type plane numbering" that you see
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// for a function if you strip out all of the symbols in it. For assembly
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// writing, this is used when a symbol does not have a name. For bytecode
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// writing, this is always used, and the symbol table is added on later.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_SLOTCALCULATOR_H
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#define LLVM_ANALYSIS_SLOTCALCULATOR_H
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#include <vector>
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#include <map>
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namespace llvm {
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class Value;
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class Type;
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class Module;
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class Function;
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class SymbolTable;
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class ConstantArray;
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class SlotCalculator {
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const Module *TheModule;
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typedef std::vector<const Type*> TypeList;
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typedef std::vector<const Value*> TypePlane;
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std::vector<TypePlane> Table;
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TypeList Types;
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typedef std::map<const Value*, unsigned> NodeMapType;
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NodeMapType NodeMap;
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typedef std::map<const Type*, unsigned> TypeMapType;
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TypeMapType TypeMap;
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/// ConstantStrings - If we are indexing for a bytecode file, this keeps track
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/// of all of the constants strings that need to be emitted.
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std::vector<const ConstantArray*> ConstantStrings;
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/// ModuleLevel - Used to keep track of which values belong to the module,
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/// and which values belong to the currently incorporated function.
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///
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std::vector<unsigned> ModuleLevel;
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unsigned ModuleTypeLevel;
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/// ModuleContainsAllFunctionConstants - This flag is set to true if all
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/// function constants are incorporated into the module constant table. This
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/// is only possible if building information for a bytecode file.
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bool ModuleContainsAllFunctionConstants;
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/// CompactionTable/NodeMap - When function compaction has been performed,
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/// these entries provide a compacted view of the namespace needed to emit
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/// instructions in a function body. The 'getSlot()' method automatically
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/// returns these entries if applicable, or the global entries if not.
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std::vector<TypePlane> CompactionTable;
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TypeList CompactionTypes;
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typedef std::map<const Value*, unsigned> CompactionNodeMapType;
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CompactionNodeMapType CompactionNodeMap;
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typedef std::map<const Type*, unsigned> CompactionTypeMapType;
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CompactionTypeMapType CompactionTypeMap;
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SlotCalculator(const SlotCalculator &); // DO NOT IMPLEMENT
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void operator=(const SlotCalculator &); // DO NOT IMPLEMENT
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public:
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SlotCalculator(const Module *M );
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// Start out in incorp state
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SlotCalculator(const Function *F );
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/// getSlot - Return the slot number of the specified value in it's type
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/// plane. This returns < 0 on error!
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///
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int getSlot(const Value *V) const;
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int getSlot(const Type* T) const;
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/// getGlobalSlot - Return a slot number from the global table. This can only
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/// be used when a compaction table is active.
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unsigned getGlobalSlot(const Value *V) const;
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unsigned getGlobalSlot(const Type *V) const;
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inline unsigned getNumPlanes() const {
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if (CompactionTable.empty())
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return Table.size();
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else
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return CompactionTable.size();
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}
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inline unsigned getNumTypes() const {
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if (CompactionTypes.empty())
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return Types.size();
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else
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return CompactionTypes.size();
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}
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inline unsigned getModuleLevel(unsigned Plane) const {
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return Plane < ModuleLevel.size() ? ModuleLevel[Plane] : 0;
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}
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/// Returns the number of types in the type list that are at module level
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inline unsigned getModuleTypeLevel() const {
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return ModuleTypeLevel;
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}
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TypePlane &getPlane(unsigned Plane);
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TypeList& getTypes() {
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if (!CompactionTypes.empty())
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return CompactionTypes;
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return Types;
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}
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/// incorporateFunction/purgeFunction - If you'd like to deal with a function,
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/// use these two methods to get its data into the SlotCalculator!
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///
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void incorporateFunction(const Function *F);
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void purgeFunction();
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/// string_iterator/string_begin/end - Access the list of module-level
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/// constant strings that have been incorporated. This is only applicable to
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/// bytecode files.
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typedef std::vector<const ConstantArray*>::const_iterator string_iterator;
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string_iterator string_begin() const { return ConstantStrings.begin(); }
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string_iterator string_end() const { return ConstantStrings.end(); }
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const std::vector<TypePlane> &getCompactionTable() const {
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return CompactionTable;
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}
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const TypeList& getCompactionTypes() const { return CompactionTypes; }
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private:
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// getOrCreateSlot - Values can be crammed into here at will... if
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// they haven't been inserted already, they get inserted, otherwise
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// they are ignored.
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//
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int getOrCreateSlot(const Value *D);
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int getOrCreateSlot(const Type* T);
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// insertValue - Insert a value into the value table... Return the
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// slot that it occupies, or -1 if the declaration is to be ignored
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// because of the IgnoreNamedNodes flag.
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//
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int insertValue(const Value *D, bool dontIgnore = false);
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int insertType(const Type* T, bool dontIgnore = false );
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// doInsertValue - Small helper function to be called only be insertVal.
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int doInsertValue(const Value *D);
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int doInsertType(const Type*T);
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// processModule - Process all of the module level function declarations and
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// types that are available.
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//
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void processModule();
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// processSymbolTable - Insert all of the values in the specified symbol table
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// into the values table...
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//
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void processSymbolTable(const SymbolTable *ST);
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void processSymbolTableConstants(const SymbolTable *ST);
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void buildCompactionTable(const Function *F);
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unsigned getOrCreateCompactionTableSlot(const Value *V);
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unsigned getOrCreateCompactionTableSlot(const Type *V);
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void pruneCompactionTable();
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};
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} // End llvm namespace
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#endif
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