include/llvm/CodeGen/MachineMemOperand.h - llvm - Git at Google

 //==- llvm/CodeGen/MachineMemOperand.h - MachineMemOperand class -*- C++ -*-==//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file contains the declaration of the MachineMemOperand class, which is a
 // description of a memory reference. It is used to help track dependencies
 // in the backend.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CODEGEN_MACHINEMEMOPERAND_H
 #define LLVM_CODEGEN_MACHINEMEMOPERAND_H

 #include "llvm/ADT/PointerUnion.h"
 #include "llvm/CodeGen/PseudoSourceValue.h"
 #include "llvm/IR/Metadata.h"
 #include "llvm/IR/Value.h"  // PointerLikeTypeTraits<Value*>
 #include "llvm/Support/DataTypes.h"

 namespace llvm {

 class FoldingSetNodeID;
 class MDNode;
 class raw_ostream;
 class ModuleSlotTracker;

 /// MachinePointerInfo - This class contains a discriminated union of
 /// information about pointers in memory operands, relating them back to LLVM IR
 /// or to virtual locations (such as frame indices) that are exposed during
 /// codegen.
 struct MachinePointerInfo {
   /// V - This is the IR pointer value for the access, or it is null if unknown.
   /// If this is null, then the access is to a pointer in the default address
   /// space.
   PointerUnion<const Value *, const PseudoSourceValue *> V;

   /// Offset - This is an offset from the base Value*.
   int64_t Offset;

   explicit MachinePointerInfo(const Value *v = nullptr, int64_t offset = 0)
     : V(v), Offset(offset) {}

   explicit MachinePointerInfo(const PseudoSourceValue *v,
                               int64_t offset = 0)
     : V(v), Offset(offset) {}

   MachinePointerInfo getWithOffset(int64_t O) const {
     if (V.isNull()) return MachinePointerInfo();
     if (V.is<const Value*>())
       return MachinePointerInfo(V.get<const Value*>(), Offset+O);
     return MachinePointerInfo(V.get<const PseudoSourceValue*>(), Offset+O);
   }

   /// getAddrSpace - Return the LLVM IR address space number that this pointer
   /// points into.
   unsigned getAddrSpace() const;

   /// getConstantPool - Return a MachinePointerInfo record that refers to the
   /// constant pool.
   static MachinePointerInfo getConstantPool();

   /// getFixedStack - Return a MachinePointerInfo record that refers to the
   /// the specified FrameIndex.
   static MachinePointerInfo getFixedStack(int FI, int64_t offset = 0);

   /// getJumpTable - Return a MachinePointerInfo record that refers to a
   /// jump table entry.
   static MachinePointerInfo getJumpTable();

   /// getGOT - Return a MachinePointerInfo record that refers to a
   /// GOT entry.
   static MachinePointerInfo getGOT();

   /// getStack - stack pointer relative access.
   static MachinePointerInfo getStack(int64_t Offset);
 };


 //===----------------------------------------------------------------------===//
 /// MachineMemOperand - A description of a memory reference used in the backend.
 /// Instead of holding a StoreInst or LoadInst, this class holds the address
 /// Value of the reference along with a byte size and offset. This allows it
 /// to describe lowered loads and stores. Also, the special PseudoSourceValue
 /// objects can be used to represent loads and stores to memory locations
 /// that aren't explicit in the regular LLVM IR.
 ///
 class MachineMemOperand {
   MachinePointerInfo PtrInfo;
   uint64_t Size;
   unsigned Flags;
   AAMDNodes AAInfo;
   const MDNode *Ranges;

 public:
   /// Flags values. These may be or'd together.
   enum MemOperandFlags {
     /// The memory access reads data.
     MOLoad = 1,
     /// The memory access writes data.
     MOStore = 2,
     /// The memory access is volatile.
     MOVolatile = 4,
     /// The memory access is non-temporal.
     MONonTemporal = 8,
     /// The memory access is invariant.
     MOInvariant = 16,
     // Target hints allow target passes to annotate memory operations.
     MOTargetStartBit = 5,
     MOTargetNumBits = 3,
     // This is the number of bits we need to represent flags.
     MOMaxBits = 8
   };

   /// MachineMemOperand - Construct an MachineMemOperand object with the
   /// specified PtrInfo, flags, size, and base alignment.
   MachineMemOperand(MachinePointerInfo PtrInfo, unsigned flags, uint64_t s,
                     unsigned base_alignment,
                     const AAMDNodes &AAInfo = AAMDNodes(),
                     const MDNode *Ranges = nullptr);

   const MachinePointerInfo &getPointerInfo() const { return PtrInfo; }

   /// getValue - Return the base address of the memory access. This may either
   /// be a normal LLVM IR Value, or one of the special values used in CodeGen.
   /// Special values are those obtained via
   /// PseudoSourceValue::getFixedStack(int), PseudoSourceValue::getStack, and
   /// other PseudoSourceValue member functions which return objects which stand
   /// for frame/stack pointer relative references and other special references
   /// which are not representable in the high-level IR.
   const Value *getValue() const { return PtrInfo.V.dyn_cast<const Value*>(); }

   const PseudoSourceValue *getPseudoValue() const {
     return PtrInfo.V.dyn_cast<const PseudoSourceValue*>();
   }

   const void *getOpaqueValue() const { return PtrInfo.V.getOpaqueValue(); }

   /// getFlags - Return the raw flags of the source value, \see MemOperandFlags.
   unsigned int getFlags() const { return Flags & ((1 << MOMaxBits) - 1); }

   /// Bitwise OR the current flags with the given flags.
   void setFlags(unsigned f) { Flags |= (f & ((1 << MOMaxBits) - 1)); }

   /// getOffset - For normal values, this is a byte offset added to the base
   /// address. For PseudoSourceValue::FPRel values, this is the FrameIndex
   /// number.
   int64_t getOffset() const { return PtrInfo.Offset; }

   unsigned getAddrSpace() const { return PtrInfo.getAddrSpace(); }

   /// getSize - Return the size in bytes of the memory reference.
   uint64_t getSize() const { return Size; }

   /// getAlignment - Return the minimum known alignment in bytes of the
   /// actual memory reference.
   uint64_t getAlignment() const;

   /// getBaseAlignment - Return the minimum known alignment in bytes of the
   /// base address, without the offset.
   uint64_t getBaseAlignment() const { return (1u << (Flags >> MOMaxBits)) >> 1; }

   /// getAAInfo - Return the AA tags for the memory reference.
   AAMDNodes getAAInfo() const { return AAInfo; }

   /// getRanges - Return the range tag for the memory reference.
   const MDNode *getRanges() const { return Ranges; }

   bool isLoad() const { return Flags & MOLoad; }
   bool isStore() const { return Flags & MOStore; }
   bool isVolatile() const { return Flags & MOVolatile; }
   bool isNonTemporal() const { return Flags & MONonTemporal; }
   bool isInvariant() const { return Flags & MOInvariant; }

   /// isUnordered - Returns true if this memory operation doesn't have any
   /// ordering constraints other than normal aliasing. Volatile and atomic
   /// memory operations can't be reordered.
   ///
   /// Currently, we don't model the difference between volatile and atomic
   /// operations. They should retain their ordering relative to all memory
   /// operations.
   bool isUnordered() const { return !isVolatile(); }

   /// refineAlignment - Update this MachineMemOperand to reflect the alignment
   /// of MMO, if it has a greater alignment. This must only be used when the
   /// new alignment applies to all users of this MachineMemOperand.
   void refineAlignment(const MachineMemOperand *MMO);

   /// setValue - Change the SourceValue for this MachineMemOperand. This
   /// should only be used when an object is being relocated and all references
   /// to it are being updated.
   void setValue(const Value *NewSV) { PtrInfo.V = NewSV; }
   void setValue(const PseudoSourceValue *NewSV) { PtrInfo.V = NewSV; }
   void setOffset(int64_t NewOffset) { PtrInfo.Offset = NewOffset; }

   /// Profile - Gather unique data for the object.
   ///
   void Profile(FoldingSetNodeID &ID) const;

   /// Support for operator<<.
   /// @{
   void print(raw_ostream &OS) const;
   void print(raw_ostream &OS, ModuleSlotTracker &MST) const;
   /// @}

   friend bool operator==(const MachineMemOperand &LHS,
                          const MachineMemOperand &RHS) {
     return LHS.getValue() == RHS.getValue() &&
            LHS.getPseudoValue() == RHS.getPseudoValue() &&
            LHS.getSize() == RHS.getSize() &&
            LHS.getOffset() == RHS.getOffset() &&
            LHS.getFlags() == RHS.getFlags() &&
            LHS.getAAInfo() == RHS.getAAInfo() &&
            LHS.getRanges() == RHS.getRanges() &&
            LHS.getAlignment() == RHS.getAlignment() &&
            LHS.getAddrSpace() == RHS.getAddrSpace();
   }

   friend bool operator!=(const MachineMemOperand &LHS,
                          const MachineMemOperand &RHS) {
     return !(LHS == RHS);
   }
 };

 inline raw_ostream &operator<<(raw_ostream &OS, const MachineMemOperand &MRO) {
   MRO.print(OS);
   return OS;
 }

 } // End llvm namespace

 #endif
	//==- llvm/CodeGen/MachineMemOperand.h - MachineMemOperand class -- C++ --==//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file contains the declaration of the MachineMemOperand class, which is a
	// description of a memory reference. It is used to help track dependencies
	// in the backend.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CODEGEN_MACHINEMEMOPERAND_H
	#define LLVM_CODEGEN_MACHINEMEMOPERAND_H

	#include "llvm/ADT/PointerUnion.h"
	#include "llvm/CodeGen/PseudoSourceValue.h"
	#include "llvm/IR/Metadata.h"
	#include "llvm/IR/Value.h" // PointerLikeTypeTraits<Value*>
	#include "llvm/Support/DataTypes.h"

	namespace llvm {

	class FoldingSetNodeID;
	class MDNode;
	class raw_ostream;
	class ModuleSlotTracker;

	/// MachinePointerInfo - This class contains a discriminated union of
	/// information about pointers in memory operands, relating them back to LLVM IR
	/// or to virtual locations (such as frame indices) that are exposed during
	/// codegen.
	struct MachinePointerInfo {
	/// V - This is the IR pointer value for the access, or it is null if unknown.
	/// If this is null, then the access is to a pointer in the default address
	/// space.
	PointerUnion<const Value , const PseudoSourceValue > V;

	/// Offset - This is an offset from the base Value*.
	int64_t Offset;

	explicit MachinePointerInfo(const Value *v = nullptr, int64_t offset = 0)
	: V(v), Offset(offset) {}

	explicit MachinePointerInfo(const PseudoSourceValue *v,
	int64_t offset = 0)
	: V(v), Offset(offset) {}

	MachinePointerInfo getWithOffset(int64_t O) const {
	if (V.isNull()) return MachinePointerInfo();
	if (V.is<const Value*>())
	return MachinePointerInfo(V.get<const Value*>(), Offset+O);
	return MachinePointerInfo(V.get<const PseudoSourceValue*>(), Offset+O);
	}

	/// getAddrSpace - Return the LLVM IR address space number that this pointer
	/// points into.
	unsigned getAddrSpace() const;

	/// getConstantPool - Return a MachinePointerInfo record that refers to the
	/// constant pool.
	static MachinePointerInfo getConstantPool();

	/// getFixedStack - Return a MachinePointerInfo record that refers to the
	/// the specified FrameIndex.
	static MachinePointerInfo getFixedStack(int FI, int64_t offset = 0);

	/// getJumpTable - Return a MachinePointerInfo record that refers to a
	/// jump table entry.
	static MachinePointerInfo getJumpTable();

	/// getGOT - Return a MachinePointerInfo record that refers to a
	/// GOT entry.
	static MachinePointerInfo getGOT();

	/// getStack - stack pointer relative access.
	static MachinePointerInfo getStack(int64_t Offset);
	};


	//===----------------------------------------------------------------------===//
	/// MachineMemOperand - A description of a memory reference used in the backend.
	/// Instead of holding a StoreInst or LoadInst, this class holds the address
	/// Value of the reference along with a byte size and offset. This allows it
	/// to describe lowered loads and stores. Also, the special PseudoSourceValue
	/// objects can be used to represent loads and stores to memory locations
	/// that aren't explicit in the regular LLVM IR.
	///
	class MachineMemOperand {
	MachinePointerInfo PtrInfo;
	uint64_t Size;
	unsigned Flags;
	AAMDNodes AAInfo;
	const MDNode *Ranges;

	public:
	/// Flags values. These may be or'd together.
	enum MemOperandFlags {
	/// The memory access reads data.
	MOLoad = 1,
	/// The memory access writes data.
	MOStore = 2,
	/// The memory access is volatile.
	MOVolatile = 4,
	/// The memory access is non-temporal.
	MONonTemporal = 8,
	/// The memory access is invariant.
	MOInvariant = 16,
	// Target hints allow target passes to annotate memory operations.
	MOTargetStartBit = 5,
	MOTargetNumBits = 3,
	// This is the number of bits we need to represent flags.
	MOMaxBits = 8
	};

	/// MachineMemOperand - Construct an MachineMemOperand object with the
	/// specified PtrInfo, flags, size, and base alignment.
	MachineMemOperand(MachinePointerInfo PtrInfo, unsigned flags, uint64_t s,
	unsigned base_alignment,
	const AAMDNodes &AAInfo = AAMDNodes(),
	const MDNode *Ranges = nullptr);

	const MachinePointerInfo &getPointerInfo() const { return PtrInfo; }

	/// getValue - Return the base address of the memory access. This may either
	/// be a normal LLVM IR Value, or one of the special values used in CodeGen.
	/// Special values are those obtained via
	/// PseudoSourceValue::getFixedStack(int), PseudoSourceValue::getStack, and
	/// other PseudoSourceValue member functions which return objects which stand
	/// for frame/stack pointer relative references and other special references
	/// which are not representable in the high-level IR.
	const Value getValue() const { return PtrInfo.V.dyn_cast<const Value>(); }

	const PseudoSourceValue *getPseudoValue() const {
	return PtrInfo.V.dyn_cast<const PseudoSourceValue*>();
	}

	const void *getOpaqueValue() const { return PtrInfo.V.getOpaqueValue(); }

	/// getFlags - Return the raw flags of the source value, \see MemOperandFlags.
	unsigned int getFlags() const { return Flags & ((1 << MOMaxBits) - 1); }

	/// Bitwise OR the current flags with the given flags.
	void setFlags(unsigned f) { Flags \|= (f & ((1 << MOMaxBits) - 1)); }

	/// getOffset - For normal values, this is a byte offset added to the base
	/// address. For PseudoSourceValue::FPRel values, this is the FrameIndex
	/// number.
	int64_t getOffset() const { return PtrInfo.Offset; }

	unsigned getAddrSpace() const { return PtrInfo.getAddrSpace(); }

	/// getSize - Return the size in bytes of the memory reference.
	uint64_t getSize() const { return Size; }

	/// getAlignment - Return the minimum known alignment in bytes of the
	/// actual memory reference.
	uint64_t getAlignment() const;

	/// getBaseAlignment - Return the minimum known alignment in bytes of the
	/// base address, without the offset.
	uint64_t getBaseAlignment() const { return (1u << (Flags >> MOMaxBits)) >> 1; }

	/// getAAInfo - Return the AA tags for the memory reference.
	AAMDNodes getAAInfo() const { return AAInfo; }

	/// getRanges - Return the range tag for the memory reference.
	const MDNode *getRanges() const { return Ranges; }

	bool isLoad() const { return Flags & MOLoad; }
	bool isStore() const { return Flags & MOStore; }
	bool isVolatile() const { return Flags & MOVolatile; }
	bool isNonTemporal() const { return Flags & MONonTemporal; }
	bool isInvariant() const { return Flags & MOInvariant; }

	/// isUnordered - Returns true if this memory operation doesn't have any
	/// ordering constraints other than normal aliasing. Volatile and atomic
	/// memory operations can't be reordered.
	///
	/// Currently, we don't model the difference between volatile and atomic
	/// operations. They should retain their ordering relative to all memory
	/// operations.
	bool isUnordered() const { return !isVolatile(); }

	/// refineAlignment - Update this MachineMemOperand to reflect the alignment
	/// of MMO, if it has a greater alignment. This must only be used when the
	/// new alignment applies to all users of this MachineMemOperand.
	void refineAlignment(const MachineMemOperand *MMO);

	/// setValue - Change the SourceValue for this MachineMemOperand. This
	/// should only be used when an object is being relocated and all references
	/// to it are being updated.
	void setValue(const Value *NewSV) { PtrInfo.V = NewSV; }
	void setValue(const PseudoSourceValue *NewSV) { PtrInfo.V = NewSV; }
	void setOffset(int64_t NewOffset) { PtrInfo.Offset = NewOffset; }

	/// Profile - Gather unique data for the object.
	///
	void Profile(FoldingSetNodeID &ID) const;

	/// Support for operator<<.
	/// @{
	void print(raw_ostream &OS) const;
	void print(raw_ostream &OS, ModuleSlotTracker &MST) const;
	/// @}

	friend bool operator==(const MachineMemOperand &LHS,
	const MachineMemOperand &RHS) {
	return LHS.getValue() == RHS.getValue() &&
	LHS.getPseudoValue() == RHS.getPseudoValue() &&
	LHS.getSize() == RHS.getSize() &&
	LHS.getOffset() == RHS.getOffset() &&
	LHS.getFlags() == RHS.getFlags() &&
	LHS.getAAInfo() == RHS.getAAInfo() &&
	LHS.getRanges() == RHS.getRanges() &&
	LHS.getAlignment() == RHS.getAlignment() &&
	LHS.getAddrSpace() == RHS.getAddrSpace();
	}

	friend bool operator!=(const MachineMemOperand &LHS,
	const MachineMemOperand &RHS) {
	return !(LHS == RHS);
	}
	};

	inline raw_ostream &operator<<(raw_ostream &OS, const MachineMemOperand &MRO) {
	MRO.print(OS);
	return OS;
	}

	} // End llvm namespace

	#endif