linux-x86_64/include/llvm/Target/TargetCallingConv.h - platform/prebuilts/android-emulator-build/mesa-deps - Git at Google

 //===-- llvm/Target/TargetCallingConv.h - Calling Convention ----*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines types for working with calling-convention information.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_TARGET_TARGETCALLINGCONV_H
 #define LLVM_TARGET_TARGETCALLINGCONV_H

 #include "llvm/CodeGen/ValueTypes.h"
 #include "llvm/Support/DataTypes.h"
 #include "llvm/Support/MathExtras.h"
 #include <string>

 namespace llvm {

 namespace ISD {
   struct ArgFlagsTy {
   private:
     static const uint64_t NoFlagSet      = 0ULL;
     static const uint64_t ZExt           = 1ULL<<0;  ///< Zero extended
     static const uint64_t ZExtOffs       = 0;
     static const uint64_t SExt           = 1ULL<<1;  ///< Sign extended
     static const uint64_t SExtOffs       = 1;
     static const uint64_t InReg          = 1ULL<<2;  ///< Passed in register
     static const uint64_t InRegOffs      = 2;
     static const uint64_t SRet           = 1ULL<<3;  ///< Hidden struct-ret ptr
     static const uint64_t SRetOffs       = 3;
     static const uint64_t ByVal          = 1ULL<<4;  ///< Struct passed by value
     static const uint64_t ByValOffs      = 4;
     static const uint64_t Nest           = 1ULL<<5;  ///< Nested fn static chain
     static const uint64_t NestOffs       = 5;
     static const uint64_t Returned       = 1ULL<<6;  ///< Always returned
     static const uint64_t ReturnedOffs   = 6;
     static const uint64_t ByValAlign     = 0xFULL<<7; ///< Struct alignment
     static const uint64_t ByValAlignOffs = 7;
     static const uint64_t Split          = 1ULL<<11;
     static const uint64_t SplitOffs      = 11;
     static const uint64_t InAlloca       = 1ULL<<12; ///< Passed with inalloca
     static const uint64_t InAllocaOffs   = 12;
     static const uint64_t OrigAlign      = 0x1FULL<<27;
     static const uint64_t OrigAlignOffs  = 27;
     static const uint64_t ByValSize      = 0x3fffffffULL<<32; ///< Struct size
     static const uint64_t ByValSizeOffs  = 32;
     static const uint64_t InConsecutiveRegsLast      = 0x1ULL<<62; ///< Struct size
     static const uint64_t InConsecutiveRegsLastOffs  = 62;
     static const uint64_t InConsecutiveRegs      = 0x1ULL<<63; ///< Struct size
     static const uint64_t InConsecutiveRegsOffs  = 63;

     static const uint64_t One            = 1ULL; ///< 1 of this type, for shifts

     uint64_t Flags;
   public:
     ArgFlagsTy() : Flags(0) { }

     bool isZExt()      const { return Flags & ZExt; }
     void setZExt()     { Flags |= One << ZExtOffs; }

     bool isSExt()      const { return Flags & SExt; }
     void setSExt()     { Flags |= One << SExtOffs; }

     bool isInReg()     const { return Flags & InReg; }
     void setInReg()    { Flags |= One << InRegOffs; }

     bool isSRet()      const { return Flags & SRet; }
     void setSRet()     { Flags |= One << SRetOffs; }

     bool isByVal()     const { return Flags & ByVal; }
     void setByVal()    { Flags |= One << ByValOffs; }

     bool isInAlloca()  const { return Flags & InAlloca; }
     void setInAlloca() { Flags |= One << InAllocaOffs; }

     bool isNest()      const { return Flags & Nest; }
     void setNest()     { Flags |= One << NestOffs; }

     bool isReturned()  const { return Flags & Returned; }
     void setReturned() { Flags |= One << ReturnedOffs; }

     bool isInConsecutiveRegs()  const { return Flags & InConsecutiveRegs; }
     void setInConsecutiveRegs() { Flags |= One << InConsecutiveRegsOffs; }

     bool isInConsecutiveRegsLast()  const { return Flags & InConsecutiveRegsLast; }
     void setInConsecutiveRegsLast() { Flags |= One << InConsecutiveRegsLastOffs; }

     unsigned getByValAlign() const {
       return (unsigned)
         ((One << ((Flags & ByValAlign) >> ByValAlignOffs)) / 2);
     }
     void setByValAlign(unsigned A) {
       Flags = (Flags & ~ByValAlign) |
         (uint64_t(Log2_32(A) + 1) << ByValAlignOffs);
     }

     bool isSplit()   const { return Flags & Split; }
     void setSplit()  { Flags |= One << SplitOffs; }

     unsigned getOrigAlign() const {
       return (unsigned)
         ((One << ((Flags & OrigAlign) >> OrigAlignOffs)) / 2);
     }
     void setOrigAlign(unsigned A) {
       Flags = (Flags & ~OrigAlign) |
         (uint64_t(Log2_32(A) + 1) << OrigAlignOffs);
     }

     unsigned getByValSize() const {
       return (unsigned)((Flags & ByValSize) >> ByValSizeOffs);
     }
     void setByValSize(unsigned S) {
       Flags = (Flags & ~ByValSize) | (uint64_t(S) << ByValSizeOffs);
     }

     /// getRawBits - Represent the flags as a bunch of bits.
     uint64_t getRawBits() const { return Flags; }
   };

   /// InputArg - This struct carries flags and type information about a
   /// single incoming (formal) argument or incoming (from the perspective
   /// of the caller) return value virtual register.
   ///
   struct InputArg {
     ArgFlagsTy Flags;
     MVT VT;
     EVT ArgVT;
     bool Used;

     /// Index original Function's argument.
     unsigned OrigArgIndex;

     /// Offset in bytes of current input value relative to the beginning of
     /// original argument. E.g. if argument was splitted into four 32 bit
     /// registers, we got 4 InputArgs with PartOffsets 0, 4, 8 and 12.
     unsigned PartOffset;

     InputArg() : VT(MVT::Other), Used(false) {}
     InputArg(ArgFlagsTy flags, EVT vt, EVT argvt, bool used,
              unsigned origIdx, unsigned partOffs)
       : Flags(flags), Used(used), OrigArgIndex(origIdx), PartOffset(partOffs) {
       VT = vt.getSimpleVT();
       ArgVT = argvt;
     }
   };

   /// OutputArg - This struct carries flags and a value for a
   /// single outgoing (actual) argument or outgoing (from the perspective
   /// of the caller) return value virtual register.
   ///
   struct OutputArg {
     ArgFlagsTy Flags;
     MVT VT;
     EVT ArgVT;

     /// IsFixed - Is this a "fixed" value, ie not passed through a vararg "...".
     bool IsFixed;

     /// Index original Function's argument.
     unsigned OrigArgIndex;

     /// Offset in bytes of current output value relative to the beginning of
     /// original argument. E.g. if argument was splitted into four 32 bit
     /// registers, we got 4 OutputArgs with PartOffsets 0, 4, 8 and 12.
     unsigned PartOffset;

     OutputArg() : IsFixed(false) {}
     OutputArg(ArgFlagsTy flags, EVT vt, EVT argvt, bool isfixed,
               unsigned origIdx, unsigned partOffs)
       : Flags(flags), IsFixed(isfixed), OrigArgIndex(origIdx),
         PartOffset(partOffs) {
       VT = vt.getSimpleVT();
       ArgVT = argvt;
     }
   };
 }

 } // end llvm namespace

 #endif
	//===-- llvm/Target/TargetCallingConv.h - Calling Convention ----- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines types for working with calling-convention information.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_TARGET_TARGETCALLINGCONV_H
	#define LLVM_TARGET_TARGETCALLINGCONV_H

	#include "llvm/CodeGen/ValueTypes.h"
	#include "llvm/Support/DataTypes.h"
	#include "llvm/Support/MathExtras.h"
	#include <string>

	namespace llvm {

	namespace ISD {
	struct ArgFlagsTy {
	private:
	static const uint64_t NoFlagSet = 0ULL;
	static const uint64_t ZExt = 1ULL<<0; ///< Zero extended
	static const uint64_t ZExtOffs = 0;
	static const uint64_t SExt = 1ULL<<1; ///< Sign extended
	static const uint64_t SExtOffs = 1;
	static const uint64_t InReg = 1ULL<<2; ///< Passed in register
	static const uint64_t InRegOffs = 2;
	static const uint64_t SRet = 1ULL<<3; ///< Hidden struct-ret ptr
	static const uint64_t SRetOffs = 3;
	static const uint64_t ByVal = 1ULL<<4; ///< Struct passed by value
	static const uint64_t ByValOffs = 4;
	static const uint64_t Nest = 1ULL<<5; ///< Nested fn static chain
	static const uint64_t NestOffs = 5;
	static const uint64_t Returned = 1ULL<<6; ///< Always returned
	static const uint64_t ReturnedOffs = 6;
	static const uint64_t ByValAlign = 0xFULL<<7; ///< Struct alignment
	static const uint64_t ByValAlignOffs = 7;
	static const uint64_t Split = 1ULL<<11;
	static const uint64_t SplitOffs = 11;
	static const uint64_t InAlloca = 1ULL<<12; ///< Passed with inalloca
	static const uint64_t InAllocaOffs = 12;
	static const uint64_t OrigAlign = 0x1FULL<<27;
	static const uint64_t OrigAlignOffs = 27;
	static const uint64_t ByValSize = 0x3fffffffULL<<32; ///< Struct size
	static const uint64_t ByValSizeOffs = 32;
	static const uint64_t InConsecutiveRegsLast = 0x1ULL<<62; ///< Struct size
	static const uint64_t InConsecutiveRegsLastOffs = 62;
	static const uint64_t InConsecutiveRegs = 0x1ULL<<63; ///< Struct size
	static const uint64_t InConsecutiveRegsOffs = 63;

	static const uint64_t One = 1ULL; ///< 1 of this type, for shifts

	uint64_t Flags;
	public:
	ArgFlagsTy() : Flags(0) { }

	bool isZExt() const { return Flags & ZExt; }
	void setZExt() { Flags \|= One << ZExtOffs; }

	bool isSExt() const { return Flags & SExt; }
	void setSExt() { Flags \|= One << SExtOffs; }

	bool isInReg() const { return Flags & InReg; }
	void setInReg() { Flags \|= One << InRegOffs; }

	bool isSRet() const { return Flags & SRet; }
	void setSRet() { Flags \|= One << SRetOffs; }

	bool isByVal() const { return Flags & ByVal; }
	void setByVal() { Flags \|= One << ByValOffs; }

	bool isInAlloca() const { return Flags & InAlloca; }
	void setInAlloca() { Flags \|= One << InAllocaOffs; }

	bool isNest() const { return Flags & Nest; }
	void setNest() { Flags \|= One << NestOffs; }

	bool isReturned() const { return Flags & Returned; }
	void setReturned() { Flags \|= One << ReturnedOffs; }

	bool isInConsecutiveRegs() const { return Flags & InConsecutiveRegs; }
	void setInConsecutiveRegs() { Flags \|= One << InConsecutiveRegsOffs; }

	bool isInConsecutiveRegsLast() const { return Flags & InConsecutiveRegsLast; }
	void setInConsecutiveRegsLast() { Flags \|= One << InConsecutiveRegsLastOffs; }

	unsigned getByValAlign() const {
	return (unsigned)
	((One << ((Flags & ByValAlign) >> ByValAlignOffs)) / 2);
	}
	void setByValAlign(unsigned A) {
	Flags = (Flags & ~ByValAlign) \|
	(uint64_t(Log2_32(A) + 1) << ByValAlignOffs);
	}

	bool isSplit() const { return Flags & Split; }
	void setSplit() { Flags \|= One << SplitOffs; }

	unsigned getOrigAlign() const {
	return (unsigned)
	((One << ((Flags & OrigAlign) >> OrigAlignOffs)) / 2);
	}
	void setOrigAlign(unsigned A) {
	Flags = (Flags & ~OrigAlign) \|
	(uint64_t(Log2_32(A) + 1) << OrigAlignOffs);
	}

	unsigned getByValSize() const {
	return (unsigned)((Flags & ByValSize) >> ByValSizeOffs);
	}
	void setByValSize(unsigned S) {
	Flags = (Flags & ~ByValSize) \| (uint64_t(S) << ByValSizeOffs);
	}

	/// getRawBits - Represent the flags as a bunch of bits.
	uint64_t getRawBits() const { return Flags; }
	};

	/// InputArg - This struct carries flags and type information about a
	/// single incoming (formal) argument or incoming (from the perspective
	/// of the caller) return value virtual register.
	///
	struct InputArg {
	ArgFlagsTy Flags;
	MVT VT;
	EVT ArgVT;
	bool Used;

	/// Index original Function's argument.
	unsigned OrigArgIndex;

	/// Offset in bytes of current input value relative to the beginning of
	/// original argument. E.g. if argument was splitted into four 32 bit
	/// registers, we got 4 InputArgs with PartOffsets 0, 4, 8 and 12.
	unsigned PartOffset;

	InputArg() : VT(MVT::Other), Used(false) {}
	InputArg(ArgFlagsTy flags, EVT vt, EVT argvt, bool used,
	unsigned origIdx, unsigned partOffs)
	: Flags(flags), Used(used), OrigArgIndex(origIdx), PartOffset(partOffs) {
	VT = vt.getSimpleVT();
	ArgVT = argvt;
	}
	};

	/// OutputArg - This struct carries flags and a value for a
	/// single outgoing (actual) argument or outgoing (from the perspective
	/// of the caller) return value virtual register.
	///
	struct OutputArg {
	ArgFlagsTy Flags;
	MVT VT;
	EVT ArgVT;

	/// IsFixed - Is this a "fixed" value, ie not passed through a vararg "...".
	bool IsFixed;

	/// Index original Function's argument.
	unsigned OrigArgIndex;

	/// Offset in bytes of current output value relative to the beginning of
	/// original argument. E.g. if argument was splitted into four 32 bit
	/// registers, we got 4 OutputArgs with PartOffsets 0, 4, 8 and 12.
	unsigned PartOffset;

	OutputArg() : IsFixed(false) {}
	OutputArg(ArgFlagsTy flags, EVT vt, EVT argvt, bool isfixed,
	unsigned origIdx, unsigned partOffs)
	: Flags(flags), IsFixed(isfixed), OrigArgIndex(origIdx),
	PartOffset(partOffs) {
	VT = vt.getSimpleVT();
	ArgVT = argvt;
	}
	};
	}

	} // end llvm namespace

	#endif