third_party/llvm-10.0/llvm/lib/Target/PowerPC/PPCMachineFunctionInfo.h - SwiftShader - Git at Google

 //===-- PPCMachineFunctionInfo.h - Private data used for PowerPC --*- C++ -*-=//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // This file declares the PowerPC specific subclass of MachineFunctionInfo.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_LIB_TARGET_POWERPC_PPCMACHINEFUNCTIONINFO_H
 #define LLVM_LIB_TARGET_POWERPC_PPCMACHINEFUNCTIONINFO_H

 #include "llvm/ADT/SmallVector.h"
 #include "llvm/CodeGen/MachineFunction.h"
 #include "llvm/CodeGen/TargetCallingConv.h"

 namespace llvm {

 /// PPCFunctionInfo - This class is derived from MachineFunction private
 /// PowerPC target-specific information for each MachineFunction.
 class PPCFunctionInfo : public MachineFunctionInfo {
   virtual void anchor();

   /// FramePointerSaveIndex - Frame index of where the old frame pointer is
   /// stored.  Also used as an anchor for instructions that need to be altered
   /// when using frame pointers (dyna_add, dyna_sub.)
   int FramePointerSaveIndex = 0;

   /// ReturnAddrSaveIndex - Frame index of where the return address is stored.
   ///
   int ReturnAddrSaveIndex = 0;

   /// Frame index where the old base pointer is stored.
   int BasePointerSaveIndex = 0;

   /// Frame index where the old PIC base pointer is stored.
   int PICBasePointerSaveIndex = 0;

   /// MustSaveLR - Indicates whether LR is defined (or clobbered) in the current
   /// function.  This is only valid after the initial scan of the function by
   /// PEI.
   bool MustSaveLR = false;

   /// MustSaveTOC - Indicates that the TOC save needs to be performed in the
   /// prologue of the function. This is typically the case when there are
   /// indirect calls in the function and it is more profitable to save the
   /// TOC pointer in the prologue than in the block(s) containing the call(s).
   bool MustSaveTOC = false;

   /// Do we have to disable shrink-wrapping? This has to be set if we emit any
   /// instructions that clobber LR in the entry block because discovering this
   /// in PEI is too late (happens after shrink-wrapping);
   bool ShrinkWrapDisabled = false;

   /// Does this function have any stack spills.
   bool HasSpills = false;

   /// Does this function spill using instructions with only r+r (not r+i)
   /// forms.
   bool HasNonRISpills = false;

   /// SpillsCR - Indicates whether CR is spilled in the current function.
   bool SpillsCR = false;

   /// Indicates whether VRSAVE is spilled in the current function.
   bool SpillsVRSAVE = false;

   /// LRStoreRequired - The bool indicates whether there is some explicit use of
   /// the LR/LR8 stack slot that is not obvious from scanning the code.  This
   /// requires that the code generator produce a store of LR to the stack on
   /// entry, even though LR may otherwise apparently not be used.
   bool LRStoreRequired = false;

   /// This function makes use of the PPC64 ELF TOC base pointer (register r2).
   bool UsesTOCBasePtr = false;

   /// MinReservedArea - This is the frame size that is at least reserved in a
   /// potential caller (parameter+linkage area).
   unsigned MinReservedArea = 0;

   /// TailCallSPDelta - Stack pointer delta used when tail calling. Maximum
   /// amount the stack pointer is adjusted to make the frame bigger for tail
   /// calls. Used for creating an area before the register spill area.
   int TailCallSPDelta = 0;

   /// HasFastCall - Does this function contain a fast call. Used to determine
   /// how the caller's stack pointer should be calculated (epilog/dynamicalloc).
   bool HasFastCall = false;

   /// VarArgsFrameIndex - FrameIndex for start of varargs area.
   int VarArgsFrameIndex = 0;

   /// VarArgsStackOffset - StackOffset for start of stack
   /// arguments.

   int VarArgsStackOffset = 0;

   /// VarArgsNumGPR - Index of the first unused integer
   /// register for parameter passing.
   unsigned VarArgsNumGPR = 0;

   /// VarArgsNumFPR - Index of the first unused double
   /// register for parameter passing.
   unsigned VarArgsNumFPR = 0;

   /// CRSpillFrameIndex - FrameIndex for CR spill slot for 32-bit SVR4.
   int CRSpillFrameIndex = 0;

   /// If any of CR[2-4] need to be saved in the prologue and restored in the
   /// epilogue then they are added to this array. This is used for the
   /// 64-bit SVR4 ABI.
   SmallVector<unsigned, 3> MustSaveCRs;

   /// Hold onto our MachineFunction context.
   MachineFunction &MF;

   /// Whether this uses the PIC Base register or not.
   bool UsesPICBase = false;

   /// True if this function has a subset of CSRs that is handled explicitly via
   /// copies
   bool IsSplitCSR = false;

   /// We keep track attributes for each live-in virtual registers
   /// to use SExt/ZExt flags in later optimization.
   std::vector<std::pair<unsigned, ISD::ArgFlagsTy>> LiveInAttrs;

 public:
   explicit PPCFunctionInfo(MachineFunction &MF) : MF(MF) {}

   int getFramePointerSaveIndex() const { return FramePointerSaveIndex; }
   void setFramePointerSaveIndex(int Idx) { FramePointerSaveIndex = Idx; }

   int getReturnAddrSaveIndex() const { return ReturnAddrSaveIndex; }
   void setReturnAddrSaveIndex(int idx) { ReturnAddrSaveIndex = idx; }

   int getBasePointerSaveIndex() const { return BasePointerSaveIndex; }
   void setBasePointerSaveIndex(int Idx) { BasePointerSaveIndex = Idx; }

   int getPICBasePointerSaveIndex() const { return PICBasePointerSaveIndex; }
   void setPICBasePointerSaveIndex(int Idx) { PICBasePointerSaveIndex = Idx; }

   unsigned getMinReservedArea() const { return MinReservedArea; }
   void setMinReservedArea(unsigned size) { MinReservedArea = size; }

   int getTailCallSPDelta() const { return TailCallSPDelta; }
   void setTailCallSPDelta(int size) { TailCallSPDelta = size; }

   /// MustSaveLR - This is set when the prolog/epilog inserter does its initial
   /// scan of the function. It is true if the LR/LR8 register is ever explicitly
   /// defined/clobbered in the machine function (e.g. by calls and movpctolr,
   /// which is used in PIC generation), or if the LR stack slot is explicitly
   /// referenced by builtin_return_address.
   void setMustSaveLR(bool U) { MustSaveLR = U; }
   bool mustSaveLR() const    { return MustSaveLR; }

   void setMustSaveTOC(bool U) { MustSaveTOC = U; }
   bool mustSaveTOC() const    { return MustSaveTOC; }

   /// We certainly don't want to shrink wrap functions if we've emitted a
   /// MovePCtoLR8 as that has to go into the entry, so the prologue definitely
   /// has to go into the entry block.
   void setShrinkWrapDisabled(bool U) { ShrinkWrapDisabled = U; }
   bool shrinkWrapDisabled() const { return ShrinkWrapDisabled; }

   void setHasSpills()      { HasSpills = true; }
   bool hasSpills() const   { return HasSpills; }

   void setHasNonRISpills()    { HasNonRISpills = true; }
   bool hasNonRISpills() const { return HasNonRISpills; }

   void setSpillsCR()       { SpillsCR = true; }
   bool isCRSpilled() const { return SpillsCR; }

   void setSpillsVRSAVE()       { SpillsVRSAVE = true; }
   bool isVRSAVESpilled() const { return SpillsVRSAVE; }

   void setLRStoreRequired() { LRStoreRequired = true; }
   bool isLRStoreRequired() const { return LRStoreRequired; }

   void setUsesTOCBasePtr()    { UsesTOCBasePtr = true; }
   bool usesTOCBasePtr() const { return UsesTOCBasePtr; }

   void setHasFastCall() { HasFastCall = true; }
   bool hasFastCall() const { return HasFastCall;}

   int getVarArgsFrameIndex() const { return VarArgsFrameIndex; }
   void setVarArgsFrameIndex(int Index) { VarArgsFrameIndex = Index; }

   int getVarArgsStackOffset() const { return VarArgsStackOffset; }
   void setVarArgsStackOffset(int Offset) { VarArgsStackOffset = Offset; }

   unsigned getVarArgsNumGPR() const { return VarArgsNumGPR; }
   void setVarArgsNumGPR(unsigned Num) { VarArgsNumGPR = Num; }

   unsigned getVarArgsNumFPR() const { return VarArgsNumFPR; }
   void setVarArgsNumFPR(unsigned Num) { VarArgsNumFPR = Num; }

   /// This function associates attributes for each live-in virtual register.
   void addLiveInAttr(unsigned VReg, ISD::ArgFlagsTy Flags) {
     LiveInAttrs.push_back(std::make_pair(VReg, Flags));
   }

   /// This function returns true if the specified vreg is
   /// a live-in register and sign-extended.
   bool isLiveInSExt(unsigned VReg) const;

   /// This function returns true if the specified vreg is
   /// a live-in register and zero-extended.
   bool isLiveInZExt(unsigned VReg) const;

   int getCRSpillFrameIndex() const { return CRSpillFrameIndex; }
   void setCRSpillFrameIndex(int idx) { CRSpillFrameIndex = idx; }

   const SmallVectorImpl<unsigned> &
     getMustSaveCRs() const { return MustSaveCRs; }
   void addMustSaveCR(unsigned Reg) { MustSaveCRs.push_back(Reg); }

   void setUsesPICBase(bool uses) { UsesPICBase = uses; }
   bool usesPICBase() const { return UsesPICBase; }

   bool isSplitCSR() const { return IsSplitCSR; }
   void setIsSplitCSR(bool s) { IsSplitCSR = s; }

   MCSymbol *getPICOffsetSymbol() const;

   MCSymbol *getGlobalEPSymbol() const;
   MCSymbol *getLocalEPSymbol() const;
   MCSymbol *getTOCOffsetSymbol() const;
 };

 } // end namespace llvm

 #endif // LLVM_LIB_TARGET_POWERPC_PPCMACHINEFUNCTIONINFO_H
	//===-- PPCMachineFunctionInfo.h - Private data used for PowerPC --- C++ --=//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This file declares the PowerPC specific subclass of MachineFunctionInfo.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_LIB_TARGET_POWERPC_PPCMACHINEFUNCTIONINFO_H
	#define LLVM_LIB_TARGET_POWERPC_PPCMACHINEFUNCTIONINFO_H

	#include "llvm/ADT/SmallVector.h"
	#include "llvm/CodeGen/MachineFunction.h"
	#include "llvm/CodeGen/TargetCallingConv.h"

	namespace llvm {

	/// PPCFunctionInfo - This class is derived from MachineFunction private
	/// PowerPC target-specific information for each MachineFunction.
	class PPCFunctionInfo : public MachineFunctionInfo {
	virtual void anchor();

	/// FramePointerSaveIndex - Frame index of where the old frame pointer is
	/// stored. Also used as an anchor for instructions that need to be altered
	/// when using frame pointers (dyna_add, dyna_sub.)
	int FramePointerSaveIndex = 0;

	/// ReturnAddrSaveIndex - Frame index of where the return address is stored.
	///
	int ReturnAddrSaveIndex = 0;

	/// Frame index where the old base pointer is stored.
	int BasePointerSaveIndex = 0;

	/// Frame index where the old PIC base pointer is stored.
	int PICBasePointerSaveIndex = 0;

	/// MustSaveLR - Indicates whether LR is defined (or clobbered) in the current
	/// function. This is only valid after the initial scan of the function by
	/// PEI.
	bool MustSaveLR = false;

	/// MustSaveTOC - Indicates that the TOC save needs to be performed in the
	/// prologue of the function. This is typically the case when there are
	/// indirect calls in the function and it is more profitable to save the
	/// TOC pointer in the prologue than in the block(s) containing the call(s).
	bool MustSaveTOC = false;

	/// Do we have to disable shrink-wrapping? This has to be set if we emit any
	/// instructions that clobber LR in the entry block because discovering this
	/// in PEI is too late (happens after shrink-wrapping);
	bool ShrinkWrapDisabled = false;

	/// Does this function have any stack spills.
	bool HasSpills = false;

	/// Does this function spill using instructions with only r+r (not r+i)
	/// forms.
	bool HasNonRISpills = false;

	/// SpillsCR - Indicates whether CR is spilled in the current function.
	bool SpillsCR = false;

	/// Indicates whether VRSAVE is spilled in the current function.
	bool SpillsVRSAVE = false;

	/// LRStoreRequired - The bool indicates whether there is some explicit use of
	/// the LR/LR8 stack slot that is not obvious from scanning the code. This
	/// requires that the code generator produce a store of LR to the stack on
	/// entry, even though LR may otherwise apparently not be used.
	bool LRStoreRequired = false;

	/// This function makes use of the PPC64 ELF TOC base pointer (register r2).
	bool UsesTOCBasePtr = false;

	/// MinReservedArea - This is the frame size that is at least reserved in a
	/// potential caller (parameter+linkage area).
	unsigned MinReservedArea = 0;

	/// TailCallSPDelta - Stack pointer delta used when tail calling. Maximum
	/// amount the stack pointer is adjusted to make the frame bigger for tail
	/// calls. Used for creating an area before the register spill area.
	int TailCallSPDelta = 0;

	/// HasFastCall - Does this function contain a fast call. Used to determine
	/// how the caller's stack pointer should be calculated (epilog/dynamicalloc).
	bool HasFastCall = false;

	/// VarArgsFrameIndex - FrameIndex for start of varargs area.
	int VarArgsFrameIndex = 0;

	/// VarArgsStackOffset - StackOffset for start of stack
	/// arguments.

	int VarArgsStackOffset = 0;

	/// VarArgsNumGPR - Index of the first unused integer
	/// register for parameter passing.
	unsigned VarArgsNumGPR = 0;

	/// VarArgsNumFPR - Index of the first unused double
	/// register for parameter passing.
	unsigned VarArgsNumFPR = 0;

	/// CRSpillFrameIndex - FrameIndex for CR spill slot for 32-bit SVR4.
	int CRSpillFrameIndex = 0;

	/// If any of CR[2-4] need to be saved in the prologue and restored in the
	/// epilogue then they are added to this array. This is used for the
	/// 64-bit SVR4 ABI.
	SmallVector<unsigned, 3> MustSaveCRs;

	/// Hold onto our MachineFunction context.
	MachineFunction &MF;

	/// Whether this uses the PIC Base register or not.
	bool UsesPICBase = false;

	/// True if this function has a subset of CSRs that is handled explicitly via
	/// copies
	bool IsSplitCSR = false;

	/// We keep track attributes for each live-in virtual registers
	/// to use SExt/ZExt flags in later optimization.
	std::vector<std::pair<unsigned, ISD::ArgFlagsTy>> LiveInAttrs;

	public:
	explicit PPCFunctionInfo(MachineFunction &MF) : MF(MF) {}

	int getFramePointerSaveIndex() const { return FramePointerSaveIndex; }
	void setFramePointerSaveIndex(int Idx) { FramePointerSaveIndex = Idx; }

	int getReturnAddrSaveIndex() const { return ReturnAddrSaveIndex; }
	void setReturnAddrSaveIndex(int idx) { ReturnAddrSaveIndex = idx; }

	int getBasePointerSaveIndex() const { return BasePointerSaveIndex; }
	void setBasePointerSaveIndex(int Idx) { BasePointerSaveIndex = Idx; }

	int getPICBasePointerSaveIndex() const { return PICBasePointerSaveIndex; }
	void setPICBasePointerSaveIndex(int Idx) { PICBasePointerSaveIndex = Idx; }

	unsigned getMinReservedArea() const { return MinReservedArea; }
	void setMinReservedArea(unsigned size) { MinReservedArea = size; }

	int getTailCallSPDelta() const { return TailCallSPDelta; }
	void setTailCallSPDelta(int size) { TailCallSPDelta = size; }

	/// MustSaveLR - This is set when the prolog/epilog inserter does its initial
	/// scan of the function. It is true if the LR/LR8 register is ever explicitly
	/// defined/clobbered in the machine function (e.g. by calls and movpctolr,
	/// which is used in PIC generation), or if the LR stack slot is explicitly
	/// referenced by builtin_return_address.
	void setMustSaveLR(bool U) { MustSaveLR = U; }
	bool mustSaveLR() const { return MustSaveLR; }

	void setMustSaveTOC(bool U) { MustSaveTOC = U; }
	bool mustSaveTOC() const { return MustSaveTOC; }

	/// We certainly don't want to shrink wrap functions if we've emitted a
	/// MovePCtoLR8 as that has to go into the entry, so the prologue definitely
	/// has to go into the entry block.
	void setShrinkWrapDisabled(bool U) { ShrinkWrapDisabled = U; }
	bool shrinkWrapDisabled() const { return ShrinkWrapDisabled; }

	void setHasSpills() { HasSpills = true; }
	bool hasSpills() const { return HasSpills; }

	void setHasNonRISpills() { HasNonRISpills = true; }
	bool hasNonRISpills() const { return HasNonRISpills; }

	void setSpillsCR() { SpillsCR = true; }
	bool isCRSpilled() const { return SpillsCR; }

	void setSpillsVRSAVE() { SpillsVRSAVE = true; }
	bool isVRSAVESpilled() const { return SpillsVRSAVE; }

	void setLRStoreRequired() { LRStoreRequired = true; }
	bool isLRStoreRequired() const { return LRStoreRequired; }

	void setUsesTOCBasePtr() { UsesTOCBasePtr = true; }
	bool usesTOCBasePtr() const { return UsesTOCBasePtr; }

	void setHasFastCall() { HasFastCall = true; }
	bool hasFastCall() const { return HasFastCall;}

	int getVarArgsFrameIndex() const { return VarArgsFrameIndex; }
	void setVarArgsFrameIndex(int Index) { VarArgsFrameIndex = Index; }

	int getVarArgsStackOffset() const { return VarArgsStackOffset; }
	void setVarArgsStackOffset(int Offset) { VarArgsStackOffset = Offset; }

	unsigned getVarArgsNumGPR() const { return VarArgsNumGPR; }
	void setVarArgsNumGPR(unsigned Num) { VarArgsNumGPR = Num; }

	unsigned getVarArgsNumFPR() const { return VarArgsNumFPR; }
	void setVarArgsNumFPR(unsigned Num) { VarArgsNumFPR = Num; }

	/// This function associates attributes for each live-in virtual register.
	void addLiveInAttr(unsigned VReg, ISD::ArgFlagsTy Flags) {
	LiveInAttrs.push_back(std::make_pair(VReg, Flags));
	}

	/// This function returns true if the specified vreg is
	/// a live-in register and sign-extended.
	bool isLiveInSExt(unsigned VReg) const;

	/// This function returns true if the specified vreg is
	/// a live-in register and zero-extended.
	bool isLiveInZExt(unsigned VReg) const;

	int getCRSpillFrameIndex() const { return CRSpillFrameIndex; }
	void setCRSpillFrameIndex(int idx) { CRSpillFrameIndex = idx; }

	const SmallVectorImpl<unsigned> &
	getMustSaveCRs() const { return MustSaveCRs; }
	void addMustSaveCR(unsigned Reg) { MustSaveCRs.push_back(Reg); }

	void setUsesPICBase(bool uses) { UsesPICBase = uses; }
	bool usesPICBase() const { return UsesPICBase; }

	bool isSplitCSR() const { return IsSplitCSR; }
	void setIsSplitCSR(bool s) { IsSplitCSR = s; }

	MCSymbol *getPICOffsetSymbol() const;

	MCSymbol *getGlobalEPSymbol() const;
	MCSymbol *getLocalEPSymbol() const;
	MCSymbol *getTOCOffsetSymbol() const;
	};

	} // end namespace llvm

	#endif // LLVM_LIB_TARGET_POWERPC_PPCMACHINEFUNCTIONINFO_H