forked from OSchip/llvm-project
339 lines
12 KiB
C++
339 lines
12 KiB
C++
//=- AArch64MachineFunctionInfo.h - AArch64 machine function info -*- C++ -*-=//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file declares AArch64-specific per-machine-function information.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LIB_TARGET_AARCH64_AARCH64MACHINEFUNCTIONINFO_H
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#define LLVM_LIB_TARGET_AARCH64_AARCH64MACHINEFUNCTIONINFO_H
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/Optional.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/CodeGen/CallingConvLower.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/TargetFrameLowering.h"
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#include "llvm/IR/Function.h"
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#include "llvm/MC/MCLinkerOptimizationHint.h"
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#include <cassert>
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namespace llvm {
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class MachineInstr;
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/// AArch64FunctionInfo - This class is derived from MachineFunctionInfo and
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/// contains private AArch64-specific information for each MachineFunction.
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class AArch64FunctionInfo final : public MachineFunctionInfo {
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/// Number of bytes of arguments this function has on the stack. If the callee
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/// is expected to restore the argument stack this should be a multiple of 16,
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/// all usable during a tail call.
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///
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/// The alternative would forbid tail call optimisation in some cases: if we
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/// want to transfer control from a function with 8-bytes of stack-argument
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/// space to a function with 16-bytes then misalignment of this value would
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/// make a stack adjustment necessary, which could not be undone by the
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/// callee.
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unsigned BytesInStackArgArea = 0;
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/// The number of bytes to restore to deallocate space for incoming
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/// arguments. Canonically 0 in the C calling convention, but non-zero when
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/// callee is expected to pop the args.
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unsigned ArgumentStackToRestore = 0;
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/// HasStackFrame - True if this function has a stack frame. Set by
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/// determineCalleeSaves().
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bool HasStackFrame = false;
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/// Amount of stack frame size, not including callee-saved registers.
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uint64_t LocalStackSize = 0;
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/// The start and end frame indices for the SVE callee saves.
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int MinSVECSFrameIndex = 0;
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int MaxSVECSFrameIndex = 0;
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/// Amount of stack frame size used for saving callee-saved registers.
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unsigned CalleeSavedStackSize = 0;
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unsigned SVECalleeSavedStackSize = 0;
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bool HasCalleeSavedStackSize = false;
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/// Number of TLS accesses using the special (combinable)
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/// _TLS_MODULE_BASE_ symbol.
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unsigned NumLocalDynamicTLSAccesses = 0;
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/// FrameIndex for start of varargs area for arguments passed on the
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/// stack.
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int VarArgsStackIndex = 0;
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/// FrameIndex for start of varargs area for arguments passed in
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/// general purpose registers.
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int VarArgsGPRIndex = 0;
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/// Size of the varargs area for arguments passed in general purpose
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/// registers.
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unsigned VarArgsGPRSize = 0;
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/// FrameIndex for start of varargs area for arguments passed in
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/// floating-point registers.
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int VarArgsFPRIndex = 0;
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/// Size of the varargs area for arguments passed in floating-point
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/// registers.
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unsigned VarArgsFPRSize = 0;
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/// True if this function has a subset of CSRs that is handled explicitly via
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/// copies.
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bool IsSplitCSR = false;
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/// True when the stack gets realigned dynamically because the size of stack
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/// frame is unknown at compile time. e.g., in case of VLAs.
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bool StackRealigned = false;
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/// True when the callee-save stack area has unused gaps that may be used for
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/// other stack allocations.
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bool CalleeSaveStackHasFreeSpace = false;
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/// SRetReturnReg - sret lowering includes returning the value of the
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/// returned struct in a register. This field holds the virtual register into
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/// which the sret argument is passed.
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unsigned SRetReturnReg = 0;
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/// SVE stack size (for predicates and data vectors) are maintained here
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/// rather than in FrameInfo, as the placement and Stack IDs are target
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/// specific.
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uint64_t StackSizeSVE = 0;
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/// HasCalculatedStackSizeSVE indicates whether StackSizeSVE is valid.
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bool HasCalculatedStackSizeSVE = false;
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/// Has a value when it is known whether or not the function uses a
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/// redzone, and no value otherwise.
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/// Initialized during frame lowering, unless the function has the noredzone
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/// attribute, in which case it is set to false at construction.
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Optional<bool> HasRedZone;
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/// ForwardedMustTailRegParms - A list of virtual and physical registers
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/// that must be forwarded to every musttail call.
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SmallVector<ForwardedRegister, 1> ForwardedMustTailRegParms;
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// Offset from SP-at-entry to the tagged base pointer.
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// Tagged base pointer is set up to point to the first (lowest address) tagged
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// stack slot.
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unsigned TaggedBasePointerOffset = 0;
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public:
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AArch64FunctionInfo() = default;
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explicit AArch64FunctionInfo(MachineFunction &MF) {
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(void)MF;
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// If we already know that the function doesn't have a redzone, set
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// HasRedZone here.
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if (MF.getFunction().hasFnAttribute(Attribute::NoRedZone))
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HasRedZone = false;
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}
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unsigned getBytesInStackArgArea() const { return BytesInStackArgArea; }
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void setBytesInStackArgArea(unsigned bytes) { BytesInStackArgArea = bytes; }
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unsigned getArgumentStackToRestore() const { return ArgumentStackToRestore; }
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void setArgumentStackToRestore(unsigned bytes) {
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ArgumentStackToRestore = bytes;
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}
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bool hasCalculatedStackSizeSVE() const { return HasCalculatedStackSizeSVE; }
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void setStackSizeSVE(uint64_t S) {
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HasCalculatedStackSizeSVE = true;
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StackSizeSVE = S;
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}
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uint64_t getStackSizeSVE() const { return StackSizeSVE; }
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bool hasStackFrame() const { return HasStackFrame; }
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void setHasStackFrame(bool s) { HasStackFrame = s; }
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bool isStackRealigned() const { return StackRealigned; }
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void setStackRealigned(bool s) { StackRealigned = s; }
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bool hasCalleeSaveStackFreeSpace() const {
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return CalleeSaveStackHasFreeSpace;
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}
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void setCalleeSaveStackHasFreeSpace(bool s) {
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CalleeSaveStackHasFreeSpace = s;
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}
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bool isSplitCSR() const { return IsSplitCSR; }
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void setIsSplitCSR(bool s) { IsSplitCSR = s; }
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void setLocalStackSize(uint64_t Size) { LocalStackSize = Size; }
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uint64_t getLocalStackSize() const { return LocalStackSize; }
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void setCalleeSavedStackSize(unsigned Size) {
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CalleeSavedStackSize = Size;
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HasCalleeSavedStackSize = true;
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}
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// When CalleeSavedStackSize has not been set (for example when
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// some MachineIR pass is run in isolation), then recalculate
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// the CalleeSavedStackSize directly from the CalleeSavedInfo.
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// Note: This information can only be recalculated after PEI
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// has assigned offsets to the callee save objects.
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unsigned getCalleeSavedStackSize(const MachineFrameInfo &MFI) const {
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bool ValidateCalleeSavedStackSize = false;
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#ifndef NDEBUG
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// Make sure the calculated size derived from the CalleeSavedInfo
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// equals the cached size that was calculated elsewhere (e.g. in
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// determineCalleeSaves).
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ValidateCalleeSavedStackSize = HasCalleeSavedStackSize;
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#endif
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if (!HasCalleeSavedStackSize || ValidateCalleeSavedStackSize) {
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assert(MFI.isCalleeSavedInfoValid() && "CalleeSavedInfo not calculated");
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if (MFI.getCalleeSavedInfo().empty())
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return 0;
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int64_t MinOffset = std::numeric_limits<int64_t>::max();
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int64_t MaxOffset = std::numeric_limits<int64_t>::min();
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for (const auto &Info : MFI.getCalleeSavedInfo()) {
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int FrameIdx = Info.getFrameIdx();
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if (MFI.getStackID(FrameIdx) != TargetStackID::Default)
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continue;
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int64_t Offset = MFI.getObjectOffset(FrameIdx);
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int64_t ObjSize = MFI.getObjectSize(FrameIdx);
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MinOffset = std::min<int64_t>(Offset, MinOffset);
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MaxOffset = std::max<int64_t>(Offset + ObjSize, MaxOffset);
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}
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unsigned Size = alignTo(MaxOffset - MinOffset, 16);
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assert((!HasCalleeSavedStackSize || getCalleeSavedStackSize() == Size) &&
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"Invalid size calculated for callee saves");
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return Size;
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}
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return getCalleeSavedStackSize();
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}
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unsigned getCalleeSavedStackSize() const {
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assert(HasCalleeSavedStackSize &&
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"CalleeSavedStackSize has not been calculated");
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return CalleeSavedStackSize;
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}
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// Saves the CalleeSavedStackSize for SVE vectors in 'scalable bytes'
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void setSVECalleeSavedStackSize(unsigned Size) {
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SVECalleeSavedStackSize = Size;
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}
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unsigned getSVECalleeSavedStackSize() const {
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return SVECalleeSavedStackSize;
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}
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void setMinMaxSVECSFrameIndex(int Min, int Max) {
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MinSVECSFrameIndex = Min;
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MaxSVECSFrameIndex = Max;
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}
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int getMinSVECSFrameIndex() const { return MinSVECSFrameIndex; }
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int getMaxSVECSFrameIndex() const { return MaxSVECSFrameIndex; }
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void incNumLocalDynamicTLSAccesses() { ++NumLocalDynamicTLSAccesses; }
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unsigned getNumLocalDynamicTLSAccesses() const {
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return NumLocalDynamicTLSAccesses;
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}
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Optional<bool> hasRedZone() const { return HasRedZone; }
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void setHasRedZone(bool s) { HasRedZone = s; }
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int getVarArgsStackIndex() const { return VarArgsStackIndex; }
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void setVarArgsStackIndex(int Index) { VarArgsStackIndex = Index; }
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int getVarArgsGPRIndex() const { return VarArgsGPRIndex; }
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void setVarArgsGPRIndex(int Index) { VarArgsGPRIndex = Index; }
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unsigned getVarArgsGPRSize() const { return VarArgsGPRSize; }
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void setVarArgsGPRSize(unsigned Size) { VarArgsGPRSize = Size; }
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int getVarArgsFPRIndex() const { return VarArgsFPRIndex; }
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void setVarArgsFPRIndex(int Index) { VarArgsFPRIndex = Index; }
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unsigned getVarArgsFPRSize() const { return VarArgsFPRSize; }
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void setVarArgsFPRSize(unsigned Size) { VarArgsFPRSize = Size; }
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unsigned getSRetReturnReg() const { return SRetReturnReg; }
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void setSRetReturnReg(unsigned Reg) { SRetReturnReg = Reg; }
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unsigned getJumpTableEntrySize(int Idx) const {
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auto It = JumpTableEntryInfo.find(Idx);
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if (It != JumpTableEntryInfo.end())
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return It->second.first;
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return 4;
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}
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MCSymbol *getJumpTableEntryPCRelSymbol(int Idx) const {
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return JumpTableEntryInfo.find(Idx)->second.second;
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}
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void setJumpTableEntryInfo(int Idx, unsigned Size, MCSymbol *PCRelSym) {
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JumpTableEntryInfo[Idx] = std::make_pair(Size, PCRelSym);
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}
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using SetOfInstructions = SmallPtrSet<const MachineInstr *, 16>;
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const SetOfInstructions &getLOHRelated() const { return LOHRelated; }
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// Shortcuts for LOH related types.
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class MILOHDirective {
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MCLOHType Kind;
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/// Arguments of this directive. Order matters.
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SmallVector<const MachineInstr *, 3> Args;
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public:
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using LOHArgs = ArrayRef<const MachineInstr *>;
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MILOHDirective(MCLOHType Kind, LOHArgs Args)
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: Kind(Kind), Args(Args.begin(), Args.end()) {
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assert(isValidMCLOHType(Kind) && "Invalid LOH directive type!");
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}
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MCLOHType getKind() const { return Kind; }
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LOHArgs getArgs() const { return Args; }
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};
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using MILOHArgs = MILOHDirective::LOHArgs;
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using MILOHContainer = SmallVector<MILOHDirective, 32>;
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const MILOHContainer &getLOHContainer() const { return LOHContainerSet; }
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/// Add a LOH directive of this @p Kind and this @p Args.
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void addLOHDirective(MCLOHType Kind, MILOHArgs Args) {
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LOHContainerSet.push_back(MILOHDirective(Kind, Args));
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LOHRelated.insert(Args.begin(), Args.end());
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}
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SmallVectorImpl<ForwardedRegister> &getForwardedMustTailRegParms() {
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return ForwardedMustTailRegParms;
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}
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unsigned getTaggedBasePointerOffset() const {
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return TaggedBasePointerOffset;
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}
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void setTaggedBasePointerOffset(unsigned Offset) {
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TaggedBasePointerOffset = Offset;
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}
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private:
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// Hold the lists of LOHs.
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MILOHContainer LOHContainerSet;
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SetOfInstructions LOHRelated;
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DenseMap<int, std::pair<unsigned, MCSymbol *>> JumpTableEntryInfo;
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};
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} // end namespace llvm
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#endif // LLVM_LIB_TARGET_AARCH64_AARCH64MACHINEFUNCTIONINFO_H
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