mirror of
https://github.com/c64scene-ar/llvm-6502.git
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7545f49a5e
created. This ensures it's updated at all time. It means targets which perform dynamic stack alignment would know whether it is required and whether frame pointer register cannot be made available register allocation. This is a fix for rdar://7625239. Sorry, I can't create a reasonably sized test case. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@96069 91177308-0d34-0410-b5e6-96231b3b80d8
474 lines
18 KiB
C++
474 lines
18 KiB
C++
//===-- CodeGen/MachineFrameInfo.h - Abstract Stack Frame Rep. --*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// The file defines the MachineFrameInfo class.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CODEGEN_MACHINEFRAMEINFO_H
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#define LLVM_CODEGEN_MACHINEFRAMEINFO_H
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#include "llvm/ADT/BitVector.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/System/DataTypes.h"
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#include <cassert>
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#include <limits>
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#include <vector>
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namespace llvm {
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class raw_ostream;
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class TargetData;
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class TargetRegisterClass;
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class Type;
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class MachineModuleInfo;
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class MachineFunction;
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class MachineBasicBlock;
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class TargetFrameInfo;
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/// The CalleeSavedInfo class tracks the information need to locate where a
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/// callee saved register in the current frame.
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class CalleeSavedInfo {
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private:
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unsigned Reg;
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const TargetRegisterClass *RegClass;
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int FrameIdx;
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public:
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CalleeSavedInfo(unsigned R, const TargetRegisterClass *RC, int FI = 0)
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: Reg(R)
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, RegClass(RC)
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, FrameIdx(FI)
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{}
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// Accessors.
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unsigned getReg() const { return Reg; }
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const TargetRegisterClass *getRegClass() const { return RegClass; }
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int getFrameIdx() const { return FrameIdx; }
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void setFrameIdx(int FI) { FrameIdx = FI; }
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};
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/// The MachineFrameInfo class represents an abstract stack frame until
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/// prolog/epilog code is inserted. This class is key to allowing stack frame
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/// representation optimizations, such as frame pointer elimination. It also
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/// allows more mundane (but still important) optimizations, such as reordering
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/// of abstract objects on the stack frame.
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///
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/// To support this, the class assigns unique integer identifiers to stack
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/// objects requested clients. These identifiers are negative integers for
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/// fixed stack objects (such as arguments passed on the stack) or nonnegative
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/// for objects that may be reordered. Instructions which refer to stack
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/// objects use a special MO_FrameIndex operand to represent these frame
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/// indexes.
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///
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/// Because this class keeps track of all references to the stack frame, it
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/// knows when a variable sized object is allocated on the stack. This is the
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/// sole condition which prevents frame pointer elimination, which is an
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/// important optimization on register-poor architectures. Because original
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/// variable sized alloca's in the source program are the only source of
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/// variable sized stack objects, it is safe to decide whether there will be
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/// any variable sized objects before all stack objects are known (for
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/// example, register allocator spill code never needs variable sized
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/// objects).
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///
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/// When prolog/epilog code emission is performed, the final stack frame is
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/// built and the machine instructions are modified to refer to the actual
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/// stack offsets of the object, eliminating all MO_FrameIndex operands from
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/// the program.
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///
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/// @brief Abstract Stack Frame Information
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class MachineFrameInfo {
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// StackObject - Represent a single object allocated on the stack.
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struct StackObject {
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// SPOffset - The offset of this object from the stack pointer on entry to
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// the function. This field has no meaning for a variable sized element.
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int64_t SPOffset;
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// The size of this object on the stack. 0 means a variable sized object,
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// ~0ULL means a dead object.
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uint64_t Size;
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// Alignment - The required alignment of this stack slot.
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unsigned Alignment;
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// isImmutable - If true, the value of the stack object is set before
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// entering the function and is not modified inside the function. By
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// default, fixed objects are immutable unless marked otherwise.
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bool isImmutable;
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// isSpillSlot - If true, the stack object is used as spill slot. It
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// cannot alias any other memory objects.
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bool isSpillSlot;
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StackObject(uint64_t Sz, unsigned Al, int64_t SP, bool IM,
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bool isSS)
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: SPOffset(SP), Size(Sz), Alignment(Al), isImmutable(IM),
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isSpillSlot(isSS) {}
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};
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/// Objects - The list of stack objects allocated...
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///
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std::vector<StackObject> Objects;
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/// NumFixedObjects - This contains the number of fixed objects contained on
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/// the stack. Because fixed objects are stored at a negative index in the
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/// Objects list, this is also the index to the 0th object in the list.
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///
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unsigned NumFixedObjects;
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/// HasVarSizedObjects - This boolean keeps track of whether any variable
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/// sized objects have been allocated yet.
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///
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bool HasVarSizedObjects;
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/// FrameAddressTaken - This boolean keeps track of whether there is a call
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/// to builtin \@llvm.frameaddress.
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bool FrameAddressTaken;
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/// StackSize - The prolog/epilog code inserter calculates the final stack
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/// offsets for all of the fixed size objects, updating the Objects list
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/// above. It then updates StackSize to contain the number of bytes that need
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/// to be allocated on entry to the function.
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///
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uint64_t StackSize;
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/// OffsetAdjustment - The amount that a frame offset needs to be adjusted to
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/// have the actual offset from the stack/frame pointer. The exact usage of
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/// this is target-dependent, but it is typically used to adjust between
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/// SP-relative and FP-relative offsets. E.G., if objects are accessed via
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/// SP then OffsetAdjustment is zero; if FP is used, OffsetAdjustment is set
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/// to the distance between the initial SP and the value in FP. For many
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/// targets, this value is only used when generating debug info (via
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/// TargetRegisterInfo::getFrameIndexOffset); when generating code, the
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/// corresponding adjustments are performed directly.
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int OffsetAdjustment;
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/// MaxAlignment - The prolog/epilog code inserter may process objects
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/// that require greater alignment than the default alignment the target
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/// provides. To handle this, MaxAlignment is set to the maximum alignment
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/// needed by the objects on the current frame. If this is greater than the
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/// native alignment maintained by the compiler, dynamic alignment code will
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/// be needed.
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///
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unsigned MaxAlignment;
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/// HasCalls - Set to true if this function has any function calls. This is
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/// only valid during and after prolog/epilog code insertion.
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bool HasCalls;
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/// StackProtectorIdx - The frame index for the stack protector.
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int StackProtectorIdx;
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/// MaxCallFrameSize - This contains the size of the largest call frame if the
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/// target uses frame setup/destroy pseudo instructions (as defined in the
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/// TargetFrameInfo class). This information is important for frame pointer
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/// elimination. If is only valid during and after prolog/epilog code
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/// insertion.
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///
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unsigned MaxCallFrameSize;
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/// CSInfo - The prolog/epilog code inserter fills in this vector with each
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/// callee saved register saved in the frame. Beyond its use by the prolog/
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/// epilog code inserter, this data used for debug info and exception
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/// handling.
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std::vector<CalleeSavedInfo> CSInfo;
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/// CSIValid - Has CSInfo been set yet?
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bool CSIValid;
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/// SpillObjects - A vector indicating which frame indices refer to
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/// spill slots.
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SmallVector<bool, 8> SpillObjects;
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/// MMI - This field is set (via setMachineModuleInfo) by a module info
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/// consumer (ex. DwarfWriter) to indicate that frame layout information
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/// should be acquired. Typically, it's the responsibility of the target's
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/// TargetRegisterInfo prologue/epilogue emitting code to inform
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/// MachineModuleInfo of frame layouts.
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MachineModuleInfo *MMI;
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/// TargetFrameInfo - Target information about frame layout.
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///
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const TargetFrameInfo &TFI;
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public:
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explicit MachineFrameInfo(const TargetFrameInfo &tfi) : TFI(tfi) {
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StackSize = NumFixedObjects = OffsetAdjustment = MaxAlignment = 0;
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HasVarSizedObjects = false;
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FrameAddressTaken = false;
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HasCalls = false;
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StackProtectorIdx = -1;
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MaxCallFrameSize = 0;
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CSIValid = false;
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MMI = 0;
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}
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/// hasStackObjects - Return true if there are any stack objects in this
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/// function.
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///
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bool hasStackObjects() const { return !Objects.empty(); }
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/// hasVarSizedObjects - This method may be called any time after instruction
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/// selection is complete to determine if the stack frame for this function
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/// contains any variable sized objects.
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///
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bool hasVarSizedObjects() const { return HasVarSizedObjects; }
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/// getStackProtectorIndex/setStackProtectorIndex - Return the index for the
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/// stack protector object.
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///
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int getStackProtectorIndex() const { return StackProtectorIdx; }
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void setStackProtectorIndex(int I) { StackProtectorIdx = I; }
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/// isFrameAddressTaken - This method may be called any time after instruction
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/// selection is complete to determine if there is a call to
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/// \@llvm.frameaddress in this function.
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bool isFrameAddressTaken() const { return FrameAddressTaken; }
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void setFrameAddressIsTaken(bool T) { FrameAddressTaken = T; }
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/// getObjectIndexBegin - Return the minimum frame object index.
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///
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int getObjectIndexBegin() const { return -NumFixedObjects; }
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/// getObjectIndexEnd - Return one past the maximum frame object index.
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///
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int getObjectIndexEnd() const { return (int)Objects.size()-NumFixedObjects; }
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/// getNumFixedObjects() - Return the number of fixed objects.
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unsigned getNumFixedObjects() const { return NumFixedObjects; }
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/// getNumObjects() - Return the number of objects.
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///
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unsigned getNumObjects() const { return Objects.size(); }
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/// getObjectSize - Return the size of the specified object.
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///
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int64_t getObjectSize(int ObjectIdx) const {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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return Objects[ObjectIdx+NumFixedObjects].Size;
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}
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/// setObjectSize - Change the size of the specified stack object.
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void setObjectSize(int ObjectIdx, int64_t Size) {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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Objects[ObjectIdx+NumFixedObjects].Size = Size;
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}
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/// getObjectAlignment - Return the alignment of the specified stack object.
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unsigned getObjectAlignment(int ObjectIdx) const {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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return Objects[ObjectIdx+NumFixedObjects].Alignment;
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}
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/// setObjectAlignment - Change the alignment of the specified stack object.
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void setObjectAlignment(int ObjectIdx, unsigned Align) {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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Objects[ObjectIdx+NumFixedObjects].Alignment = Align;
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MaxAlignment = std::max(MaxAlignment, Align);
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}
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/// getObjectOffset - Return the assigned stack offset of the specified object
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/// from the incoming stack pointer.
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///
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int64_t getObjectOffset(int ObjectIdx) const {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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assert(!isDeadObjectIndex(ObjectIdx) &&
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"Getting frame offset for a dead object?");
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return Objects[ObjectIdx+NumFixedObjects].SPOffset;
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}
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/// setObjectOffset - Set the stack frame offset of the specified object. The
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/// offset is relative to the stack pointer on entry to the function.
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///
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void setObjectOffset(int ObjectIdx, int64_t SPOffset) {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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assert(!isDeadObjectIndex(ObjectIdx) &&
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"Setting frame offset for a dead object?");
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Objects[ObjectIdx+NumFixedObjects].SPOffset = SPOffset;
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}
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/// getStackSize - Return the number of bytes that must be allocated to hold
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/// all of the fixed size frame objects. This is only valid after
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/// Prolog/Epilog code insertion has finalized the stack frame layout.
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///
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uint64_t getStackSize() const { return StackSize; }
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/// setStackSize - Set the size of the stack...
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///
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void setStackSize(uint64_t Size) { StackSize = Size; }
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/// getOffsetAdjustment - Return the correction for frame offsets.
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///
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int getOffsetAdjustment() const { return OffsetAdjustment; }
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/// setOffsetAdjustment - Set the correction for frame offsets.
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///
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void setOffsetAdjustment(int Adj) { OffsetAdjustment = Adj; }
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/// getMaxAlignment - Return the alignment in bytes that this function must be
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/// aligned to, which is greater than the default stack alignment provided by
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/// the target.
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///
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unsigned getMaxAlignment() const { return MaxAlignment; }
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/// setMaxAlignment - Set the preferred alignment.
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///
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void setMaxAlignment(unsigned Align) { MaxAlignment = Align; }
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/// hasCalls - Return true if the current function has no function calls.
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/// This is only valid during or after prolog/epilog code emission.
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///
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bool hasCalls() const { return HasCalls; }
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void setHasCalls(bool V) { HasCalls = V; }
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/// getMaxCallFrameSize - Return the maximum size of a call frame that must be
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/// allocated for an outgoing function call. This is only available if
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/// CallFrameSetup/Destroy pseudo instructions are used by the target, and
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/// then only during or after prolog/epilog code insertion.
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///
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unsigned getMaxCallFrameSize() const { return MaxCallFrameSize; }
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void setMaxCallFrameSize(unsigned S) { MaxCallFrameSize = S; }
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/// CreateFixedObject - Create a new object at a fixed location on the stack.
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/// All fixed objects should be created before other objects are created for
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/// efficiency. By default, fixed objects are immutable. This returns an
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/// index with a negative value.
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///
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int CreateFixedObject(uint64_t Size, int64_t SPOffset,
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bool Immutable, bool isSS);
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/// isFixedObjectIndex - Returns true if the specified index corresponds to a
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/// fixed stack object.
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bool isFixedObjectIndex(int ObjectIdx) const {
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return ObjectIdx < 0 && (ObjectIdx >= -(int)NumFixedObjects);
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}
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/// isImmutableObjectIndex - Returns true if the specified index corresponds
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/// to an immutable object.
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bool isImmutableObjectIndex(int ObjectIdx) const {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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return Objects[ObjectIdx+NumFixedObjects].isImmutable;
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}
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/// isSpillSlotObjectIndex - Returns true if the specified index corresponds
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/// to a spill slot..
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bool isSpillSlotObjectIndex(int ObjectIdx) const {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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return Objects[ObjectIdx+NumFixedObjects].isSpillSlot;;
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}
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/// isDeadObjectIndex - Returns true if the specified index corresponds to
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/// a dead object.
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bool isDeadObjectIndex(int ObjectIdx) const {
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assert(unsigned(ObjectIdx+NumFixedObjects) < Objects.size() &&
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"Invalid Object Idx!");
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return Objects[ObjectIdx+NumFixedObjects].Size == ~0ULL;
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}
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/// CreateStackObject - Create a new statically sized stack object,
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/// returning a nonnegative identifier to represent it.
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///
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int CreateStackObject(uint64_t Size, unsigned Alignment, bool isSS) {
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assert(Size != 0 && "Cannot allocate zero size stack objects!");
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Objects.push_back(StackObject(Size, Alignment, 0, false, isSS));
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int Index = (int)Objects.size()-NumFixedObjects-1;
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assert(Index >= 0 && "Bad frame index!");
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MaxAlignment = std::max(MaxAlignment, Alignment);
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return Index;
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}
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/// CreateSpillStackObject - Create a new statically sized stack
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/// object that represents a spill slot, returning a nonnegative
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/// identifier to represent it.
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///
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int CreateSpillStackObject(uint64_t Size, unsigned Alignment) {
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CreateStackObject(Size, Alignment, true);
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int Index = (int)Objects.size()-NumFixedObjects-1;
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MaxAlignment = std::max(MaxAlignment, Alignment);
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return Index;
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}
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/// RemoveStackObject - Remove or mark dead a statically sized stack object.
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///
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void RemoveStackObject(int ObjectIdx) {
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// Mark it dead.
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Objects[ObjectIdx+NumFixedObjects].Size = ~0ULL;
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}
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/// CreateVariableSizedObject - Notify the MachineFrameInfo object that a
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/// variable sized object has been created. This must be created whenever a
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/// variable sized object is created, whether or not the index returned is
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/// actually used.
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///
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int CreateVariableSizedObject() {
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HasVarSizedObjects = true;
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Objects.push_back(StackObject(0, 1, 0, false, false));
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return (int)Objects.size()-NumFixedObjects-1;
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}
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/// getCalleeSavedInfo - Returns a reference to call saved info vector for the
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/// current function.
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const std::vector<CalleeSavedInfo> &getCalleeSavedInfo() const {
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return CSInfo;
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}
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/// setCalleeSavedInfo - Used by prolog/epilog inserter to set the function's
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/// callee saved information.
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void setCalleeSavedInfo(const std::vector<CalleeSavedInfo> &CSI) {
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CSInfo = CSI;
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}
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/// isCalleeSavedInfoValid - Has the callee saved info been calculated yet?
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bool isCalleeSavedInfoValid() const { return CSIValid; }
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void setCalleeSavedInfoValid(bool v) { CSIValid = v; }
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/// getPristineRegs - Return a set of physical registers that are pristine on
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/// entry to the MBB.
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///
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/// Pristine registers hold a value that is useless to the current function,
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/// but that must be preserved - they are callee saved registers that have not
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/// been saved yet.
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///
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/// Before the PrologueEpilogueInserter has placed the CSR spill code, this
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/// method always returns an empty set.
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BitVector getPristineRegs(const MachineBasicBlock *MBB) const;
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/// getMachineModuleInfo - Used by a prologue/epilogue
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/// emitter (TargetRegisterInfo) to provide frame layout information.
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MachineModuleInfo *getMachineModuleInfo() const { return MMI; }
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/// setMachineModuleInfo - Used by a meta info consumer (DwarfWriter) to
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/// indicate that frame layout information should be gathered.
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void setMachineModuleInfo(MachineModuleInfo *mmi) { MMI = mmi; }
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/// print - Used by the MachineFunction printer to print information about
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/// stack objects. Implemented in MachineFunction.cpp
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///
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void print(const MachineFunction &MF, raw_ostream &OS) const;
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/// dump - Print the function to stderr.
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void dump(const MachineFunction &MF) const;
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};
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} // End llvm namespace
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#endif
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