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7ed47a1335
discussion of this change. Boy are my fingers tired. ;-) git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@45411 91177308-0d34-0410-b5e6-96231b3b80d8
328 lines
13 KiB
C++
328 lines
13 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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#ifndef LLVM_CODEGEN_MACHINEFRAMEINFO_H
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#define LLVM_CODEGEN_MACHINEFRAMEINFO_H
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#include <vector>
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namespace llvm {
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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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/// 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 positive
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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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// The size of this object on the stack. 0 means a variable sized 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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// 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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StackObject(uint64_t Sz, unsigned Al, int64_t SP)
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: Size(Sz), Alignment(Al), SPOffset(SP) {}
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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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/// 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 calculation is
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/// MFI->getObjectOffset(Index) + StackSize - TFI.getOffsetOfLocalArea() +
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/// OffsetAdjustment. If OffsetAdjustment is zero (default) then offsets are
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/// away from TOS. If OffsetAdjustment == StackSize then offsets are toward
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/// TOS.
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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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/// 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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/// 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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/// MRegisterInfo prologue/epilogue emitting code to inform MachineModuleInfo
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/// of frame layouts.
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MachineModuleInfo *MMI;
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public:
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MachineFrameInfo() {
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StackSize = NumFixedObjects = OffsetAdjustment = MaxAlignment = 0;
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HasVarSizedObjects = false;
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HasCalls = false;
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MaxCallFrameSize = 0;
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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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/// 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 Objects.size()-NumFixedObjects; }
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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(ObjectIdx+NumFixedObjects < Objects.size() && "Invalid Object Idx!");
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return Objects[ObjectIdx+NumFixedObjects].Size;
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}
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/// getObjectAlignment - Return the alignment of the specified stack object...
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int getObjectAlignment(int ObjectIdx) const {
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assert(ObjectIdx+NumFixedObjects < Objects.size() && "Invalid Object Idx!");
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return Objects[ObjectIdx+NumFixedObjects].Alignment;
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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(ObjectIdx+NumFixedObjects < Objects.size() && "Invalid Object Idx!");
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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(ObjectIdx+NumFixedObjects < Objects.size() && "Invalid Object Idx!");
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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. This returns an 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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assert(Size != 0 && "Cannot allocate zero size fixed stack objects!");
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Objects.insert(Objects.begin(), StackObject(Size, 1, SPOffset));
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return -++NumFixedObjects;
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}
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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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/// CreateStackObject - Create a new statically sized stack object, returning
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/// a postive identifier to represent it.
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///
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int CreateStackObject(uint64_t Size, unsigned Alignment) {
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// Keep track of the maximum alignment.
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if (MaxAlignment < Alignment) MaxAlignment = Alignment;
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assert(Size != 0 && "Cannot allocate zero size stack objects!");
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Objects.push_back(StackObject(Size, Alignment, -1));
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return Objects.size()-NumFixedObjects-1;
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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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if (MaxAlignment < 1) MaxAlignment = 1;
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Objects.push_back(StackObject(0, 1, -1));
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return 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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/// getMachineModuleInfo - Used by a prologue/epilogue emitter (MRegisterInfo)
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/// 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, std::ostream &OS) const;
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/// dump - Call print(MF, std::cerr) to be called from the debugger.
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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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