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d79c3e8584
Summary: Used by D34311 and D34467 Reviewers: hfinkel, efriedma Subscribers: llvm-commits Differential Revision: https://reviews.llvm.org/D34585 llvm-svn: 306193
131 lines
6.3 KiB
C++
131 lines
6.3 KiB
C++
//===- Loads.h - Local load analysis --------------------------------------===//
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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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// This file declares simple local analyses for load instructions.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_LOADS_H
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#define LLVM_ANALYSIS_LOADS_H
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#include "llvm/Analysis/AliasAnalysis.h"
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#include "llvm/IR/BasicBlock.h"
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#include "llvm/Support/CommandLine.h"
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namespace llvm {
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class DataLayout;
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class MDNode;
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/// Return true if this is always a dereferenceable pointer. If the context
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/// instruction is specified perform context-sensitive analysis and return true
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/// if the pointer is dereferenceable at the specified instruction.
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bool isDereferenceablePointer(const Value *V, const DataLayout &DL,
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const Instruction *CtxI = nullptr,
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const DominatorTree *DT = nullptr);
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/// Returns true if V is always a dereferenceable pointer with alignment
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/// greater or equal than requested. If the context instruction is specified
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/// performs context-sensitive analysis and returns true if the pointer is
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/// dereferenceable at the specified instruction.
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bool isDereferenceableAndAlignedPointer(const Value *V, unsigned Align,
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const DataLayout &DL,
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const Instruction *CtxI = nullptr,
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const DominatorTree *DT = nullptr);
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/// Returns true if V is always dereferenceable for Size byte with alignment
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/// greater or equal than requested. If the context instruction is specified
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/// performs context-sensitive analysis and returns true if the pointer is
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/// dereferenceable at the specified instruction.
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bool isDereferenceableAndAlignedPointer(const Value *V, unsigned Align,
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const APInt &Size, const DataLayout &DL,
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const Instruction *CtxI = nullptr,
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const DominatorTree *DT = nullptr);
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/// Return true if we know that executing a load from this value cannot trap.
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///
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/// If DT and ScanFrom are specified this method performs context-sensitive
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/// analysis and returns true if it is safe to load immediately before ScanFrom.
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///
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/// If it is not obviously safe to load from the specified pointer, we do a
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/// quick local scan of the basic block containing ScanFrom, to determine if
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/// the address is already accessed.
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bool isSafeToLoadUnconditionally(Value *V, unsigned Align,
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const DataLayout &DL,
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Instruction *ScanFrom = nullptr,
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const DominatorTree *DT = nullptr);
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/// The default number of maximum instructions to scan in the block, used by
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/// FindAvailableLoadedValue().
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extern cl::opt<unsigned> DefMaxInstsToScan;
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/// Scan backwards to see if we have the value of the given load available
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/// locally within a small number of instructions.
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///
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/// You can use this function to scan across multiple blocks: after you call
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/// this function, if ScanFrom points at the beginning of the block, it's safe
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/// to continue scanning the predecessors.
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///
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/// Note that performing load CSE requires special care to make sure the
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/// metadata is set appropriately. In particular, aliasing metadata needs
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/// to be merged. (This doesn't matter for store-to-load forwarding because
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/// the only relevant load gets deleted.)
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///
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/// \param Load The load we want to replace.
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/// \param ScanBB The basic block to scan.
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/// \param [in,out] ScanFrom The location to start scanning from. When this
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/// function returns, it points at the last instruction scanned.
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/// \param MaxInstsToScan The maximum number of instructions to scan. If this
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/// is zero, the whole block will be scanned.
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/// \param AA Optional pointer to alias analysis, to make the scan more
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/// precise.
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/// \param [out] IsLoadCSE Whether the returned value is a load from the same
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/// location in memory, as opposed to the value operand of a store.
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///
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/// \returns The found value, or nullptr if no value is found.
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Value *FindAvailableLoadedValue(LoadInst *Load,
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BasicBlock *ScanBB,
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BasicBlock::iterator &ScanFrom,
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unsigned MaxInstsToScan = DefMaxInstsToScan,
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AliasAnalysis *AA = nullptr,
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bool *IsLoadCSE = nullptr,
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unsigned *NumScanedInst = nullptr);
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/// Scan backwards to see if we have the value of the given pointer available
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/// locally within a small number of instructions.
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///
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/// You can use this function to scan across multiple blocks: after you call
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/// this function, if ScanFrom points at the beginning of the block, it's safe
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/// to continue scanning the predecessors.
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///
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/// \param Ptr The pointer we want the load and store to originate from.
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/// \param AccessTy The access type of the pointer.
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/// \param AtLeastAtomic Are we looking for at-least an atomic load/store ? In
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/// case it is false, we can return an atomic or non-atomic load or store. In
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/// case it is true, we need to return an atomic load or store.
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/// \param ScanBB The basic block to scan.
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/// \param [in,out] ScanFrom The location to start scanning from. When this
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/// function returns, it points at the last instruction scanned.
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/// \param MaxInstsToScan The maximum number of instructions to scan. If this
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/// is zero, the whole block will be scanned.
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/// \param AA Optional pointer to alias analysis, to make the scan more
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/// precise.
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/// \param [out] IsLoad Whether the returned value is a load from the same
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/// location in memory, as opposed to the value operand of a store.
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///
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/// \returns The found value, or nullptr if no value is found.
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Value *FindAvailablePtrLoadStore(Value *Ptr, Type *AccessTy, bool AtLeastAtomic,
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BasicBlock *ScanBB,
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BasicBlock::iterator &ScanFrom,
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unsigned MaxInstsToScan, AliasAnalysis *AA,
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bool *IsLoad, unsigned *NumScanedInst);
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}
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#endif
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