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448db1cdef
explicitly split into stride-and-offset pairs. Also, add the ability to track multiple post-increment loops on the same expression. This refines the concept of "normalizing" SCEV expressions used for to post-increment uses, and introduces a dedicated utility routine for normalizing and denormalizing expressions. This fixes the expansion of expressions which are post-increment users of more than one loop at a time. More broadly, this takes LSR another step closer to being able to reason about more than one loop at a time. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@100699 91177308-0d34-0410-b5e6-96231b3b80d8
191 lines
7.3 KiB
C++
191 lines
7.3 KiB
C++
//===---- llvm/Analysis/ScalarEvolutionExpander.h - SCEV Exprs --*- 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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// This file defines the classes used to generate code from scalar expressions.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_SCALAREVOLUTION_EXPANDER_H
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#define LLVM_ANALYSIS_SCALAREVOLUTION_EXPANDER_H
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#include "llvm/Analysis/ScalarEvolutionExpressions.h"
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#include "llvm/Analysis/ScalarEvolutionNormalization.h"
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#include "llvm/Support/IRBuilder.h"
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#include "llvm/Support/TargetFolder.h"
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#include <set>
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namespace llvm {
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/// SCEVExpander - This class uses information about analyze scalars to
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/// rewrite expressions in canonical form.
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///
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/// Clients should create an instance of this class when rewriting is needed,
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/// and destroy it when finished to allow the release of the associated
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/// memory.
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class SCEVExpander : public SCEVVisitor<SCEVExpander, Value*> {
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ScalarEvolution &SE;
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std::map<std::pair<const SCEV *, Instruction *>, AssertingVH<Value> >
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InsertedExpressions;
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std::set<Value*> InsertedValues;
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/// PostIncLoops - Addrecs referring to any of the given loops are expanded
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/// in post-inc mode. For example, expanding {1,+,1}<L> in post-inc mode
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/// returns the add instruction that adds one to the phi for {0,+,1}<L>,
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/// as opposed to a new phi starting at 1. This is only supported in
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/// non-canonical mode.
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PostIncLoopSet PostIncLoops;
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/// IVIncInsertPos - When this is non-null, addrecs expanded in the
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/// loop it indicates should be inserted with increments at
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/// IVIncInsertPos.
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const Loop *IVIncInsertLoop;
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/// IVIncInsertPos - When expanding addrecs in the IVIncInsertLoop loop,
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/// insert the IV increment at this position.
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Instruction *IVIncInsertPos;
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/// CanonicalMode - When true, expressions are expanded in "canonical"
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/// form. In particular, addrecs are expanded as arithmetic based on
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/// a canonical induction variable. When false, expression are expanded
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/// in a more literal form.
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bool CanonicalMode;
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typedef IRBuilder<true, TargetFolder> BuilderType;
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BuilderType Builder;
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friend struct SCEVVisitor<SCEVExpander, Value*>;
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public:
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/// SCEVExpander - Construct a SCEVExpander in "canonical" mode.
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explicit SCEVExpander(ScalarEvolution &se)
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: SE(se), IVIncInsertLoop(0), CanonicalMode(true),
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Builder(se.getContext(), TargetFolder(se.TD)) {}
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/// clear - Erase the contents of the InsertedExpressions map so that users
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/// trying to expand the same expression into multiple BasicBlocks or
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/// different places within the same BasicBlock can do so.
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void clear() { InsertedExpressions.clear(); }
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/// getOrInsertCanonicalInductionVariable - This method returns the
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/// canonical induction variable of the specified type for the specified
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/// loop (inserting one if there is none). A canonical induction variable
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/// starts at zero and steps by one on each iteration.
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Value *getOrInsertCanonicalInductionVariable(const Loop *L, const Type *Ty);
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/// expandCodeFor - Insert code to directly compute the specified SCEV
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/// expression into the program. The inserted code is inserted into the
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/// specified block.
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Value *expandCodeFor(const SCEV *SH, const Type *Ty, Instruction *I);
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/// setIVIncInsertPos - Set the current IV increment loop and position.
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void setIVIncInsertPos(const Loop *L, Instruction *Pos) {
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assert(!CanonicalMode &&
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"IV increment positions are not supported in CanonicalMode");
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IVIncInsertLoop = L;
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IVIncInsertPos = Pos;
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}
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/// setPostInc - Enable post-inc expansion for addrecs referring to the
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/// given loops. Post-inc expansion is only supported in non-canonical
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/// mode.
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void setPostInc(const PostIncLoopSet &L) {
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assert(!CanonicalMode &&
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"Post-inc expansion is not supported in CanonicalMode");
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PostIncLoops = L;
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}
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/// clearPostInc - Disable all post-inc expansion.
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void clearPostInc() {
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PostIncLoops.clear();
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}
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/// disableCanonicalMode - Disable the behavior of expanding expressions in
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/// canonical form rather than in a more literal form. Non-canonical mode
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/// is useful for late optimization passes.
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void disableCanonicalMode() { CanonicalMode = false; }
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/// clearInsertPoint - Clear the current insertion point. This is useful
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/// if the instruction that had been serving as the insertion point may
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/// have been deleted.
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void clearInsertPoint() {
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Builder.ClearInsertionPoint();
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}
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private:
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LLVMContext &getContext() const { return SE.getContext(); }
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/// InsertBinop - Insert the specified binary operator, doing a small amount
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/// of work to avoid inserting an obviously redundant operation.
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Value *InsertBinop(Instruction::BinaryOps Opcode, Value *LHS, Value *RHS);
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/// InsertNoopCastOfTo - Insert a cast of V to the specified type,
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/// which must be possible with a noop cast, doing what we can to
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/// share the casts.
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Value *InsertNoopCastOfTo(Value *V, const Type *Ty);
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/// expandAddToGEP - Expand a SCEVAddExpr with a pointer type into a GEP
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/// instead of using ptrtoint+arithmetic+inttoptr.
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Value *expandAddToGEP(const SCEV *const *op_begin,
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const SCEV *const *op_end,
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const PointerType *PTy, const Type *Ty, Value *V);
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Value *expand(const SCEV *S);
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/// expandCodeFor - Insert code to directly compute the specified SCEV
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/// expression into the program. The inserted code is inserted into the
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/// SCEVExpander's current insertion point. If a type is specified, the
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/// result will be expanded to have that type, with a cast if necessary.
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Value *expandCodeFor(const SCEV *SH, const Type *Ty = 0);
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/// isInsertedInstruction - Return true if the specified instruction was
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/// inserted by the code rewriter. If so, the client should not modify the
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/// instruction.
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bool isInsertedInstruction(Instruction *I) const {
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return InsertedValues.count(I);
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}
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Value *visitConstant(const SCEVConstant *S) {
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return S->getValue();
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}
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Value *visitTruncateExpr(const SCEVTruncateExpr *S);
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Value *visitZeroExtendExpr(const SCEVZeroExtendExpr *S);
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Value *visitSignExtendExpr(const SCEVSignExtendExpr *S);
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Value *visitAddExpr(const SCEVAddExpr *S);
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Value *visitMulExpr(const SCEVMulExpr *S);
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Value *visitUDivExpr(const SCEVUDivExpr *S);
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Value *visitAddRecExpr(const SCEVAddRecExpr *S);
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Value *visitSMaxExpr(const SCEVSMaxExpr *S);
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Value *visitUMaxExpr(const SCEVUMaxExpr *S);
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Value *visitUnknown(const SCEVUnknown *S) {
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return S->getValue();
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}
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void rememberInstruction(Value *I);
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void restoreInsertPoint(BasicBlock *BB, BasicBlock::iterator I);
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Value *expandAddRecExprLiterally(const SCEVAddRecExpr *);
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PHINode *getAddRecExprPHILiterally(const SCEVAddRecExpr *Normalized,
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const Loop *L,
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const Type *ExpandTy,
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const Type *IntTy);
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};
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}
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#endif
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