mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2024-11-19 17:37:24 +00:00
e4d87aa2de
This patch removes the SetCC instructions and replaces them with the ICmp and FCmp instructions. The SetCondInst instruction has been removed and been replaced with ICmpInst and FCmpInst. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@32751 91177308-0d34-0410-b5e6-96231b3b80d8
532 lines
19 KiB
C++
532 lines
19 KiB
C++
//===- llvm/Analysis/ScalarEvolutionExpressions.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 was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source 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 represent and build scalar expressions.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_SCALAREVOLUTION_EXPRESSIONS_H
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#define LLVM_ANALYSIS_SCALAREVOLUTION_EXPRESSIONS_H
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#include "llvm/Analysis/ScalarEvolution.h"
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namespace llvm {
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class ConstantInt;
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class ConstantRange;
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enum SCEVTypes {
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// These should be ordered in terms of increasing complexity to make the
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// folders simpler.
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scConstant, scTruncate, scZeroExtend, scAddExpr, scMulExpr, scSDivExpr,
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scAddRecExpr, scUnknown, scCouldNotCompute
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};
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//===--------------------------------------------------------------------===//
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/// SCEVConstant - This class represents a constant integer value.
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///
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class SCEVConstant : public SCEV {
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ConstantInt *V;
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SCEVConstant(ConstantInt *v) : SCEV(scConstant), V(v) {}
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virtual ~SCEVConstant();
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public:
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/// get method - This just gets and returns a new SCEVConstant object.
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///
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static SCEVHandle get(ConstantInt *V);
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ConstantInt *getValue() const { return V; }
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/// getValueRange - Return the tightest constant bounds that this value is
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/// known to have. This method is only valid on integer SCEV objects.
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virtual ConstantRange getValueRange() const;
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virtual bool isLoopInvariant(const Loop *L) const {
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return true;
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}
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virtual bool hasComputableLoopEvolution(const Loop *L) const {
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return false; // Not loop variant
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}
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virtual const Type *getType() const;
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SCEVHandle replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
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const SCEVHandle &Conc) const {
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return this;
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}
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virtual void print(std::ostream &OS) const;
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void print(std::ostream *OS) const { if (OS) print(*OS); }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVConstant *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scConstant;
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}
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};
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//===--------------------------------------------------------------------===//
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/// SCEVTruncateExpr - This class represents a truncation of an integer value
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/// to a smaller integer value.
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///
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class SCEVTruncateExpr : public SCEV {
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SCEVHandle Op;
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const Type *Ty;
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SCEVTruncateExpr(const SCEVHandle &op, const Type *ty);
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virtual ~SCEVTruncateExpr();
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public:
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/// get method - This just gets and returns a new SCEVTruncate object
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///
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static SCEVHandle get(const SCEVHandle &Op, const Type *Ty);
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const SCEVHandle &getOperand() const { return Op; }
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virtual const Type *getType() const { return Ty; }
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virtual bool isLoopInvariant(const Loop *L) const {
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return Op->isLoopInvariant(L);
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}
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virtual bool hasComputableLoopEvolution(const Loop *L) const {
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return Op->hasComputableLoopEvolution(L);
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}
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SCEVHandle replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
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const SCEVHandle &Conc) const {
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SCEVHandle H = Op->replaceSymbolicValuesWithConcrete(Sym, Conc);
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if (H == Op)
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return this;
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return get(H, Ty);
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}
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/// getValueRange - Return the tightest constant bounds that this value is
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/// known to have. This method is only valid on integer SCEV objects.
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virtual ConstantRange getValueRange() const;
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virtual void print(std::ostream &OS) const;
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void print(std::ostream *OS) const { if (OS) print(*OS); }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVTruncateExpr *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scTruncate;
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}
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};
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//===--------------------------------------------------------------------===//
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/// SCEVZeroExtendExpr - This class represents a zero extension of a small
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/// integer value to a larger integer value.
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///
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class SCEVZeroExtendExpr : public SCEV {
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SCEVHandle Op;
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const Type *Ty;
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SCEVZeroExtendExpr(const SCEVHandle &op, const Type *ty);
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virtual ~SCEVZeroExtendExpr();
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public:
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/// get method - This just gets and returns a new SCEVZeroExtend object
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///
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static SCEVHandle get(const SCEVHandle &Op, const Type *Ty);
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const SCEVHandle &getOperand() const { return Op; }
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virtual const Type *getType() const { return Ty; }
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virtual bool isLoopInvariant(const Loop *L) const {
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return Op->isLoopInvariant(L);
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}
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virtual bool hasComputableLoopEvolution(const Loop *L) const {
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return Op->hasComputableLoopEvolution(L);
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}
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/// getValueRange - Return the tightest constant bounds that this value is
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/// known to have. This method is only valid on integer SCEV objects.
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virtual ConstantRange getValueRange() const;
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SCEVHandle replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
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const SCEVHandle &Conc) const {
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SCEVHandle H = Op->replaceSymbolicValuesWithConcrete(Sym, Conc);
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if (H == Op)
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return this;
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return get(H, Ty);
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}
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virtual void print(std::ostream &OS) const;
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void print(std::ostream *OS) const { if (OS) print(*OS); }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVZeroExtendExpr *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scZeroExtend;
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}
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};
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//===--------------------------------------------------------------------===//
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/// SCEVCommutativeExpr - This node is the base class for n'ary commutative
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/// operators.
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///
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class SCEVCommutativeExpr : public SCEV {
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std::vector<SCEVHandle> Operands;
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protected:
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SCEVCommutativeExpr(enum SCEVTypes T, const std::vector<SCEVHandle> &ops)
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: SCEV(T) {
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Operands.reserve(ops.size());
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Operands.insert(Operands.end(), ops.begin(), ops.end());
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}
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~SCEVCommutativeExpr();
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public:
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unsigned getNumOperands() const { return Operands.size(); }
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const SCEVHandle &getOperand(unsigned i) const {
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assert(i < Operands.size() && "Operand index out of range!");
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return Operands[i];
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}
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const std::vector<SCEVHandle> &getOperands() const { return Operands; }
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typedef std::vector<SCEVHandle>::const_iterator op_iterator;
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op_iterator op_begin() const { return Operands.begin(); }
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op_iterator op_end() const { return Operands.end(); }
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virtual bool isLoopInvariant(const Loop *L) const {
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for (unsigned i = 0, e = getNumOperands(); i != e; ++i)
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if (!getOperand(i)->isLoopInvariant(L)) return false;
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return true;
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}
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// hasComputableLoopEvolution - Commutative expressions have computable loop
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// evolutions iff they have at least one operand that varies with the loop,
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// but that all varying operands are computable.
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virtual bool hasComputableLoopEvolution(const Loop *L) const {
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bool HasVarying = false;
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for (unsigned i = 0, e = getNumOperands(); i != e; ++i)
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if (!getOperand(i)->isLoopInvariant(L))
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if (getOperand(i)->hasComputableLoopEvolution(L))
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HasVarying = true;
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else
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return false;
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return HasVarying;
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}
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SCEVHandle replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
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const SCEVHandle &Conc) const;
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virtual const char *getOperationStr() const = 0;
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virtual const Type *getType() const { return getOperand(0)->getType(); }
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virtual void print(std::ostream &OS) const;
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void print(std::ostream *OS) const { if (OS) print(*OS); }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVCommutativeExpr *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scAddExpr ||
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S->getSCEVType() == scMulExpr;
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}
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};
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//===--------------------------------------------------------------------===//
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/// SCEVAddExpr - This node represents an addition of some number of SCEVs.
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///
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class SCEVAddExpr : public SCEVCommutativeExpr {
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SCEVAddExpr(const std::vector<SCEVHandle> &ops)
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: SCEVCommutativeExpr(scAddExpr, ops) {
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}
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public:
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static SCEVHandle get(std::vector<SCEVHandle> &Ops);
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static SCEVHandle get(const SCEVHandle &LHS, const SCEVHandle &RHS) {
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std::vector<SCEVHandle> Ops;
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Ops.push_back(LHS);
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Ops.push_back(RHS);
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return get(Ops);
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}
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static SCEVHandle get(const SCEVHandle &Op0, const SCEVHandle &Op1,
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const SCEVHandle &Op2) {
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std::vector<SCEVHandle> Ops;
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Ops.push_back(Op0);
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Ops.push_back(Op1);
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Ops.push_back(Op2);
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return get(Ops);
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}
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virtual const char *getOperationStr() const { return " + "; }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVAddExpr *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scAddExpr;
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}
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};
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//===--------------------------------------------------------------------===//
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/// SCEVMulExpr - This node represents multiplication of some number of SCEVs.
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///
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class SCEVMulExpr : public SCEVCommutativeExpr {
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SCEVMulExpr(const std::vector<SCEVHandle> &ops)
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: SCEVCommutativeExpr(scMulExpr, ops) {
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}
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public:
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static SCEVHandle get(std::vector<SCEVHandle> &Ops);
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static SCEVHandle get(const SCEVHandle &LHS, const SCEVHandle &RHS) {
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std::vector<SCEVHandle> Ops;
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Ops.push_back(LHS);
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Ops.push_back(RHS);
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return get(Ops);
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}
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virtual const char *getOperationStr() const { return " * "; }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVMulExpr *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scMulExpr;
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}
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};
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//===--------------------------------------------------------------------===//
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/// SCEVSDivExpr - This class represents a binary signed division operation.
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///
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class SCEVSDivExpr : public SCEV {
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SCEVHandle LHS, RHS;
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SCEVSDivExpr(const SCEVHandle &lhs, const SCEVHandle &rhs)
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: SCEV(scSDivExpr), LHS(lhs), RHS(rhs) {}
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virtual ~SCEVSDivExpr();
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public:
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/// get method - This just gets and returns a new SCEVSDiv object.
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///
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static SCEVHandle get(const SCEVHandle &LHS, const SCEVHandle &RHS);
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const SCEVHandle &getLHS() const { return LHS; }
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const SCEVHandle &getRHS() const { return RHS; }
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virtual bool isLoopInvariant(const Loop *L) const {
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return LHS->isLoopInvariant(L) && RHS->isLoopInvariant(L);
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}
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virtual bool hasComputableLoopEvolution(const Loop *L) const {
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return LHS->hasComputableLoopEvolution(L) &&
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RHS->hasComputableLoopEvolution(L);
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}
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SCEVHandle replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
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const SCEVHandle &Conc) const {
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SCEVHandle L = LHS->replaceSymbolicValuesWithConcrete(Sym, Conc);
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SCEVHandle R = RHS->replaceSymbolicValuesWithConcrete(Sym, Conc);
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if (L == LHS && R == RHS)
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return this;
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else
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return get(L, R);
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}
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virtual const Type *getType() const;
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void print(std::ostream &OS) const;
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void print(std::ostream *OS) const { if (OS) print(*OS); }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVSDivExpr *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scSDivExpr;
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}
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};
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//===--------------------------------------------------------------------===//
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/// SCEVAddRecExpr - This node represents a polynomial recurrence on the trip
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/// count of the specified loop.
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///
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/// All operands of an AddRec are required to be loop invariant.
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///
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class SCEVAddRecExpr : public SCEV {
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std::vector<SCEVHandle> Operands;
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const Loop *L;
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SCEVAddRecExpr(const std::vector<SCEVHandle> &ops, const Loop *l)
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: SCEV(scAddRecExpr), Operands(ops), L(l) {
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for (unsigned i = 0, e = Operands.size(); i != e; ++i)
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assert(Operands[i]->isLoopInvariant(l) &&
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"Operands of AddRec must be loop-invariant!");
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}
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~SCEVAddRecExpr();
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public:
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static SCEVHandle get(const SCEVHandle &Start, const SCEVHandle &Step,
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const Loop *);
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static SCEVHandle get(std::vector<SCEVHandle> &Operands,
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const Loop *);
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static SCEVHandle get(const std::vector<SCEVHandle> &Operands,
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const Loop *L) {
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std::vector<SCEVHandle> NewOp(Operands);
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return get(NewOp, L);
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}
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typedef std::vector<SCEVHandle>::const_iterator op_iterator;
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op_iterator op_begin() const { return Operands.begin(); }
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op_iterator op_end() const { return Operands.end(); }
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unsigned getNumOperands() const { return Operands.size(); }
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const SCEVHandle &getOperand(unsigned i) const { return Operands[i]; }
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const SCEVHandle &getStart() const { return Operands[0]; }
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const Loop *getLoop() const { return L; }
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/// getStepRecurrence - This method constructs and returns the recurrence
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/// indicating how much this expression steps by. If this is a polynomial
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/// of degree N, it returns a chrec of degree N-1.
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SCEVHandle getStepRecurrence() const {
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if (getNumOperands() == 2) return getOperand(1);
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return SCEVAddRecExpr::get(std::vector<SCEVHandle>(op_begin()+1,op_end()),
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getLoop());
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}
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virtual bool hasComputableLoopEvolution(const Loop *QL) const {
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if (L == QL) return true;
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return false;
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}
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virtual bool isLoopInvariant(const Loop *QueryLoop) const;
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virtual const Type *getType() const { return Operands[0]->getType(); }
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/// isAffine - Return true if this is an affine AddRec (i.e., it represents
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/// an expressions A+B*x where A and B are loop invariant values.
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bool isAffine() const {
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// We know that the start value is invariant. This expression is thus
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// affine iff the step is also invariant.
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return getNumOperands() == 2;
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}
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/// isQuadratic - Return true if this is an quadratic AddRec (i.e., it
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/// represents an expressions A+B*x+C*x^2 where A, B and C are loop
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/// invariant values. This corresponds to an addrec of the form {L,+,M,+,N}
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bool isQuadratic() const {
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return getNumOperands() == 3;
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}
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/// evaluateAtIteration - Return the value of this chain of recurrences at
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/// the specified iteration number.
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SCEVHandle evaluateAtIteration(SCEVHandle It) const;
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/// getNumIterationsInRange - Return the number of iterations of this loop
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/// that produce values in the specified constant range. Another way of
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/// looking at this is that it returns the first iteration number where the
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/// value is not in the condition, thus computing the exit count. If the
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/// iteration count can't be computed, an instance of SCEVCouldNotCompute is
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/// returned. The isSigned parameter indicates whether the ConstantRange
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/// should be treated as signed or unsigned.
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SCEVHandle getNumIterationsInRange(ConstantRange Range,
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bool isSigned) const;
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SCEVHandle replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
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const SCEVHandle &Conc) const;
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virtual void print(std::ostream &OS) const;
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void print(std::ostream *OS) const { if (OS) print(*OS); }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVAddRecExpr *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scAddRecExpr;
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}
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};
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//===--------------------------------------------------------------------===//
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/// SCEVUnknown - This means that we are dealing with an entirely unknown SCEV
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/// value, and only represent it as it's LLVM Value. This is the "bottom"
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/// value for the analysis.
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///
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class SCEVUnknown : public SCEV {
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Value *V;
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SCEVUnknown(Value *v) : SCEV(scUnknown), V(v) {}
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protected:
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~SCEVUnknown();
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public:
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/// get method - For SCEVUnknown, this just gets and returns a new
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/// SCEVUnknown.
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static SCEVHandle get(Value *V);
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/// getIntegerSCEV - Given an integer or FP type, create a constant for the
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/// specified signed integer value and return a SCEV for the constant.
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static SCEVHandle getIntegerSCEV(int Val, const Type *Ty);
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Value *getValue() const { return V; }
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virtual bool isLoopInvariant(const Loop *L) const;
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virtual bool hasComputableLoopEvolution(const Loop *QL) const {
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return false; // not computable
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}
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SCEVHandle replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
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const SCEVHandle &Conc) const {
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if (&*Sym == this) return Conc;
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return this;
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}
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virtual const Type *getType() const;
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virtual void print(std::ostream &OS) const;
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void print(std::ostream *OS) const { if (OS) print(*OS); }
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/// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const SCEVUnknown *S) { return true; }
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static inline bool classof(const SCEV *S) {
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return S->getSCEVType() == scUnknown;
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}
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};
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/// SCEVVisitor - This class defines a simple visitor class that may be used
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/// for various SCEV analysis purposes.
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template<typename SC, typename RetVal=void>
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struct SCEVVisitor {
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RetVal visit(SCEV *S) {
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switch (S->getSCEVType()) {
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case scConstant:
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return ((SC*)this)->visitConstant((SCEVConstant*)S);
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case scTruncate:
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return ((SC*)this)->visitTruncateExpr((SCEVTruncateExpr*)S);
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case scZeroExtend:
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return ((SC*)this)->visitZeroExtendExpr((SCEVZeroExtendExpr*)S);
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case scAddExpr:
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return ((SC*)this)->visitAddExpr((SCEVAddExpr*)S);
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case scMulExpr:
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return ((SC*)this)->visitMulExpr((SCEVMulExpr*)S);
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case scSDivExpr:
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return ((SC*)this)->visitSDivExpr((SCEVSDivExpr*)S);
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case scAddRecExpr:
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return ((SC*)this)->visitAddRecExpr((SCEVAddRecExpr*)S);
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case scUnknown:
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return ((SC*)this)->visitUnknown((SCEVUnknown*)S);
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case scCouldNotCompute:
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|
return ((SC*)this)->visitCouldNotCompute((SCEVCouldNotCompute*)S);
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default:
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assert(0 && "Unknown SCEV type!");
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abort();
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}
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|
}
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RetVal visitCouldNotCompute(SCEVCouldNotCompute *S) {
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assert(0 && "Invalid use of SCEVCouldNotCompute!");
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abort();
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return RetVal();
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}
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};
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}
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#endif
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