//===--- SCEVValidator.h - Detect Scops -------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // Checks if a SCEV expression represents a valid affine expression. //===----------------------------------------------------------------------===// #ifndef POLLY_SCEV_VALIDATOR_H #define POLLY_SCEV_VALIDATOR_H #include "polly/Support/ScopHelper.h" namespace llvm { class SCEVConstant; } // namespace llvm namespace polly { class ScopDetection; /// Find the loops referenced from a SCEV expression. /// /// @param Expr The SCEV expression to scan for loops. /// @param Loops A vector into which the found loops are inserted. void findLoops(const llvm::SCEV *Expr, llvm::SetVector<const llvm::Loop *> &Loops); /// Find the values referenced by SCEVUnknowns in a given SCEV /// expression. /// /// @param Expr The SCEV expression to scan for SCEVUnknowns. /// @param SE The ScalarEvolution analysis for this function. /// @param Values A vector into which the found values are inserted. void findValues(const llvm::SCEV *Expr, llvm::ScalarEvolution &SE, llvm::SetVector<llvm::Value *> &Values); /// Returns true when the SCEV contains references to instructions within the /// region. /// /// @param Expr The SCEV to analyze. /// @param R The region in which we look for dependences. /// @param Scope Location where the value is needed. /// @param AllowLoops Whether loop recurrences outside the loop that are in the /// region count as dependence. bool hasScalarDepsInsideRegion(const llvm::SCEV *Expr, const llvm::Region *R, llvm::Loop *Scope, bool AllowLoops, const InvariantLoadsSetTy &ILS); bool isAffineExpr(const llvm::Region *R, llvm::Loop *Scope, const llvm::SCEV *Expression, llvm::ScalarEvolution &SE, InvariantLoadsSetTy *ILS = nullptr); /// Check if @p V describes an affine constraint in @p R. bool isAffineConstraint(llvm::Value *V, const llvm::Region *R, llvm::Loop *Scope, llvm::ScalarEvolution &SE, ParameterSetTy &Params, bool OrExpr = false); ParameterSetTy getParamsInAffineExpr(const llvm::Region *R, llvm::Loop *Scope, const llvm::SCEV *Expression, llvm::ScalarEvolution &SE); /// Extract the constant factors from the multiplication @p M. /// /// @param M A potential SCEV multiplication. /// @param SE The ScalarEvolution analysis to create new SCEVs. /// /// @returns The constant factor in @p M and the rest of @p M. std::pair<const llvm::SCEVConstant *, const llvm::SCEV *> extractConstantFactor(const llvm::SCEV *M, llvm::ScalarEvolution &SE); /// Try to look through PHI nodes, where some incoming edges come from error /// blocks. /// /// In case a PHI node follows an error block we can assume that the incoming /// value can only come from the node that is not an error block. As a result, /// conditions that seemed non-affine before are now in fact affine. const llvm::SCEV *tryForwardThroughPHI(const llvm::SCEV *Expr, llvm::Region &R, llvm::ScalarEvolution &SE, ScopDetection *SD); /// Return a unique non-error block incoming value for @p PHI if available. /// /// @param R The region to run our code on. /// @param SD The ScopDetection llvm::Value *getUniqueNonErrorValue(llvm::PHINode *PHI, llvm::Region *R, ScopDetection *SD); } // namespace polly #endif
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