final/include/polly/Support/SCEVValidator.h - polly - Git at Google

 //===--- SCEVValidator.h - Detect Scops -------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 // 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"
 #include "llvm/ADT/SetVector.h"
 #include <vector>

 namespace llvm {
 class Region;
 class SCEV;
 class ScalarEvolution;
 class Value;
 class Loop;
 class LoadInst;
 }

 namespace polly {
 /// @brief 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);

 /// @brief Find the values referenced by SCEVUnknowns in a given SCEV
 /// expression.
 ///
 /// @param Expr The SCEV expression to scan for SCEVUnknowns.
 /// @param Expr A vector into which the found values are inserted.
 void findValues(const llvm::SCEV *Expr, llvm::SetVector<llvm::Value *> &Values);

 /// Returns true when the SCEV contains references to instructions within the
 /// region.
 ///
 /// @param S The SCEV to analyze.
 /// @param R The region in which we look for dependences.
 bool hasScalarDepsInsideRegion(const llvm::SCEV *S, const llvm::Region *R);
 bool isAffineExpr(const llvm::Region *R, const llvm::SCEV *Expression,
                   llvm::ScalarEvolution &SE, const llvm::Value *BaseAddress = 0,
                   InvariantLoadsSetTy *ILS = nullptr);

 /// @brief Check if @p V describes an affine parameter constraint in @p R.
 bool isAffineParamConstraint(llvm::Value *V, const llvm::Region *R,
                              llvm::ScalarEvolution &SE,
                              std::vector<const llvm::SCEV *> &Params,
                              bool OrExpr = false);

 std::vector<const llvm::SCEV *>
 getParamsInAffineExpr(const llvm::Region *R, const llvm::SCEV *Expression,
                       llvm::ScalarEvolution &SE,
                       const llvm::Value *BaseAddress = 0);

 /// @brief 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::SCEV *, const llvm::SCEV *>
 extractConstantFactor(const llvm::SCEV *M, llvm::ScalarEvolution &SE);
 }

 #endif
	//===--- SCEVValidator.h - Detect Scops -------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	// 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"
	#include "llvm/ADT/SetVector.h"
	#include <vector>

	namespace llvm {
	class Region;
	class SCEV;
	class ScalarEvolution;
	class Value;
	class Loop;
	class LoadInst;
	}

	namespace polly {
	/// @brief 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);

	/// @brief Find the values referenced by SCEVUnknowns in a given SCEV
	/// expression.
	///
	/// @param Expr The SCEV expression to scan for SCEVUnknowns.
	/// @param Expr A vector into which the found values are inserted.
	void findValues(const llvm::SCEV Expr, llvm::SetVector<llvm::Value > &Values);

	/// Returns true when the SCEV contains references to instructions within the
	/// region.
	///
	/// @param S The SCEV to analyze.
	/// @param R The region in which we look for dependences.
	bool hasScalarDepsInsideRegion(const llvm::SCEV S, const llvm::Region R);
	bool isAffineExpr(const llvm::Region R, const llvm::SCEV Expression,
	llvm::ScalarEvolution &SE, const llvm::Value *BaseAddress = 0,
	InvariantLoadsSetTy *ILS = nullptr);

	/// @brief Check if @p V describes an affine parameter constraint in @p R.
	bool isAffineParamConstraint(llvm::Value V, const llvm::Region R,
	llvm::ScalarEvolution &SE,
	std::vector<const llvm::SCEV *> &Params,
	bool OrExpr = false);

	std::vector<const llvm::SCEV *>
	getParamsInAffineExpr(const llvm::Region R, const llvm::SCEV Expression,
	llvm::ScalarEvolution &SE,
	const llvm::Value *BaseAddress = 0);

	/// @brief 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::SCEV , const llvm::SCEV >
	extractConstantFactor(const llvm::SCEV *M, llvm::ScalarEvolution &SE);
	}

	#endif