//===- AggressiveInstCombineInternal.h --------------------------*- 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 // //===----------------------------------------------------------------------===// // // This file implements the instruction pattern combiner classes. // Currently, it handles pattern expressions for: // * Truncate instruction // //===----------------------------------------------------------------------===// #ifndef LLVM_LIB_TRANSFORMS_AGGRESSIVEINSTCOMBINE_COMBINEINTERNAL_H #define LLVM_LIB_TRANSFORMS_AGGRESSIVEINSTCOMBINE_COMBINEINTERNAL_H #include "llvm/ADT/MapVector.h" #include "llvm/ADT/SmallVector.h" using namespace llvm; //===----------------------------------------------------------------------===// // TruncInstCombine - looks for expression dags dominated by trunc instructions // and for each eligible dag, it will create a reduced bit-width expression and // replace the old expression with this new one and remove the old one. // Eligible expression dag is such that: // 1. Contains only supported instructions. // 2. Supported leaves: ZExtInst, SExtInst, TruncInst and Constant value. // 3. Can be evaluated into type with reduced legal bit-width (or Trunc type). // 4. All instructions in the dag must not have users outside the dag. // Only exception is for {ZExt, SExt}Inst with operand type equal to the // new reduced type chosen in (3). // // The motivation for this optimization is that evaluating and expression using // smaller bit-width is preferable, especially for vectorization where we can // fit more values in one vectorized instruction. In addition, this optimization // may decrease the number of cast instructions, but will not increase it. //===----------------------------------------------------------------------===// namespace llvm { class DataLayout; class DominatorTree; class Function; class Instruction; class TargetLibraryInfo; class TruncInst; class Type; class Value; class TruncInstCombine { TargetLibraryInfo &TLI; const DataLayout &DL; const DominatorTree &DT; /// List of all TruncInst instructions to be processed. SmallVector Worklist; /// Current processed TruncInst instruction. TruncInst *CurrentTruncInst; /// Information per each instruction in the expression dag. struct Info { /// Number of LSBs that are needed to generate a valid expression. unsigned ValidBitWidth = 0; /// Minimum number of LSBs needed to generate the ValidBitWidth. unsigned MinBitWidth = 0; /// The reduced value generated to replace the old instruction. Value *NewValue = nullptr; }; /// An ordered map representing expression dag post-dominated by current /// processed TruncInst. It maps each instruction in the dag to its Info /// structure. The map is ordered such that each instruction appears before /// all other instructions in the dag that uses it. MapVector InstInfoMap; public: TruncInstCombine(TargetLibraryInfo &TLI, const DataLayout &DL, const DominatorTree &DT) : TLI(TLI), DL(DL), DT(DT), CurrentTruncInst(nullptr) {} /// Perform TruncInst pattern optimization on given function. bool run(Function &F); private: /// Build expression dag dominated by the /p CurrentTruncInst and append it to /// the InstInfoMap container. /// /// \return true only if succeed to generate an eligible sub expression dag. bool buildTruncExpressionDag(); /// Calculate the minimal allowed bit-width of the chain ending with the /// currently visited truncate's operand. /// /// \return minimum number of bits to which the chain ending with the /// truncate's operand can be shrunk to. unsigned getMinBitWidth(); /// Build an expression dag dominated by the current processed TruncInst and /// Check if it is eligible to be reduced to a smaller type. /// /// \return the scalar version of the new type to be used for the reduced /// expression dag, or nullptr if the expression dag is not eligible /// to be reduced. Type *getBestTruncatedType(); /// Given a \p V value and a \p SclTy scalar type return the generated reduced /// value of \p V based on the type \p SclTy. /// /// \param V value to be reduced. /// \param SclTy scalar version of new type to reduce to. /// \return the new reduced value. Value *getReducedOperand(Value *V, Type *SclTy); /// Create a new expression dag using the reduced /p SclTy type and replace /// the old expression dag with it. Also erase all instructions in the old /// dag, except those that are still needed outside the dag. /// /// \param SclTy scalar version of new type to reduce expression dag into. void ReduceExpressionDag(Type *SclTy); }; } // end namespace llvm. #endif