//===- VNCoercion.h - Value Numbering Coercion Utilities --------*- 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 // //===----------------------------------------------------------------------===// /// \file / This file provides routines used by LLVM's value numbering passes to /// perform various forms of value extraction from memory when the types are not /// identical. For example, given /// /// store i32 8, i32 *%foo /// %a = bitcast i32 *%foo to i16 /// %val = load i16, i16 *%a /// /// It possible to extract the value of the load of %a from the store to %foo. /// These routines know how to tell whether they can do that (the analyze* /// routines), and can also insert the necessary IR to do it (the get* /// routines). #ifndef LLVM_TRANSFORMS_UTILS_VNCOERCION_H #define LLVM_TRANSFORMS_UTILS_VNCOERCION_H namespace llvm { class Constant; class StoreInst; class LoadInst; class MemIntrinsic; class Instruction; class IRBuilderBase; class Value; class Type; class DataLayout; namespace VNCoercion { /// Return true if CoerceAvailableValueToLoadType would succeed if it was /// called. bool canCoerceMustAliasedValueToLoad(Value *StoredVal, Type *LoadTy, const DataLayout &DL); /// If we saw a store of a value to memory, and then a load from a must-aliased /// pointer of a different type, try to coerce the stored value to the loaded /// type. LoadedTy is the type of the load we want to replace. IRB is /// IRBuilder used to insert new instructions. /// /// If we can't do it, return null. Value *coerceAvailableValueToLoadType(Value *StoredVal, Type *LoadedTy, IRBuilderBase &IRB, const DataLayout &DL); /// This function determines whether a value for the pointer LoadPtr can be /// extracted from the store at DepSI. /// /// On success, it returns the offset into DepSI that extraction would start. /// On failure, it returns -1. int analyzeLoadFromClobberingStore(Type *LoadTy, Value *LoadPtr, StoreInst *DepSI, const DataLayout &DL); /// This function determines whether a value for the pointer LoadPtr can be /// extracted from the load at DepLI. /// /// On success, it returns the offset into DepLI that extraction would start. /// On failure, it returns -1. int analyzeLoadFromClobberingLoad(Type *LoadTy, Value *LoadPtr, LoadInst *DepLI, const DataLayout &DL); /// This function determines whether a value for the pointer LoadPtr can be /// extracted from the memory intrinsic at DepMI. /// /// On success, it returns the offset into DepMI that extraction would start. /// On failure, it returns -1. int analyzeLoadFromClobberingMemInst(Type *LoadTy, Value *LoadPtr, MemIntrinsic *DepMI, const DataLayout &DL); /// If analyzeLoadFromClobberingStore/Load returned an offset, this function /// can be used to actually perform the extraction of the bits from the store. /// It inserts instructions to do so at InsertPt, and returns the extracted /// value. Value *getValueForLoad(Value *SrcVal, unsigned Offset, Type *LoadTy, Instruction *InsertPt, const DataLayout &DL); // This is the same as getValueForLoad, except it performs no insertion. // It only allows constant inputs. Constant *getConstantValueForLoad(Constant *SrcVal, unsigned Offset, Type *LoadTy, const DataLayout &DL); /// If analyzeLoadFromClobberingMemInst returned an offset, this function can be /// used to actually perform the extraction of the bits from the memory /// intrinsic. It inserts instructions to do so at InsertPt, and returns the /// extracted value. Value *getMemInstValueForLoad(MemIntrinsic *SrcInst, unsigned Offset, Type *LoadTy, Instruction *InsertPt, const DataLayout &DL); // This is the same as getStoreValueForLoad, except it performs no insertion. // It returns nullptr if it cannot produce a constant. Constant *getConstantMemInstValueForLoad(MemIntrinsic *SrcInst, unsigned Offset, Type *LoadTy, const DataLayout &DL); } } #endif