[Alignment][NFC] Migrate Instructions to Align
[llvm-core.git] / include / llvm / Transforms / Utils / VNCoercion.h
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1 //===- VNCoercion.h - Value Numbering Coercion Utilities --------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 /// \file / This file provides routines used by LLVM's value numbering passes to
9 /// perform various forms of value extraction from memory when the types are not
10 /// identical. For example, given
11 ///
12 /// store i32 8, i32 *%foo
13 /// %a = bitcast i32 *%foo to i16
14 /// %val = load i16, i16 *%a
15 ///
16 /// It possible to extract the value of the load of %a from the store to %foo.
17 /// These routines know how to tell whether they can do that (the analyze*
18 /// routines), and can also insert the necessary IR to do it (the get*
19 /// routines).
21 #ifndef LLVM_TRANSFORMS_UTILS_VNCOERCION_H
22 #define LLVM_TRANSFORMS_UTILS_VNCOERCION_H
23 #include "llvm/IR/IRBuilder.h"
25 namespace llvm {
26 class Function;
27 class StoreInst;
28 class LoadInst;
29 class MemIntrinsic;
30 class Instruction;
31 class Value;
32 class Type;
33 class DataLayout;
34 namespace VNCoercion {
35 /// Return true if CoerceAvailableValueToLoadType would succeed if it was
36 /// called.
37 bool canCoerceMustAliasedValueToLoad(Value *StoredVal, Type *LoadTy,
38 const DataLayout &DL);
40 /// If we saw a store of a value to memory, and then a load from a must-aliased
41 /// pointer of a different type, try to coerce the stored value to the loaded
42 /// type. LoadedTy is the type of the load we want to replace. IRB is
43 /// IRBuilder used to insert new instructions.
44 ///
45 /// If we can't do it, return null.
46 Value *coerceAvailableValueToLoadType(Value *StoredVal, Type *LoadedTy,
47 IRBuilder<> &IRB, const DataLayout &DL);
49 /// This function determines whether a value for the pointer LoadPtr can be
50 /// extracted from the store at DepSI.
51 ///
52 /// On success, it returns the offset into DepSI that extraction would start.
53 /// On failure, it returns -1.
54 int analyzeLoadFromClobberingStore(Type *LoadTy, Value *LoadPtr,
55 StoreInst *DepSI, const DataLayout &DL);
57 /// This function determines whether a value for the pointer LoadPtr can be
58 /// extracted from the load at DepLI.
59 ///
60 /// On success, it returns the offset into DepLI that extraction would start.
61 /// On failure, it returns -1.
62 int analyzeLoadFromClobberingLoad(Type *LoadTy, Value *LoadPtr, LoadInst *DepLI,
63 const DataLayout &DL);
65 /// This function determines whether a value for the pointer LoadPtr can be
66 /// extracted from the memory intrinsic at DepMI.
67 ///
68 /// On success, it returns the offset into DepMI that extraction would start.
69 /// On failure, it returns -1.
70 int analyzeLoadFromClobberingMemInst(Type *LoadTy, Value *LoadPtr,
71 MemIntrinsic *DepMI, const DataLayout &DL);
73 /// If analyzeLoadFromClobberingStore returned an offset, this function can be
74 /// used to actually perform the extraction of the bits from the store. It
75 /// inserts instructions to do so at InsertPt, and returns the extracted value.
76 Value *getStoreValueForLoad(Value *SrcVal, unsigned Offset, Type *LoadTy,
77 Instruction *InsertPt, const DataLayout &DL);
78 // This is the same as getStoreValueForLoad, except it performs no insertion
79 // It only allows constant inputs.
80 Constant *getConstantStoreValueForLoad(Constant *SrcVal, unsigned Offset,
81 Type *LoadTy, const DataLayout &DL);
83 /// If analyzeLoadFromClobberingLoad returned an offset, this function can be
84 /// used to actually perform the extraction of the bits from the load, including
85 /// any necessary load widening. It inserts instructions to do so at InsertPt,
86 /// and returns the extracted value.
87 Value *getLoadValueForLoad(LoadInst *SrcVal, unsigned Offset, Type *LoadTy,
88 Instruction *InsertPt, const DataLayout &DL);
89 // This is the same as getLoadValueForLoad, except it is given the load value as
90 // a constant. It returns nullptr if it would require widening the load.
91 Constant *getConstantLoadValueForLoad(Constant *SrcVal, unsigned Offset,
92 Type *LoadTy, const DataLayout &DL);
94 /// If analyzeLoadFromClobberingMemInst returned an offset, this function can be
95 /// used to actually perform the extraction of the bits from the memory
96 /// intrinsic. It inserts instructions to do so at InsertPt, and returns the
97 /// extracted value.
98 Value *getMemInstValueForLoad(MemIntrinsic *SrcInst, unsigned Offset,
99 Type *LoadTy, Instruction *InsertPt,
100 const DataLayout &DL);
101 // This is the same as getStoreValueForLoad, except it performs no insertion.
102 // It returns nullptr if it cannot produce a constant.
103 Constant *getConstantMemInstValueForLoad(MemIntrinsic *SrcInst, unsigned Offset,
104 Type *LoadTy, const DataLayout &DL);
107 #endif