LLVM 22.0.0git
KnownFPClass.h
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1//===- llvm/Support/KnownFPClass.h - Stores known fpclass -------*- 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//
9// This file contains a class for representing known fpclasses used by
10// computeKnownFPClass.
11//
12//===----------------------------------------------------------------------===//
13
14#ifndef LLVM_SUPPORT_KNOWNFPCLASS_H
15#define LLVM_SUPPORT_KNOWNFPCLASS_H
16
17#include "llvm/ADT/FloatingPointMode.h"
18#include "llvm/Support/Compiler.h"
19#include <optional>
20
21namespace llvm {
22
23struct KnownFPClass {
24 /// Floating-point classes the value could be one of.
25 FPClassTest KnownFPClasses = fcAllFlags;
26
27 /// std::nullopt if the sign bit is unknown, true if the sign bit is
28 /// definitely set or false if the sign bit is definitely unset.
29 std::optional<bool> SignBit;
30
31 bool operator==(KnownFPClass Other) const {
32 return KnownFPClasses == Other.KnownFPClasses && SignBit == Other.SignBit;
33 }
34
35 /// Return true if it's known this can never be one of the mask entries.
36 bool isKnownNever(FPClassTest Mask) const {
37 return (KnownFPClasses & Mask) == fcNone;
38 }
39
40 bool isKnownAlways(FPClassTest Mask) const { return isKnownNever(~Mask); }
41
42 bool isUnknown() const { return KnownFPClasses == fcAllFlags && !SignBit; }
43
44 /// Return true if it's known this can never be a nan.
45 bool isKnownNeverNaN() const { return isKnownNever(fcNan); }
46
47 /// Return true if it's known this must always be a nan.
48 bool isKnownAlwaysNaN() const { return isKnownAlways(fcNan); }
49
50 /// Return true if it's known this can never be an infinity.
51 bool isKnownNeverInfinity() const { return isKnownNever(fcInf); }
52
53 /// Return true if it's known this can never be +infinity.
54 bool isKnownNeverPosInfinity() const { return isKnownNever(fcPosInf); }
55
56 /// Return true if it's known this can never be -infinity.
57 bool isKnownNeverNegInfinity() const { return isKnownNever(fcNegInf); }
58
59 /// Return true if it's known this can never be a subnormal
60 bool isKnownNeverSubnormal() const { return isKnownNever(fcSubnormal); }
61
62 /// Return true if it's known this can never be a positive subnormal
63 bool isKnownNeverPosSubnormal() const { return isKnownNever(fcPosSubnormal); }
64
65 /// Return true if it's known this can never be a negative subnormal
66 bool isKnownNeverNegSubnormal() const { return isKnownNever(fcNegSubnormal); }
67
68 /// Return true if it's known this can never be a zero. This means a literal
69 /// [+-]0, and does not include denormal inputs implicitly treated as [+-]0.
70 bool isKnownNeverZero() const { return isKnownNever(fcZero); }
71
72 /// Return true if it's known this can never be a literal positive zero.
73 bool isKnownNeverPosZero() const { return isKnownNever(fcPosZero); }
74
75 /// Return true if it's known this can never be a negative zero. This means a
76 /// literal -0 and does not include denormal inputs implicitly treated as -0.
77 bool isKnownNeverNegZero() const { return isKnownNever(fcNegZero); }
78
79 /// Return true if it's know this can never be interpreted as a zero. This
80 /// extends isKnownNeverZero to cover the case where the assumed
81 /// floating-point mode for the function interprets denormals as zero.
82 LLVM_ABI bool isKnownNeverLogicalZero(DenormalMode Mode) const;
83
84 /// Return true if it's know this can never be interpreted as a negative zero.
85 LLVM_ABI bool isKnownNeverLogicalNegZero(DenormalMode Mode) const;
86
87 /// Return true if it's know this can never be interpreted as a positive zero.
88 LLVM_ABI bool isKnownNeverLogicalPosZero(DenormalMode Mode) const;
89
90 static constexpr FPClassTest OrderedLessThanZeroMask =
91 fcNegSubnormal | fcNegNormal | fcNegInf;
92 static constexpr FPClassTest OrderedGreaterThanZeroMask =
93 fcPosSubnormal | fcPosNormal | fcPosInf;
94
95 /// Return true if we can prove that the analyzed floating-point value is
96 /// either NaN or never less than -0.0.
97 ///
98 /// NaN --> true
99 /// +0 --> true
100 /// -0 --> true
101 /// x > +0 --> true
102 /// x < -0 --> false
106
107 /// Return true if we can prove that the analyzed floating-point value is
108 /// either NaN or never greater than -0.0.
109 /// NaN --> true
110 /// +0 --> true
111 /// -0 --> true
112 /// x > +0 --> false
113 /// x < -0 --> true
117
118 KnownFPClass &operator|=(const KnownFPClass &RHS) {
119 KnownFPClasses = KnownFPClasses | RHS.KnownFPClasses;
120
121 if (SignBit != RHS.SignBit)
122 SignBit = std::nullopt;
123 return *this;
124 }
125
126 void knownNot(FPClassTest RuleOut) {
127 KnownFPClasses = KnownFPClasses & ~RuleOut;
128 if (isKnownNever(fcNan) && !SignBit) {
129 if (isKnownNever(fcNegative))
130 SignBit = false;
131 else if (isKnownNever(fcPositive))
132 SignBit = true;
133 }
134 }
135
136 void fneg() {
137 KnownFPClasses = llvm::fneg(KnownFPClasses);
138 if (SignBit)
139 SignBit = !*SignBit;
140 }
141
157
158 /// Return true if the sign bit must be 0, ignoring the sign of nans.
159 bool signBitIsZeroOrNaN() const { return isKnownNever(fcNegative); }
160
161 /// Assume the sign bit is zero.
162 void signBitMustBeZero() {
163 KnownFPClasses &= (fcPositive | fcNan);
164 SignBit = false;
165 }
166
167 /// Assume the sign bit is one.
168 void signBitMustBeOne() {
169 KnownFPClasses &= (fcNegative | fcNan);
170 SignBit = true;
171 }
172
173 void copysign(const KnownFPClass &Sign) {
174 // Don't know anything about the sign of the source. Expand the possible set
175 // to its opposite sign pair.
176 if (KnownFPClasses & fcZero)
177 KnownFPClasses |= fcZero;
178 if (KnownFPClasses & fcSubnormal)
179 KnownFPClasses |= fcSubnormal;
180 if (KnownFPClasses & fcNormal)
181 KnownFPClasses |= fcNormal;
182 if (KnownFPClasses & fcInf)
183 KnownFPClasses |= fcInf;
184
185 // Sign bit is exactly preserved even for nans.
186 SignBit = Sign.SignBit;
187
188 // Clear sign bits based on the input sign mask.
189 if (Sign.isKnownNever(fcPositive | fcNan) || (SignBit && *SignBit))
190 KnownFPClasses &= (fcNegative | fcNan);
191 if (Sign.isKnownNever(fcNegative | fcNan) || (SignBit && !*SignBit))
192 KnownFPClasses &= (fcPositive | fcNan);
193 }
194
195 // Propagate knowledge that a non-NaN source implies the result can also not
196 // be a NaN. For unconstrained operations, signaling nans are not guaranteed
197 // to be quieted but cannot be introduced.
198 void propagateNaN(const KnownFPClass &Src, bool PreserveSign = false) {
199 if (Src.isKnownNever(fcNan)) {
200 knownNot(fcNan);
201 if (PreserveSign)
202 SignBit = Src.SignBit;
203 } else if (Src.isKnownNever(fcSNan))
204 knownNot(fcSNan);
205 }
206
207 /// Propagate knowledge from a source value that could be a denormal or
208 /// zero. We have to be conservative since output flushing is not guaranteed,
209 /// so known-never-zero may not hold.
210 ///
211 /// This assumes a copy-like operation and will replace any currently known
212 /// information.
213 LLVM_ABI void propagateDenormal(const KnownFPClass &Src, DenormalMode Mode);
214
215 /// Report known classes if \p Src is evaluated through a potentially
216 /// canonicalizing operation. We can assume signaling nans will not be
217 /// introduced, but cannot assume a denormal will be flushed under FTZ/DAZ.
218 ///
219 /// This assumes a copy-like operation and will replace any currently known
220 /// information.
221 LLVM_ABI void propagateCanonicalizingSrc(const KnownFPClass &Src,
222 DenormalMode Mode);
223
224 void resetAll() { *this = KnownFPClass(); }
225};
226
227inline KnownFPClass operator|(KnownFPClass LHS, const KnownFPClass &RHS) {
228 LHS |= RHS;
229 return LHS;
230}
231
232inline KnownFPClass operator|(const KnownFPClass &LHS, KnownFPClass &&RHS) {
233 RHS |= LHS;
234 return std::move(RHS);
235}
236
237} // namespace llvm
238
239#endif
LLVM_ABI
#define LLVM_ABI
Definition Compiler.h:213
FloatingPointMode.h
Utilities for dealing with flags related to floating point properties and mode controls.
Mode
static cl::opt< RegAllocEvictionAdvisorAnalysisLegacy::AdvisorMode > Mode("regalloc-enable-advisor", cl::Hidden, cl::init(RegAllocEvictionAdvisorAnalysisLegacy::AdvisorMode::Default), cl::desc("Enable regalloc advisor mode"), cl::values(clEnumValN(RegAllocEvictionAdvisorAnalysisLegacy::AdvisorMode::Default, "default", "Default"), clEnumValN(RegAllocEvictionAdvisorAnalysisLegacy::AdvisorMode::Release, "release", "precompiled"), clEnumValN(RegAllocEvictionAdvisorAnalysisLegacy::AdvisorMode::Development, "development", "for training")))
RHS
Value * RHS
Definition X86PartialReduction.cpp:74
LHS
Value * LHS
Definition X86PartialReduction.cpp:73
llvm
This is an optimization pass for GlobalISel generic memory operations.
Definition AddressRanges.h:18
llvm::fneg
LLVM_ABI FPClassTest fneg(FPClassTest Mask)
Return the test mask which returns true if the value's sign bit is flipped.
Definition FloatingPointMode.cpp:14
llvm::FPClassTest
FPClassTest
Floating-point class tests, supported by 'is_fpclass' intrinsic.
Definition FloatingPointMode.h:240
llvm::IRMemLocation::Other
@ Other
Any other memory.
Definition ModRef.h:68
llvm::operator|
APInt operator|(APInt a, const APInt &b)
Definition APInt.h:2143
llvm::DenormalMode
Represent subnormal handling kind for floating point instruction inputs and outputs.
Definition FloatingPointMode.h:71
llvm::KnownFPClass::isKnownAlwaysNaN
bool isKnownAlwaysNaN() const
Return true if it's known this must always be a nan.
Definition KnownFPClass.h:48
llvm::KnownFPClass::KnownFPClasses
FPClassTest KnownFPClasses
Floating-point classes the value could be one of.
Definition KnownFPClass.h:25
llvm::KnownFPClass::isKnownNeverInfinity
bool isKnownNeverInfinity() const
Return true if it's known this can never be an infinity.
Definition KnownFPClass.h:51
llvm::KnownFPClass::cannotBeOrderedGreaterThanZero
bool cannotBeOrderedGreaterThanZero() const
Return true if we can prove that the analyzed floating-point value is either NaN or never greater tha...
Definition KnownFPClass.h:114
llvm::KnownFPClass::OrderedGreaterThanZeroMask
static constexpr FPClassTest OrderedGreaterThanZeroMask
Definition KnownFPClass.h:92
llvm::KnownFPClass::OrderedLessThanZeroMask
static constexpr FPClassTest OrderedLessThanZeroMask
Definition KnownFPClass.h:90
llvm::KnownFPClass::knownNot
void knownNot(FPClassTest RuleOut)
Definition KnownFPClass.h:126
llvm::KnownFPClass::isKnownNeverZero
bool isKnownNeverZero() const
Return true if it's known this can never be a zero.
Definition KnownFPClass.h:70
llvm::KnownFPClass::copysign
void copysign(const KnownFPClass &Sign)
Definition KnownFPClass.h:173
llvm::KnownFPClass::isKnownNeverSubnormal
bool isKnownNeverSubnormal() const
Return true if it's known this can never be a subnormal.
Definition KnownFPClass.h:60
llvm::KnownFPClass::isKnownAlways
bool isKnownAlways(FPClassTest Mask) const
Definition KnownFPClass.h:40
llvm::KnownFPClass::isKnownNeverLogicalZero
LLVM_ABI bool isKnownNeverLogicalZero(DenormalMode Mode) const
Return true if it's know this can never be interpreted as a zero.
Definition KnownFPClass.cpp:30
llvm::KnownFPClass::propagateDenormal
LLVM_ABI void propagateDenormal(const KnownFPClass &Src, DenormalMode Mode)
Propagate knowledge from a source value that could be a denormal or zero.
Definition KnownFPClass.cpp:63
llvm::KnownFPClass::operator|=
KnownFPClass & operator|=(const KnownFPClass &RHS)
Definition KnownFPClass.h:118
llvm::KnownFPClass::isUnknown
bool isUnknown() const
Definition KnownFPClass.h:42
llvm::KnownFPClass::isKnownNeverNegInfinity
bool isKnownNeverNegInfinity() const
Return true if it's known this can never be -infinity.
Definition KnownFPClass.h:57
llvm::KnownFPClass::isKnownNeverNegSubnormal
bool isKnownNeverNegSubnormal() const
Return true if it's known this can never be a negative subnormal.
Definition KnownFPClass.h:66
llvm::KnownFPClass::isKnownNeverPosZero
bool isKnownNeverPosZero() const
Return true if it's known this can never be a literal positive zero.
Definition KnownFPClass.h:73
llvm::KnownFPClass::SignBit
std::optional< bool > SignBit
std::nullopt if the sign bit is unknown, true if the sign bit is definitely set or false if the sign ...
Definition KnownFPClass.h:29
llvm::KnownFPClass::isKnownNeverNaN
bool isKnownNeverNaN() const
Return true if it's known this can never be a nan.
Definition KnownFPClass.h:45
llvm::KnownFPClass::isKnownNever
bool isKnownNever(FPClassTest Mask) const
Return true if it's known this can never be one of the mask entries.
Definition KnownFPClass.h:36
llvm::KnownFPClass::isKnownNeverNegZero
bool isKnownNeverNegZero() const
Return true if it's known this can never be a negative zero.
Definition KnownFPClass.h:77
llvm::KnownFPClass::propagateNaN
void propagateNaN(const KnownFPClass &Src, bool PreserveSign=false)
Definition KnownFPClass.h:198
llvm::KnownFPClass::cannotBeOrderedLessThanZero
bool cannotBeOrderedLessThanZero() const
Return true if we can prove that the analyzed floating-point value is either NaN or never less than -...
Definition KnownFPClass.h:103
llvm::KnownFPClass::signBitMustBeOne
void signBitMustBeOne()
Assume the sign bit is one.
Definition KnownFPClass.h:168
llvm::KnownFPClass::propagateCanonicalizingSrc
LLVM_ABI void propagateCanonicalizingSrc(const KnownFPClass &Src, DenormalMode Mode)
Report known classes if Src is evaluated through a potentially canonicalizing operation.
Definition KnownFPClass.cpp:90
llvm::KnownFPClass::signBitMustBeZero
void signBitMustBeZero()
Assume the sign bit is zero.
Definition KnownFPClass.h:162
llvm::KnownFPClass::isKnownNeverLogicalPosZero
LLVM_ABI bool isKnownNeverLogicalPosZero(DenormalMode Mode) const
Return true if it's know this can never be interpreted as a positive zero.
Definition KnownFPClass.cpp:40
llvm::KnownFPClass::isKnownNeverPosInfinity
bool isKnownNeverPosInfinity() const
Return true if it's known this can never be +infinity.
Definition KnownFPClass.h:54
llvm::KnownFPClass::isKnownNeverLogicalNegZero
LLVM_ABI bool isKnownNeverLogicalNegZero(DenormalMode Mode) const
Return true if it's know this can never be interpreted as a negative zero.
Definition KnownFPClass.cpp:35
llvm::KnownFPClass::operator==
bool operator==(KnownFPClass Other) const
Definition KnownFPClass.h:31
llvm::KnownFPClass::signBitIsZeroOrNaN
bool signBitIsZeroOrNaN() const
Return true if the sign bit must be 0, ignoring the sign of nans.
Definition KnownFPClass.h:159
llvm::KnownFPClass::isKnownNeverPosSubnormal
bool isKnownNeverPosSubnormal() const
Return true if it's known this can never be a positive subnormal.
Definition KnownFPClass.h:63
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