X86TargetParser.cpp source code [llvm/lib/TargetParser/X86TargetParser.cpp]

1	//===-- X86TargetParser - Parser for X86 features ---------------- 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 implements a target parser to recognise X86 hardware features.
10	//
11	//===----------------------------------------------------------------------===//
12
13	#include "llvm/TargetParser/X86TargetParser.h"
14	#include "llvm/ADT/Bitset.h"
15	#include "llvm/ADT/StringSwitch.h"
16	#include <numeric>
17
18	using namespace llvm;
19	using namespace llvm::X86;
20
21	namespace {
22
23	using FeatureBitset = Bitset<X86::CPU_FEATURE_MAX>;
24
25	struct ProcInfo {
26	StringLiteral Name;
27	X86::CPUKind Kind;
28	unsigned KeyFeature;
29	FeatureBitset Features;
30	char Mangling;
31	bool OnlyForCPUDispatchSpecific;
32	};
33
34	struct FeatureInfo {
35	StringLiteral NameWithPlus;
36	FeatureBitset ImpliedFeatures;
37
38	StringRef getName(bool WithPlus = false) const {
39	assert(NameWithPlus[`0`] == `'+'` && "Expected string to start with '+'");
40	if (WithPlus)
41	return NameWithPlus;
42	return NameWithPlus.drop_front();
43	}
44	};
45
46	} // end anonymous namespace
47
48	#define X86_FEATURE(ENUM, STRING) \
49	constexpr FeatureBitset Feature##ENUM = {X86::FEATURE_##ENUM};
50	#include "llvm/TargetParser/X86TargetParser.def"
51
52	// Pentium with MMX.
53	constexpr FeatureBitset FeaturesPentiumMMX =
54	FeatureX87 \| FeatureCMPXCHG8B \| FeatureMMX;
55
56	// Pentium 2 and 3.
57	constexpr FeatureBitset FeaturesPentium2 =
58	FeatureX87 \| FeatureCMPXCHG8B \| FeatureMMX \| FeatureFXSR \| FeatureCMOV;
59	constexpr FeatureBitset FeaturesPentium3 = FeaturesPentium2 \| FeatureSSE;
60
61	// Pentium 4 CPUs
62	constexpr FeatureBitset FeaturesPentium4 = FeaturesPentium3 \| FeatureSSE2;
63	constexpr FeatureBitset FeaturesPrescott = FeaturesPentium4 \| FeatureSSE3;
64	constexpr FeatureBitset FeaturesNocona =
65	FeaturesPrescott \| Feature64BIT \| FeatureCMPXCHG16B;
66
67	// Basic 64-bit capable CPU.
68	constexpr FeatureBitset FeaturesX86_64 = FeaturesPentium4 \| Feature64BIT;
69	constexpr FeatureBitset FeaturesX86_64_V2 = FeaturesX86_64 \| FeatureSAHF \|
70	FeaturePOPCNT \| FeatureCRC32 \|
71	FeatureSSE4_2 \| FeatureCMPXCHG16B;
72	constexpr FeatureBitset FeaturesX86_64_V3 =
73	FeaturesX86_64_V2 \| FeatureAVX2 \| FeatureBMI \| FeatureBMI2 \| FeatureF16C \|
74	FeatureFMA \| FeatureLZCNT \| FeatureMOVBE \| FeatureXSAVE;
75	constexpr FeatureBitset FeaturesX86_64_V4 = FeaturesX86_64_V3 \| FeatureEVEX512 \|
76	FeatureAVX512BW \| FeatureAVX512CD \|
77	FeatureAVX512DQ \| FeatureAVX512VL;
78
79	// Intel Core CPUs
80	constexpr FeatureBitset FeaturesCore2 =
81	FeaturesNocona \| FeatureSAHF \| FeatureSSSE3;
82	constexpr FeatureBitset FeaturesPenryn = FeaturesCore2 \| FeatureSSE4_1;
83	constexpr FeatureBitset FeaturesNehalem =
84	FeaturesPenryn \| FeaturePOPCNT \| FeatureCRC32 \| FeatureSSE4_2;
85	constexpr FeatureBitset FeaturesWestmere = FeaturesNehalem \| FeaturePCLMUL;
86	constexpr FeatureBitset FeaturesSandyBridge =
87	FeaturesWestmere \| FeatureAVX \| FeatureXSAVE \| FeatureXSAVEOPT;
88	constexpr FeatureBitset FeaturesIvyBridge =
89	FeaturesSandyBridge \| FeatureF16C \| FeatureFSGSBASE \| FeatureRDRND;
90	constexpr FeatureBitset FeaturesHaswell =
91	FeaturesIvyBridge \| FeatureAVX2 \| FeatureBMI \| FeatureBMI2 \| FeatureFMA \|
92	FeatureINVPCID \| FeatureLZCNT \| FeatureMOVBE;
93	constexpr FeatureBitset FeaturesBroadwell =
94	FeaturesHaswell \| FeatureADX \| FeaturePRFCHW \| FeatureRDSEED;
95
96	// Intel Knights Landing and Knights Mill
97	// Knights Landing has feature parity with Broadwell.
98	constexpr FeatureBitset FeaturesKNL =
99	FeaturesBroadwell \| FeatureAES \| FeatureAVX512F \| FeatureEVEX512 \|
100	FeatureAVX512CD \| FeatureAVX512ER \| FeatureAVX512PF \| FeaturePREFETCHWT1;
101	constexpr FeatureBitset FeaturesKNM = FeaturesKNL \| FeatureAVX512VPOPCNTDQ;
102
103	// Intel Skylake processors.
104	constexpr FeatureBitset FeaturesSkylakeClient =
105	FeaturesBroadwell \| FeatureAES \| FeatureCLFLUSHOPT \| FeatureXSAVEC \|
106	FeatureXSAVES \| FeatureSGX;
107	// SkylakeServer inherits all SkylakeClient features except SGX.
108	// FIXME: That doesn't match gcc.
109	constexpr FeatureBitset FeaturesSkylakeServer =
110	(FeaturesSkylakeClient & ~FeatureSGX) \| FeatureAVX512F \| FeatureEVEX512 \|
111	FeatureAVX512CD \| FeatureAVX512DQ \| FeatureAVX512BW \| FeatureAVX512VL \|
112	FeatureCLWB \| FeaturePKU;
113	constexpr FeatureBitset FeaturesCascadeLake =
114	FeaturesSkylakeServer \| FeatureAVX512VNNI;
115	constexpr FeatureBitset FeaturesCooperLake =
116	FeaturesCascadeLake \| FeatureAVX512BF16;
117
118	// Intel 10nm processors.
119	constexpr FeatureBitset FeaturesCannonlake =
120	FeaturesSkylakeClient \| FeatureAVX512F \| FeatureEVEX512 \| FeatureAVX512CD \|
121	FeatureAVX512DQ \| FeatureAVX512BW \| FeatureAVX512VL \| FeatureAVX512IFMA \|
122	FeatureAVX512VBMI \| FeaturePKU \| FeatureSHA;
123	constexpr FeatureBitset FeaturesICLClient =
124	FeaturesCannonlake \| FeatureAVX512BITALG \| FeatureAVX512VBMI2 \|
125	FeatureAVX512VNNI \| FeatureAVX512VPOPCNTDQ \| FeatureGFNI \| FeatureRDPID \|
126	FeatureVAES \| FeatureVPCLMULQDQ;
127	constexpr FeatureBitset FeaturesRocketlake = FeaturesICLClient & ~FeatureSGX;
128	constexpr FeatureBitset FeaturesICLServer =
129	FeaturesICLClient \| FeatureCLWB \| FeaturePCONFIG \| FeatureWBNOINVD;
130	constexpr FeatureBitset FeaturesTigerlake =
131	FeaturesICLClient \| FeatureAVX512VP2INTERSECT \| FeatureMOVDIR64B \|
132	FeatureCLWB \| FeatureMOVDIRI \| FeatureSHSTK \| FeatureKL \| FeatureWIDEKL;
133	constexpr FeatureBitset FeaturesSapphireRapids =
134	FeaturesICLServer \| FeatureAMX_BF16 \| FeatureAMX_INT8 \| FeatureAMX_TILE \|
135	FeatureAVX512BF16 \| FeatureAVX512FP16 \| FeatureAVXVNNI \| FeatureCLDEMOTE \|
136	FeatureENQCMD \| FeatureMOVDIR64B \| FeatureMOVDIRI \| FeaturePTWRITE \|
137	FeatureSERIALIZE \| FeatureSHSTK \| FeatureTSXLDTRK \| FeatureUINTR \|
138	FeatureWAITPKG;
139	constexpr FeatureBitset FeaturesGraniteRapids =
140	FeaturesSapphireRapids \| FeatureAMX_FP16 \| FeaturePREFETCHI;
141
142	// Intel Atom processors.
143	// Bonnell has feature parity with Core2 and adds MOVBE.
144	constexpr FeatureBitset FeaturesBonnell = FeaturesCore2 \| FeatureMOVBE;
145	// Silvermont has parity with Westmere and Bonnell plus PRFCHW and RDRND.
146	constexpr FeatureBitset FeaturesSilvermont =
147	FeaturesBonnell \| FeaturesWestmere \| FeaturePRFCHW \| FeatureRDRND;
148	constexpr FeatureBitset FeaturesGoldmont =
149	FeaturesSilvermont \| FeatureAES \| FeatureCLFLUSHOPT \| FeatureFSGSBASE \|
150	FeatureRDSEED \| FeatureSHA \| FeatureXSAVE \| FeatureXSAVEC \|
151	FeatureXSAVEOPT \| FeatureXSAVES;
152	constexpr FeatureBitset FeaturesGoldmontPlus =
153	FeaturesGoldmont \| FeaturePTWRITE \| FeatureRDPID \| FeatureSGX;
154	constexpr FeatureBitset FeaturesTremont =
155	FeaturesGoldmontPlus \| FeatureCLWB \| FeatureGFNI;
156	constexpr FeatureBitset FeaturesAlderlake =
157	FeaturesTremont \| FeatureADX \| FeatureBMI \| FeatureBMI2 \| FeatureF16C \|
158	FeatureFMA \| FeatureINVPCID \| FeatureLZCNT \| FeaturePCONFIG \| FeaturePKU \|
159	FeatureSERIALIZE \| FeatureSHSTK \| FeatureVAES \| FeatureVPCLMULQDQ \|
160	FeatureCLDEMOTE \| FeatureMOVDIR64B \| FeatureMOVDIRI \| FeatureWAITPKG \|
161	FeatureAVXVNNI \| FeatureHRESET \| FeatureWIDEKL;
162	constexpr FeatureBitset FeaturesSierraforest =
163	FeaturesAlderlake \| FeatureCMPCCXADD \| FeatureAVXIFMA \| FeatureUINTR \|
164	FeatureENQCMD \| FeatureAVXNECONVERT \| FeatureAVXVNNIINT8;
165	constexpr FeatureBitset FeaturesArrowlakeS = FeaturesSierraforest \|
166	FeatureAVXVNNIINT16 \| FeatureSHA512 \| FeatureSM3 \| FeatureSM4;
167	constexpr FeatureBitset FeaturesPantherlake =
168	FeaturesArrowlakeS \| FeaturePREFETCHI;
169	constexpr FeatureBitset FeaturesClearwaterforest =
170	FeaturesArrowlakeS \| FeatureUSERMSR \| FeaturePREFETCHI;
171
172	// Geode Processor.
173	constexpr FeatureBitset FeaturesGeode =
174	FeatureX87 \| FeatureCMPXCHG8B \| FeatureMMX \| Feature3DNOW \| Feature3DNOWA;
175
176	// K6 processor.
177	constexpr FeatureBitset FeaturesK6 = FeatureX87 \| FeatureCMPXCHG8B \| FeatureMMX;
178
179	// K7 and K8 architecture processors.
180	constexpr FeatureBitset FeaturesAthlon =
181	FeatureX87 \| FeatureCMPXCHG8B \| FeatureMMX \| Feature3DNOW \| Feature3DNOWA;
182	constexpr FeatureBitset FeaturesAthlonXP =
183	FeaturesAthlon \| FeatureFXSR \| FeatureSSE;
184	constexpr FeatureBitset FeaturesK8 =
185	FeaturesAthlonXP \| FeatureSSE2 \| Feature64BIT;
186	constexpr FeatureBitset FeaturesK8SSE3 = FeaturesK8 \| FeatureSSE3;
187	constexpr FeatureBitset FeaturesAMDFAM10 =
188	FeaturesK8SSE3 \| FeatureCMPXCHG16B \| FeatureLZCNT \| FeaturePOPCNT \|
189	FeaturePRFCHW \| FeatureSAHF \| FeatureSSE4_A;
190
191	// Bobcat architecture processors.
192	constexpr FeatureBitset FeaturesBTVER1 =
193	FeatureX87 \| FeatureCMPXCHG8B \| FeatureCMPXCHG16B \| Feature64BIT \|
194	FeatureFXSR \| FeatureLZCNT \| FeatureMMX \| FeaturePOPCNT \| FeaturePRFCHW \|
195	FeatureSSE \| FeatureSSE2 \| FeatureSSE3 \| FeatureSSSE3 \| FeatureSSE4_A \|
196	FeatureSAHF;
197	constexpr FeatureBitset FeaturesBTVER2 =
198	FeaturesBTVER1 \| FeatureAES \| FeatureAVX \| FeatureBMI \| FeatureCRC32 \|
199	FeatureF16C \| FeatureMOVBE \| FeaturePCLMUL \| FeatureXSAVE \| FeatureXSAVEOPT;
200
201	// AMD Bulldozer architecture processors.
202	constexpr FeatureBitset FeaturesBDVER1 =
203	FeatureX87 \| FeatureAES \| FeatureAVX \| FeatureCMPXCHG8B \|
204	FeatureCMPXCHG16B \| FeatureCRC32 \| Feature64BIT \| FeatureFMA4 \|
205	FeatureFXSR \| FeatureLWP \| FeatureLZCNT \| FeatureMMX \| FeaturePCLMUL \|
206	FeaturePOPCNT \| FeaturePRFCHW \| FeatureSAHF \| FeatureSSE \| FeatureSSE2 \|
207	FeatureSSE3 \| FeatureSSSE3 \| FeatureSSE4_1 \| FeatureSSE4_2 \| FeatureSSE4_A \|
208	FeatureXOP \| FeatureXSAVE;
209	constexpr FeatureBitset FeaturesBDVER2 =
210	FeaturesBDVER1 \| FeatureBMI \| FeatureFMA \| FeatureF16C \| FeatureTBM;
211	constexpr FeatureBitset FeaturesBDVER3 =
212	FeaturesBDVER2 \| FeatureFSGSBASE \| FeatureXSAVEOPT;
213	constexpr FeatureBitset FeaturesBDVER4 = FeaturesBDVER3 \| FeatureAVX2 \|
214	FeatureBMI2 \| FeatureMOVBE \|
215	FeatureMWAITX \| FeatureRDRND;
216
217	// AMD Zen architecture processors.
218	constexpr FeatureBitset FeaturesZNVER1 =
219	FeatureX87 \| FeatureADX \| FeatureAES \| FeatureAVX \| FeatureAVX2 \|
220	FeatureBMI \| FeatureBMI2 \| FeatureCLFLUSHOPT \| FeatureCLZERO \|
221	FeatureCMPXCHG8B \| FeatureCMPXCHG16B \| FeatureCRC32 \| Feature64BIT \|
222	FeatureF16C \| FeatureFMA \| FeatureFSGSBASE \| FeatureFXSR \| FeatureLZCNT \|
223	FeatureMMX \| FeatureMOVBE \| FeatureMWAITX \| FeaturePCLMUL \| FeaturePOPCNT \|
224	FeaturePRFCHW \| FeatureRDRND \| FeatureRDSEED \| FeatureSAHF \| FeatureSHA \|
225	FeatureSSE \| FeatureSSE2 \| FeatureSSE3 \| FeatureSSSE3 \| FeatureSSE4_1 \|
226	FeatureSSE4_2 \| FeatureSSE4_A \| FeatureXSAVE \| FeatureXSAVEC \|
227	FeatureXSAVEOPT \| FeatureXSAVES;
228	constexpr FeatureBitset FeaturesZNVER2 = FeaturesZNVER1 \| FeatureCLWB \|
229	FeatureRDPID \| FeatureRDPRU \|
230	FeatureWBNOINVD;
231	static constexpr FeatureBitset FeaturesZNVER3 = FeaturesZNVER2 \|
232	FeatureINVPCID \| FeaturePKU \|
233	FeatureVAES \| FeatureVPCLMULQDQ;
234	static constexpr FeatureBitset FeaturesZNVER4 =
235	FeaturesZNVER3 \| FeatureAVX512F \| FeatureEVEX512 \| FeatureAVX512CD \|
236	FeatureAVX512DQ \| FeatureAVX512BW \| FeatureAVX512VL \| FeatureAVX512IFMA \|
237	FeatureAVX512VBMI \| FeatureAVX512VBMI2 \| FeatureAVX512VNNI \|
238	FeatureAVX512BITALG \| FeatureAVX512VPOPCNTDQ \| FeatureAVX512BF16 \|
239	FeatureGFNI \| FeatureSHSTK;
240
241	// D151696 tranplanted Mangling and OnlyForCPUDispatchSpecific from
242	// X86TargetParser.def to here. They are assigned by following ways:
243	// 1. Copy the mangling from the original CPU_SPEICIFC MACROs. If no, assign
244	// to '\0' by default, which means not support cpu_specific/dispatch feature.
245	// 2. set OnlyForCPUDispatchSpecific as true if this cpu name was not
246	// listed here before, which means it doesn't support -march, -mtune and so on.
247	// FIXME: Remove OnlyForCPUDispatchSpecific after all CPUs here support both
248	// cpu_dispatch/specific() feature and -march, -mtune, and so on.
249	// clang-format off
250	constexpr ProcInfo Processors[] = {
251	// Empty processor. Include X87 and CMPXCHG8 for backwards compatibility.
252	{ .Name: {""}, .Kind: CK_None, .KeyFeature: ~`0U`, .Features: FeatureX87 \| FeatureCMPXCHG8B, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
253	{ .Name: {"generic"}, .Kind: CK_None, .KeyFeature: ~`0U`, .Features: FeatureX87 \| FeatureCMPXCHG8B \| Feature64BIT, .Mangling: `'A'`, .OnlyForCPUDispatchSpecific: true },
254	// i386-generation processors.
255	{ .Name: {"i386"}, .Kind: CK_i386, .KeyFeature: ~`0U`, .Features: FeatureX87, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
256	// i486-generation processors.
257	{ .Name: {"i486"}, .Kind: CK_i486, .KeyFeature: ~`0U`, .Features: FeatureX87, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
258	{ .Name: {"winchip-c6"}, .Kind: CK_WinChipC6, .KeyFeature: ~`0U`, .Features: FeaturesPentiumMMX, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
259	{ .Name: {"winchip2"}, .Kind: CK_WinChip2, .KeyFeature: ~`0U`, .Features: FeaturesPentiumMMX \| Feature3DNOW, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
260	{ .Name: {"c3"}, .Kind: CK_C3, .KeyFeature: ~`0U`, .Features: FeaturesPentiumMMX \| Feature3DNOW, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
261	// i586-generation processors, P5 microarchitecture based.
262	{ .Name: {"i586"}, .Kind: CK_i586, .KeyFeature: ~`0U`, .Features: FeatureX87 \| FeatureCMPXCHG8B, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
263	{ .Name: {"pentium"}, .Kind: CK_Pentium, .KeyFeature: ~`0U`, .Features: FeatureX87 \| FeatureCMPXCHG8B, .Mangling: `'B'`, .OnlyForCPUDispatchSpecific: false },
264	{ .Name: {"pentium-mmx"}, .Kind: CK_PentiumMMX, .KeyFeature: ~`0U`, .Features: FeaturesPentiumMMX, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
265	{ .Name: {"pentium_mmx"}, .Kind: CK_PentiumMMX, .KeyFeature: ~`0U`, .Features: FeaturesPentiumMMX, .Mangling: `'D'`, .OnlyForCPUDispatchSpecific: true },
266	// i686-generation processors, P6 / Pentium M microarchitecture based.
267	{ .Name: {"pentiumpro"}, .Kind: CK_PentiumPro, .KeyFeature: ~`0U`, .Features: FeatureCMOV \| FeatureX87 \| FeatureCMPXCHG8B, .Mangling: `'C'`, .OnlyForCPUDispatchSpecific: false },
268	{ .Name: {"pentium_pro"}, .Kind: CK_PentiumPro, .KeyFeature: ~`0U`, .Features: FeatureCMOV \| FeatureX87 \| FeatureCMPXCHG8B, .Mangling: `'C'`, .OnlyForCPUDispatchSpecific: true },
269	{ .Name: {"i686"}, .Kind: CK_i686, .KeyFeature: ~`0U`, .Features: FeatureCMOV \| FeatureX87 \| FeatureCMPXCHG8B, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
270	{ .Name: {"pentium2"}, .Kind: CK_Pentium2, .KeyFeature: ~`0U`, .Features: FeaturesPentium2, .Mangling: `'E'`, .OnlyForCPUDispatchSpecific: false },
271	{ .Name: {"pentium_ii"}, .Kind: CK_Pentium2, .KeyFeature: ~`0U`, .Features: FeaturesPentium2, .Mangling: `'E'`, .OnlyForCPUDispatchSpecific: true },
272	{ .Name: {"pentium3"}, .Kind: CK_Pentium3, .KeyFeature: ~`0U`, .Features: FeaturesPentium3, .Mangling: `'H'`, .OnlyForCPUDispatchSpecific: false },
273	{ .Name: {"pentium3m"}, .Kind: CK_Pentium3, .KeyFeature: ~`0U`, .Features: FeaturesPentium3, .Mangling: `'H'`, .OnlyForCPUDispatchSpecific: false },
274	{ .Name: {"pentium_iii"}, .Kind: CK_Pentium3, .KeyFeature: ~`0U`, .Features: FeaturesPentium3, .Mangling: `'H'`, .OnlyForCPUDispatchSpecific: true },
275	{ .Name: {"pentium_iii_no_xmm_regs"}, .Kind: CK_Pentium3, .KeyFeature: ~`0U`, .Features: FeaturesPentium3, .Mangling: `'H'`, .OnlyForCPUDispatchSpecific: true },
276	{ .Name: {"pentium-m"}, .Kind: CK_PentiumM, .KeyFeature: ~`0U`, .Features: FeaturesPentium4, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
277	{ .Name: {"pentium_m"}, .Kind: CK_PentiumM, .KeyFeature: ~`0U`, .Features: FeaturesPentium4, .Mangling: `'K'`, .OnlyForCPUDispatchSpecific: true },
278	{ .Name: {"c3-2"}, .Kind: CK_C3_2, .KeyFeature: ~`0U`, .Features: FeaturesPentium3, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
279	{ .Name: {"yonah"}, .Kind: CK_Yonah, .KeyFeature: ~`0U`, .Features: FeaturesPrescott, .Mangling: `'L'`, .OnlyForCPUDispatchSpecific: false },
280	// Netburst microarchitecture based processors.
281	{ .Name: {"pentium4"}, .Kind: CK_Pentium4, .KeyFeature: ~`0U`, .Features: FeaturesPentium4, .Mangling: `'J'`, .OnlyForCPUDispatchSpecific: false },
282	{ .Name: {"pentium4m"}, .Kind: CK_Pentium4, .KeyFeature: ~`0U`, .Features: FeaturesPentium4, .Mangling: `'J'`, .OnlyForCPUDispatchSpecific: false },
283	{ .Name: {"pentium_4"}, .Kind: CK_Pentium4, .KeyFeature: ~`0U`, .Features: FeaturesPentium4, .Mangling: `'J'`, .OnlyForCPUDispatchSpecific: true },
284	{ .Name: {"pentium_4_sse3"}, .Kind: CK_Prescott, .KeyFeature: ~`0U`, .Features: FeaturesPrescott, .Mangling: `'L'`, .OnlyForCPUDispatchSpecific: true },
285	{ .Name: {"prescott"}, .Kind: CK_Prescott, .KeyFeature: ~`0U`, .Features: FeaturesPrescott, .Mangling: `'L'`, .OnlyForCPUDispatchSpecific: false },
286	{ .Name: {"nocona"}, .Kind: CK_Nocona, .KeyFeature: ~`0U`, .Features: FeaturesNocona, .Mangling: `'L'`, .OnlyForCPUDispatchSpecific: false },
287	// Core microarchitecture based processors.
288	{ .Name: {"core2"}, .Kind: CK_Core2, .KeyFeature: FEATURE_SSSE3, .Features: FeaturesCore2, .Mangling: `'M'`, .OnlyForCPUDispatchSpecific: false },
289	{ .Name: {"core_2_duo_ssse3"}, .Kind: CK_Core2, .KeyFeature: ~`0U`, .Features: FeaturesCore2, .Mangling: `'M'`, .OnlyForCPUDispatchSpecific: true },
290	{ .Name: {"penryn"}, .Kind: CK_Penryn, .KeyFeature: ~`0U`, .Features: FeaturesPenryn, .Mangling: `'N'`, .OnlyForCPUDispatchSpecific: false },
291	{ .Name: {"core_2_duo_sse4_1"}, .Kind: CK_Penryn, .KeyFeature: ~`0U`, .Features: FeaturesPenryn, .Mangling: `'N'`, .OnlyForCPUDispatchSpecific: true },
292	// Atom processors
293	{ .Name: {"bonnell"}, .Kind: CK_Bonnell, .KeyFeature: FEATURE_SSSE3, .Features: FeaturesBonnell, .Mangling: `'O'`, .OnlyForCPUDispatchSpecific: false },
294	{ .Name: {"atom"}, .Kind: CK_Bonnell, .KeyFeature: FEATURE_SSSE3, .Features: FeaturesBonnell, .Mangling: `'O'`, .OnlyForCPUDispatchSpecific: false },
295	{ .Name: {"silvermont"}, .Kind: CK_Silvermont, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesSilvermont, .Mangling: `'c'`, .OnlyForCPUDispatchSpecific: false },
296	{ .Name: {"slm"}, .Kind: CK_Silvermont, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesSilvermont, .Mangling: `'c'`, .OnlyForCPUDispatchSpecific: false },
297	{ .Name: {"atom_sse4_2"}, .Kind: CK_Nehalem, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesNehalem, .Mangling: `'c'`, .OnlyForCPUDispatchSpecific: true },
298	{ .Name: {"atom_sse4_2_movbe"}, .Kind: CK_Goldmont, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesGoldmont, .Mangling: `'d'`, .OnlyForCPUDispatchSpecific: true },
299	{ .Name: {"goldmont"}, .Kind: CK_Goldmont, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesGoldmont, .Mangling: `'i'`, .OnlyForCPUDispatchSpecific: false },
300	{ .Name: {"goldmont-plus"}, .Kind: CK_GoldmontPlus, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesGoldmontPlus, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
301	{ .Name: {"goldmont_plus"}, .Kind: CK_GoldmontPlus, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesGoldmontPlus, .Mangling: `'d'`, .OnlyForCPUDispatchSpecific: true },
302	{ .Name: {"tremont"}, .Kind: CK_Tremont, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesTremont, .Mangling: `'d'`, .OnlyForCPUDispatchSpecific: false },
303	// Nehalem microarchitecture based processors.
304	{ .Name: {"nehalem"}, .Kind: CK_Nehalem, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesNehalem, .Mangling: `'P'`, .OnlyForCPUDispatchSpecific: false },
305	{ .Name: {"core_i7_sse4_2"}, .Kind: CK_Nehalem, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesNehalem, .Mangling: `'P'`, .OnlyForCPUDispatchSpecific: true },
306	{ .Name: {"corei7"}, .Kind: CK_Nehalem, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesNehalem, .Mangling: `'P'`, .OnlyForCPUDispatchSpecific: false },
307	// Westmere microarchitecture based processors.
308	{ .Name: {"westmere"}, .Kind: CK_Westmere, .KeyFeature: FEATURE_PCLMUL, .Features: FeaturesWestmere, .Mangling: `'Q'`, .OnlyForCPUDispatchSpecific: false },
309	{ .Name: {"core_aes_pclmulqdq"}, .Kind: CK_Nehalem, .KeyFeature: FEATURE_SSE4_2, .Features: FeaturesNehalem, .Mangling: `'Q'`, .OnlyForCPUDispatchSpecific: true },
310	// Sandy Bridge microarchitecture based processors.
311	{ .Name: {"sandybridge"}, .Kind: CK_SandyBridge, .KeyFeature: FEATURE_AVX, .Features: FeaturesSandyBridge, .Mangling: `'R'`, .OnlyForCPUDispatchSpecific: false },
312	{ .Name: {"core_2nd_gen_avx"}, .Kind: CK_SandyBridge, .KeyFeature: FEATURE_AVX, .Features: FeaturesSandyBridge, .Mangling: `'R'`, .OnlyForCPUDispatchSpecific: true },
313	{ .Name: {"corei7-avx"}, .Kind: CK_SandyBridge, .KeyFeature: FEATURE_AVX, .Features: FeaturesSandyBridge, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
314	// Ivy Bridge microarchitecture based processors.
315	{ .Name: {"ivybridge"}, .Kind: CK_IvyBridge, .KeyFeature: FEATURE_AVX, .Features: FeaturesIvyBridge, .Mangling: `'S'`, .OnlyForCPUDispatchSpecific: false },
316	{ .Name: {"core_3rd_gen_avx"}, .Kind: CK_IvyBridge, .KeyFeature: FEATURE_AVX, .Features: FeaturesIvyBridge, .Mangling: `'S'`, .OnlyForCPUDispatchSpecific: true },
317	{ .Name: {"core-avx-i"}, .Kind: CK_IvyBridge, .KeyFeature: FEATURE_AVX, .Features: FeaturesIvyBridge, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
318	// Haswell microarchitecture based processors.
319	{ .Name: {"haswell"}, .Kind: CK_Haswell, .KeyFeature: FEATURE_AVX2, .Features: FeaturesHaswell, .Mangling: `'V'`, .OnlyForCPUDispatchSpecific: false },
320	{ .Name: {"core-avx2"}, .Kind: CK_Haswell, .KeyFeature: FEATURE_AVX2, .Features: FeaturesHaswell, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
321	{ .Name: {"core_4th_gen_avx"}, .Kind: CK_Haswell, .KeyFeature: FEATURE_AVX2, .Features: FeaturesHaswell, .Mangling: `'V'`, .OnlyForCPUDispatchSpecific: true },
322	{ .Name: {"core_4th_gen_avx_tsx"}, .Kind: CK_Haswell, .KeyFeature: FEATURE_AVX2, .Features: FeaturesHaswell, .Mangling: `'W'`, .OnlyForCPUDispatchSpecific: true },
323	// Broadwell microarchitecture based processors.
324	{ .Name: {"broadwell"}, .Kind: CK_Broadwell, .KeyFeature: FEATURE_AVX2, .Features: FeaturesBroadwell, .Mangling: `'X'`, .OnlyForCPUDispatchSpecific: false },
325	{ .Name: {"core_5th_gen_avx"}, .Kind: CK_Broadwell, .KeyFeature: FEATURE_AVX2, .Features: FeaturesBroadwell, .Mangling: `'X'`, .OnlyForCPUDispatchSpecific: true },
326	{ .Name: {"core_5th_gen_avx_tsx"}, .Kind: CK_Broadwell, .KeyFeature: FEATURE_AVX2, .Features: FeaturesBroadwell, .Mangling: `'Y'`, .OnlyForCPUDispatchSpecific: true },
327	// Skylake client microarchitecture based processors.
328	{ .Name: {"skylake"}, .Kind: CK_SkylakeClient, .KeyFeature: FEATURE_AVX2, .Features: FeaturesSkylakeClient, .Mangling: `'b'`, .OnlyForCPUDispatchSpecific: false },
329	// Skylake server microarchitecture based processors.
330	{ .Name: {"skylake-avx512"}, .Kind: CK_SkylakeServer, .KeyFeature: FEATURE_AVX512F, .Features: FeaturesSkylakeServer, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
331	{ .Name: {"skx"}, .Kind: CK_SkylakeServer, .KeyFeature: FEATURE_AVX512F, .Features: FeaturesSkylakeServer, .Mangling: `'a'`, .OnlyForCPUDispatchSpecific: false },
332	{ .Name: {"skylake_avx512"}, .Kind: CK_SkylakeServer, .KeyFeature: FEATURE_AVX512F, .Features: FeaturesSkylakeServer, .Mangling: `'a'`, .OnlyForCPUDispatchSpecific: true },
333	// Cascadelake Server microarchitecture based processors.
334	{ .Name: {"cascadelake"}, .Kind: CK_Cascadelake, .KeyFeature: FEATURE_AVX512VNNI, .Features: FeaturesCascadeLake, .Mangling: `'o'`, .OnlyForCPUDispatchSpecific: false },
335	// Cooperlake Server microarchitecture based processors.
336	{ .Name: {"cooperlake"}, .Kind: CK_Cooperlake, .KeyFeature: FEATURE_AVX512BF16, .Features: FeaturesCooperLake, .Mangling: `'f'`, .OnlyForCPUDispatchSpecific: false },
337	// Cannonlake client microarchitecture based processors.
338	{ .Name: {"cannonlake"}, .Kind: CK_Cannonlake, .KeyFeature: FEATURE_AVX512VBMI, .Features: FeaturesCannonlake, .Mangling: `'e'`, .OnlyForCPUDispatchSpecific: false },
339	// Icelake client microarchitecture based processors.
340	{ .Name: {"icelake-client"}, .Kind: CK_IcelakeClient, .KeyFeature: FEATURE_AVX512VBMI2, .Features: FeaturesICLClient, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
341	{ .Name: {"icelake_client"}, .Kind: CK_IcelakeClient, .KeyFeature: FEATURE_AVX512VBMI2, .Features: FeaturesICLClient, .Mangling: `'k'`, .OnlyForCPUDispatchSpecific: true },
342	// Rocketlake microarchitecture based processors.
343	{ .Name: {"rocketlake"}, .Kind: CK_Rocketlake, .KeyFeature: FEATURE_AVX512VBMI2, .Features: FeaturesRocketlake, .Mangling: `'k'`, .OnlyForCPUDispatchSpecific: false },
344	// Icelake server microarchitecture based processors.
345	{ .Name: {"icelake-server"}, .Kind: CK_IcelakeServer, .KeyFeature: FEATURE_AVX512VBMI2, .Features: FeaturesICLServer, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
346	{ .Name: {"icelake_server"}, .Kind: CK_IcelakeServer, .KeyFeature: FEATURE_AVX512VBMI2, .Features: FeaturesICLServer, .Mangling: `'k'`, .OnlyForCPUDispatchSpecific: true },
347	// Tigerlake microarchitecture based processors.
348	{ .Name: {"tigerlake"}, .Kind: CK_Tigerlake, .KeyFeature: FEATURE_AVX512VP2INTERSECT, .Features: FeaturesTigerlake, .Mangling: `'l'`, .OnlyForCPUDispatchSpecific: false },
349	// Sapphire Rapids microarchitecture based processors.
350	{ .Name: {"sapphirerapids"}, .Kind: CK_SapphireRapids, .KeyFeature: FEATURE_AVX512FP16, .Features: FeaturesSapphireRapids, .Mangling: `'n'`, .OnlyForCPUDispatchSpecific: false },
351	// Alderlake microarchitecture based processors.
352	{ .Name: {"alderlake"}, .Kind: CK_Alderlake, .KeyFeature: FEATURE_AVX2, .Features: FeaturesAlderlake, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
353	// Raptorlake microarchitecture based processors.
354	{ .Name: {"raptorlake"}, .Kind: CK_Raptorlake, .KeyFeature: FEATURE_AVX2, .Features: FeaturesAlderlake, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
355	// Meteorlake microarchitecture based processors.
356	{ .Name: {"meteorlake"}, .Kind: CK_Meteorlake, .KeyFeature: FEATURE_AVX2, .Features: FeaturesAlderlake, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
357	// Arrowlake microarchitecture based processors.
358	{ .Name: {"arrowlake"}, .Kind: CK_Arrowlake, .KeyFeature: FEATURE_AVX2, .Features: FeaturesSierraforest, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
359	{ .Name: {"arrowlake-s"}, .Kind: CK_ArrowlakeS, .KeyFeature: FEATURE_AVX2, .Features: FeaturesArrowlakeS, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
360	{ .Name: {"arrowlake_s"}, .Kind: CK_ArrowlakeS, .KeyFeature: FEATURE_AVX2, .Features: FeaturesArrowlakeS, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: true },
361	// Lunarlake microarchitecture based processors.
362	{ .Name: {"lunarlake"}, .Kind: CK_Lunarlake, .KeyFeature: FEATURE_AVX2, .Features: FeaturesArrowlakeS, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
363	// Gracemont microarchitecture based processors.
364	{ .Name: {"gracemont"}, .Kind: CK_Gracemont, .KeyFeature: FEATURE_AVX2, .Features: FeaturesAlderlake, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
365	// Pantherlake microarchitecture based processors.
366	{ .Name: {"pantherlake"}, .Kind: CK_Lunarlake, .KeyFeature: FEATURE_AVX2, .Features: FeaturesPantherlake, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
367	// Sierraforest microarchitecture based processors.
368	{ .Name: {"sierraforest"}, .Kind: CK_Sierraforest, .KeyFeature: FEATURE_AVX2, .Features: FeaturesSierraforest, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
369	// Grandridge microarchitecture based processors.
370	{ .Name: {"grandridge"}, .Kind: CK_Grandridge, .KeyFeature: FEATURE_AVX2, .Features: FeaturesSierraforest, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
371	// Granite Rapids microarchitecture based processors.
372	{ .Name: {"graniterapids"}, .Kind: CK_Graniterapids, .KeyFeature: FEATURE_AVX512FP16, .Features: FeaturesGraniteRapids, .Mangling: `'n'`, .OnlyForCPUDispatchSpecific: false },
373	// Granite Rapids D microarchitecture based processors.
374	{ .Name: {"graniterapids-d"}, .Kind: CK_GraniterapidsD, .KeyFeature: FEATURE_AVX512FP16, .Features: FeaturesGraniteRapids \| FeatureAMX_COMPLEX, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
375	{ .Name: {"graniterapids_d"}, .Kind: CK_GraniterapidsD, .KeyFeature: FEATURE_AVX512FP16, .Features: FeaturesGraniteRapids \| FeatureAMX_COMPLEX, .Mangling: `'n'`, .OnlyForCPUDispatchSpecific: true },
376	// Emerald Rapids microarchitecture based processors.
377	{ .Name: {"emeraldrapids"}, .Kind: CK_Emeraldrapids, .KeyFeature: FEATURE_AVX512FP16, .Features: FeaturesSapphireRapids, .Mangling: `'n'`, .OnlyForCPUDispatchSpecific: false },
378	// Clearwaterforest microarchitecture based processors.
379	{ .Name: {"clearwaterforest"}, .Kind: CK_Lunarlake, .KeyFeature: FEATURE_AVX2, .Features: FeaturesClearwaterforest, .Mangling: `'p'`, .OnlyForCPUDispatchSpecific: false },
380	// Knights Landing processor.
381	{ .Name: {"knl"}, .Kind: CK_KNL, .KeyFeature: FEATURE_AVX512F, .Features: FeaturesKNL, .Mangling: `'Z'`, .OnlyForCPUDispatchSpecific: false },
382	{ .Name: {"mic_avx512"}, .Kind: CK_KNL, .KeyFeature: FEATURE_AVX512F, .Features: FeaturesKNL, .Mangling: `'Z'`, .OnlyForCPUDispatchSpecific: true },
383	// Knights Mill processor.
384	{ .Name: {"knm"}, .Kind: CK_KNM, .KeyFeature: FEATURE_AVX5124FMAPS, .Features: FeaturesKNM, .Mangling: `'j'`, .OnlyForCPUDispatchSpecific: false },
385	// Lakemont microarchitecture based processors.
386	{ .Name: {"lakemont"}, .Kind: CK_Lakemont, .KeyFeature: ~`0U`, .Features: FeatureCMPXCHG8B, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
387	// K6 architecture processors.
388	{ .Name: {"k6"}, .Kind: CK_K6, .KeyFeature: ~`0U`, .Features: FeaturesK6, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
389	{ .Name: {"k6-2"}, .Kind: CK_K6_2, .KeyFeature: ~`0U`, .Features: FeaturesK6 \| Feature3DNOW, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
390	{ .Name: {"k6-3"}, .Kind: CK_K6_3, .KeyFeature: ~`0U`, .Features: FeaturesK6 \| Feature3DNOW, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
391	// K7 architecture processors.
392	{ .Name: {"athlon"}, .Kind: CK_Athlon, .KeyFeature: ~`0U`, .Features: FeaturesAthlon, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
393	{ .Name: {"athlon-tbird"}, .Kind: CK_Athlon, .KeyFeature: ~`0U`, .Features: FeaturesAthlon, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
394	{ .Name: {"athlon-xp"}, .Kind: CK_AthlonXP, .KeyFeature: ~`0U`, .Features: FeaturesAthlonXP, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
395	{ .Name: {"athlon-mp"}, .Kind: CK_AthlonXP, .KeyFeature: ~`0U`, .Features: FeaturesAthlonXP, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
396	{ .Name: {"athlon-4"}, .Kind: CK_AthlonXP, .KeyFeature: ~`0U`, .Features: FeaturesAthlonXP, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
397	// K8 architecture processors.
398	{ .Name: {"k8"}, .Kind: CK_K8, .KeyFeature: ~`0U`, .Features: FeaturesK8, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
399	{ .Name: {"athlon64"}, .Kind: CK_K8, .KeyFeature: ~`0U`, .Features: FeaturesK8, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
400	{ .Name: {"athlon-fx"}, .Kind: CK_K8, .KeyFeature: ~`0U`, .Features: FeaturesK8, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
401	{ .Name: {"opteron"}, .Kind: CK_K8, .KeyFeature: ~`0U`, .Features: FeaturesK8, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
402	{ .Name: {"k8-sse3"}, .Kind: CK_K8SSE3, .KeyFeature: ~`0U`, .Features: FeaturesK8SSE3, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
403	{ .Name: {"athlon64-sse3"}, .Kind: CK_K8SSE3, .KeyFeature: ~`0U`, .Features: FeaturesK8SSE3, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
404	{ .Name: {"opteron-sse3"}, .Kind: CK_K8SSE3, .KeyFeature: ~`0U`, .Features: FeaturesK8SSE3, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
405	{ .Name: {"amdfam10"}, .Kind: CK_AMDFAM10, .KeyFeature: FEATURE_SSE4_A, .Features: FeaturesAMDFAM10, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
406	{ .Name: {"barcelona"}, .Kind: CK_AMDFAM10, .KeyFeature: FEATURE_SSE4_A, .Features: FeaturesAMDFAM10, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
407	// Bobcat architecture processors.
408	{ .Name: {"btver1"}, .Kind: CK_BTVER1, .KeyFeature: FEATURE_SSE4_A, .Features: FeaturesBTVER1, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
409	{ .Name: {"btver2"}, .Kind: CK_BTVER2, .KeyFeature: FEATURE_BMI, .Features: FeaturesBTVER2, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
410	// Bulldozer architecture processors.
411	{ .Name: {"bdver1"}, .Kind: CK_BDVER1, .KeyFeature: FEATURE_XOP, .Features: FeaturesBDVER1, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
412	{ .Name: {"bdver2"}, .Kind: CK_BDVER2, .KeyFeature: FEATURE_FMA, .Features: FeaturesBDVER2, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
413	{ .Name: {"bdver3"}, .Kind: CK_BDVER3, .KeyFeature: FEATURE_FMA, .Features: FeaturesBDVER3, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
414	{ .Name: {"bdver4"}, .Kind: CK_BDVER4, .KeyFeature: FEATURE_AVX2, .Features: FeaturesBDVER4, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
415	// Zen architecture processors.
416	{ .Name: {"znver1"}, .Kind: CK_ZNVER1, .KeyFeature: FEATURE_AVX2, .Features: FeaturesZNVER1, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
417	{ .Name: {"znver2"}, .Kind: CK_ZNVER2, .KeyFeature: FEATURE_AVX2, .Features: FeaturesZNVER2, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
418	{ .Name: {"znver3"}, .Kind: CK_ZNVER3, .KeyFeature: FEATURE_AVX2, .Features: FeaturesZNVER3, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
419	{ .Name: {"znver4"}, .Kind: CK_ZNVER4, .KeyFeature: FEATURE_AVX512VBMI2, .Features: FeaturesZNVER4, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
420	// Generic 64-bit processor.
421	{ .Name: {"x86-64"}, .Kind: CK_x86_64, .KeyFeature: FEATURE_SSE2 , .Features: FeaturesX86_64, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
422	{ .Name: {"x86-64-v2"}, .Kind: CK_x86_64_v2, .KeyFeature: FEATURE_SSE4_2 , .Features: FeaturesX86_64_V2, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
423	{ .Name: {"x86-64-v3"}, .Kind: CK_x86_64_v3, .KeyFeature: FEATURE_AVX2, .Features: FeaturesX86_64_V3, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
424	{ .Name: {"x86-64-v4"}, .Kind: CK_x86_64_v4, .KeyFeature: FEATURE_AVX512VL, .Features: FeaturesX86_64_V4, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
425	// Geode processors.
426	{ .Name: {"geode"}, .Kind: CK_Geode, .KeyFeature: ~`0U`, .Features: FeaturesGeode, .Mangling: `'\0'`, .OnlyForCPUDispatchSpecific: false },
427	};
428	// clang-format on
429
430	constexpr const char *NoTuneList[] = {"x86-64-v2", "x86-64-v3", "x86-64-v4"};
431
432	X86::CPUKind llvm::X86::parseArchX86(StringRef CPU, bool Only64Bit) {
433	for (const auto &P : Processors)
434	if (!P.OnlyForCPUDispatchSpecific && P.Name == CPU &&
435	(P.Features [FEATURE_64BIT] \|\| !Only64Bit))
436	return P.Kind;
437
438	return CK_None;
439	}
440
441	X86::CPUKind llvm::X86::parseTuneCPU(StringRef CPU, bool Only64Bit) {
442	if (llvm::is_contained(Range: NoTuneList, Element: CPU))
443	return CK_None;
444	return parseArchX86(CPU, Only64Bit);
445	}
446
447	void llvm::X86::fillValidCPUArchList(SmallVectorImpl<StringRef> &Values,
448	bool Only64Bit) {
449	for (const auto &P : Processors)
450	if (!P.OnlyForCPUDispatchSpecific && !P.Name.empty() &&
451	(P.Features [FEATURE_64BIT] \|\| !Only64Bit))
452	Values.emplace_back(Args: P.Name);
453	}
454
455	void llvm::X86::fillValidTuneCPUList(SmallVectorImpl<StringRef> &Values,
456	bool Only64Bit) {
457	for (const ProcInfo &P : Processors)
458	if (!P.OnlyForCPUDispatchSpecific && !P.Name.empty() &&
459	(P.Features [FEATURE_64BIT] \|\| !Only64Bit) &&
460	!llvm::is_contained(Range: NoTuneList, Element: P.Name))
461	Values.emplace_back(Args: P.Name);
462	}
463
464	ProcessorFeatures llvm::X86::getKeyFeature(X86::CPUKind Kind) {
465	// FIXME: Can we avoid a linear search here? The table might be sorted by
466	// CPUKind so we could binary search?
467	for (const auto &P : Processors) {
468	if (P.Kind == Kind) {
469	assert(P.KeyFeature != ~`0U` && "Processor does not have a key feature.");
470	return static_cast<ProcessorFeatures>(P.KeyFeature);
471	}
472	}
473
474	llvm_unreachable("Unable to find CPU kind!");
475	}
476
477	// Features with no dependencies.
478	constexpr FeatureBitset ImpliedFeatures64BIT = {};
479	constexpr FeatureBitset ImpliedFeaturesADX = {};
480	constexpr FeatureBitset ImpliedFeaturesBMI = {};
481	constexpr FeatureBitset ImpliedFeaturesBMI2 = {};
482	constexpr FeatureBitset ImpliedFeaturesCLDEMOTE = {};
483	constexpr FeatureBitset ImpliedFeaturesCLFLUSHOPT = {};
484	constexpr FeatureBitset ImpliedFeaturesCLWB = {};
485	constexpr FeatureBitset ImpliedFeaturesCLZERO = {};
486	constexpr FeatureBitset ImpliedFeaturesCMOV = {};
487	constexpr FeatureBitset ImpliedFeaturesCMPXCHG16B = {};
488	constexpr FeatureBitset ImpliedFeaturesCMPXCHG8B = {};
489	constexpr FeatureBitset ImpliedFeaturesCRC32 = {};
490	constexpr FeatureBitset ImpliedFeaturesENQCMD = {};
491	constexpr FeatureBitset ImpliedFeaturesFSGSBASE = {};
492	constexpr FeatureBitset ImpliedFeaturesFXSR = {};
493	constexpr FeatureBitset ImpliedFeaturesINVPCID = {};
494	constexpr FeatureBitset ImpliedFeaturesLWP = {};
495	constexpr FeatureBitset ImpliedFeaturesLZCNT = {};
496	constexpr FeatureBitset ImpliedFeaturesMWAITX = {};
497	constexpr FeatureBitset ImpliedFeaturesMOVBE = {};
498	constexpr FeatureBitset ImpliedFeaturesMOVDIR64B = {};
499	constexpr FeatureBitset ImpliedFeaturesMOVDIRI = {};
500	constexpr FeatureBitset ImpliedFeaturesPCONFIG = {};
501	constexpr FeatureBitset ImpliedFeaturesPOPCNT = {};
502	constexpr FeatureBitset ImpliedFeaturesPKU = {};
503	constexpr FeatureBitset ImpliedFeaturesPREFETCHWT1 = {};
504	constexpr FeatureBitset ImpliedFeaturesPRFCHW = {};
505	constexpr FeatureBitset ImpliedFeaturesPTWRITE = {};
506	constexpr FeatureBitset ImpliedFeaturesRDPID = {};
507	constexpr FeatureBitset ImpliedFeaturesRDPRU = {};
508	constexpr FeatureBitset ImpliedFeaturesRDRND = {};
509	constexpr FeatureBitset ImpliedFeaturesRDSEED = {};
510	constexpr FeatureBitset ImpliedFeaturesRTM = {};
511	constexpr FeatureBitset ImpliedFeaturesSAHF = {};
512	constexpr FeatureBitset ImpliedFeaturesSERIALIZE = {};
513	constexpr FeatureBitset ImpliedFeaturesSGX = {};
514	constexpr FeatureBitset ImpliedFeaturesSHSTK = {};
515	constexpr FeatureBitset ImpliedFeaturesTBM = {};
516	constexpr FeatureBitset ImpliedFeaturesTSXLDTRK = {};
517	constexpr FeatureBitset ImpliedFeaturesUINTR = {};
518	constexpr FeatureBitset ImpliedFeaturesUSERMSR = {};
519	constexpr FeatureBitset ImpliedFeaturesWAITPKG = {};
520	constexpr FeatureBitset ImpliedFeaturesWBNOINVD = {};
521	constexpr FeatureBitset ImpliedFeaturesVZEROUPPER = {};
522	constexpr FeatureBitset ImpliedFeaturesX87 = {};
523	constexpr FeatureBitset ImpliedFeaturesXSAVE = {};
524
525	// Not really CPU features, but need to be in the table because clang uses
526	// target features to communicate them to the backend.
527	constexpr FeatureBitset ImpliedFeaturesRETPOLINE_EXTERNAL_THUNK = {};
528	constexpr FeatureBitset ImpliedFeaturesRETPOLINE_INDIRECT_BRANCHES = {};
529	constexpr FeatureBitset ImpliedFeaturesRETPOLINE_INDIRECT_CALLS = {};
530	constexpr FeatureBitset ImpliedFeaturesLVI_CFI = {};
531	constexpr FeatureBitset ImpliedFeaturesLVI_LOAD_HARDENING = {};
532
533	// XSAVE features are dependent on basic XSAVE.
534	constexpr FeatureBitset ImpliedFeaturesXSAVEC = FeatureXSAVE;
535	constexpr FeatureBitset ImpliedFeaturesXSAVEOPT = FeatureXSAVE;
536	constexpr FeatureBitset ImpliedFeaturesXSAVES = FeatureXSAVE;
537
538	// MMX->3DNOW->3DNOWA chain.
539	constexpr FeatureBitset ImpliedFeaturesMMX = {};
540	constexpr FeatureBitset ImpliedFeatures3DNOW = FeatureMMX;
541	constexpr FeatureBitset ImpliedFeatures3DNOWA = Feature3DNOW;
542
543	// SSE/AVX/AVX512F chain.
544	constexpr FeatureBitset ImpliedFeaturesSSE = {};
545	constexpr FeatureBitset ImpliedFeaturesSSE2 = FeatureSSE;
546	constexpr FeatureBitset ImpliedFeaturesSSE3 = FeatureSSE2;
547	constexpr FeatureBitset ImpliedFeaturesSSSE3 = FeatureSSE3;
548	constexpr FeatureBitset ImpliedFeaturesSSE4_1 = FeatureSSSE3;
549	constexpr FeatureBitset ImpliedFeaturesSSE4_2 = FeatureSSE4_1;
550	constexpr FeatureBitset ImpliedFeaturesAVX = FeatureSSE4_2;
551	constexpr FeatureBitset ImpliedFeaturesAVX2 = FeatureAVX;
552	constexpr FeatureBitset ImpliedFeaturesEVEX512 = {};
553	constexpr FeatureBitset ImpliedFeaturesAVX512F =
554	FeatureAVX2 \| FeatureF16C \| FeatureFMA;
555
556	// Vector extensions that build on SSE or AVX.
557	constexpr FeatureBitset ImpliedFeaturesAES = FeatureSSE2;
558	constexpr FeatureBitset ImpliedFeaturesF16C = FeatureAVX;
559	constexpr FeatureBitset ImpliedFeaturesFMA = FeatureAVX;
560	constexpr FeatureBitset ImpliedFeaturesGFNI = FeatureSSE2;
561	constexpr FeatureBitset ImpliedFeaturesPCLMUL = FeatureSSE2;
562	constexpr FeatureBitset ImpliedFeaturesSHA = FeatureSSE2;
563	constexpr FeatureBitset ImpliedFeaturesVAES = FeatureAES \| FeatureAVX2;
564	constexpr FeatureBitset ImpliedFeaturesVPCLMULQDQ = FeatureAVX \| FeaturePCLMUL;
565	constexpr FeatureBitset ImpliedFeaturesSM3 = FeatureAVX;
566	constexpr FeatureBitset ImpliedFeaturesSM4 = FeatureAVX2;
567
568	// AVX512 features.
569	constexpr FeatureBitset ImpliedFeaturesAVX512CD = FeatureAVX512F;
570	constexpr FeatureBitset ImpliedFeaturesAVX512BW = FeatureAVX512F;
571	constexpr FeatureBitset ImpliedFeaturesAVX512DQ = FeatureAVX512F;
572	constexpr FeatureBitset ImpliedFeaturesAVX512ER = FeatureAVX512F;
573	constexpr FeatureBitset ImpliedFeaturesAVX512PF = FeatureAVX512F;
574	constexpr FeatureBitset ImpliedFeaturesAVX512VL = FeatureAVX512F;
575
576	constexpr FeatureBitset ImpliedFeaturesAVX512BF16 = FeatureAVX512BW;
577	constexpr FeatureBitset ImpliedFeaturesAVX512BITALG = FeatureAVX512BW;
578	constexpr FeatureBitset ImpliedFeaturesAVX512IFMA = FeatureAVX512F;
579	constexpr FeatureBitset ImpliedFeaturesAVX512VNNI = FeatureAVX512F;
580	constexpr FeatureBitset ImpliedFeaturesAVX512VPOPCNTDQ = FeatureAVX512F;
581	constexpr FeatureBitset ImpliedFeaturesAVX512VBMI = FeatureAVX512BW;
582	constexpr FeatureBitset ImpliedFeaturesAVX512VBMI2 = FeatureAVX512BW;
583	constexpr FeatureBitset ImpliedFeaturesAVX512VP2INTERSECT = FeatureAVX512F;
584
585	// FIXME: These two aren't really implemented and just exist in the feature
586	// list for __builtin_cpu_supports. So omit their dependencies.
587	constexpr FeatureBitset ImpliedFeaturesAVX5124FMAPS = {};
588	constexpr FeatureBitset ImpliedFeaturesAVX5124VNNIW = {};
589
590	// SSE4_A->FMA4->XOP chain.
591	constexpr FeatureBitset ImpliedFeaturesSSE4_A = FeatureSSE3;
592	constexpr FeatureBitset ImpliedFeaturesFMA4 = FeatureAVX \| FeatureSSE4_A;
593	constexpr FeatureBitset ImpliedFeaturesXOP = FeatureFMA4;
594
595	// AMX Features
596	constexpr FeatureBitset ImpliedFeaturesAMX_TILE = {};
597	constexpr FeatureBitset ImpliedFeaturesAMX_BF16 = FeatureAMX_TILE;
598	constexpr FeatureBitset ImpliedFeaturesAMX_FP16 = FeatureAMX_TILE;
599	constexpr FeatureBitset ImpliedFeaturesAMX_INT8 = FeatureAMX_TILE;
600	constexpr FeatureBitset ImpliedFeaturesAMX_COMPLEX = FeatureAMX_TILE;
601	constexpr FeatureBitset ImpliedFeaturesHRESET = {};
602
603	constexpr FeatureBitset ImpliedFeaturesPREFETCHI = {};
604	constexpr FeatureBitset ImpliedFeaturesCMPCCXADD = {};
605	constexpr FeatureBitset ImpliedFeaturesRAOINT = {};
606	constexpr FeatureBitset ImpliedFeaturesAVXVNNIINT16 = FeatureAVX2;
607	constexpr FeatureBitset ImpliedFeaturesAVXVNNIINT8 = FeatureAVX2;
608	constexpr FeatureBitset ImpliedFeaturesAVXIFMA = FeatureAVX2;
609	constexpr FeatureBitset ImpliedFeaturesAVXNECONVERT = FeatureAVX2;
610	constexpr FeatureBitset ImpliedFeaturesSHA512 = FeatureAVX2;
611	constexpr FeatureBitset ImpliedFeaturesAVX512FP16 =
612	FeatureAVX512BW \| FeatureAVX512DQ \| FeatureAVX512VL;
613	// Key Locker Features
614	constexpr FeatureBitset ImpliedFeaturesKL = FeatureSSE2;
615	constexpr FeatureBitset ImpliedFeaturesWIDEKL = FeatureKL;
616
617	// AVXVNNI Features
618	constexpr FeatureBitset ImpliedFeaturesAVXVNNI = FeatureAVX2;
619
620	// AVX10 Features
621	constexpr FeatureBitset ImpliedFeaturesAVX10_1 =
622	FeatureAVX512CD \| FeatureAVX512VBMI \| FeatureAVX512IFMA \|
623	FeatureAVX512VNNI \| FeatureAVX512BF16 \| FeatureAVX512VPOPCNTDQ \|
624	FeatureAVX512VBMI2 \| FeatureAVX512BITALG \| FeatureVAES \| FeatureVPCLMULQDQ \|
625	FeatureAVX512FP16;
626	constexpr FeatureBitset ImpliedFeaturesAVX10_1_512 =
627	FeatureAVX10_1 \| FeatureEVEX512;
628
629	// APX Features
630	constexpr FeatureBitset ImpliedFeaturesEGPR = {};
631	constexpr FeatureBitset ImpliedFeaturesPush2Pop2 = {};
632	constexpr FeatureBitset ImpliedFeaturesPPX = {};
633	constexpr FeatureBitset ImpliedFeaturesNDD = {};
634	constexpr FeatureBitset ImpliedFeaturesCCMP = {};
635	constexpr FeatureBitset ImpliedFeaturesCF = {};
636
637	constexpr FeatureInfo FeatureInfos[X86::CPU_FEATURE_MAX] = {
638	#define X86_FEATURE(ENUM, STR) {{"+" STR}, ImpliedFeatures##ENUM},
639	#include "llvm/TargetParser/X86TargetParser.def"
640	};
641
642	void llvm::X86::getFeaturesForCPU(StringRef CPU,
643	SmallVectorImpl<StringRef> &EnabledFeatures,
644	bool NeedPlus) {
645	auto I = llvm::find_if(Range: Processors,
646	P: [&](const ProcInfo &P) { return P.Name == CPU; });
647	assert(I != std::end(Processors) && "Processor not found!");
648
649	FeatureBitset Bits = I->Features;
650
651	// Remove the 64-bit feature which we only use to validate if a CPU can
652	// be used with 64-bit mode.
653	Bits &= ~Feature64BIT;
654
655	// Add the string version of all set bits.
656	for (unsigned i = `0`; i != CPU_FEATURE_MAX; ++i)
657	if (Bits [i] && !FeatureInfos[i].getName(WithPlus: NeedPlus).empty())
658	EnabledFeatures.push_back(Elt: FeatureInfos[i].getName(WithPlus: NeedPlus));
659	}
660
661	// For each feature that is (transitively) implied by this feature, set it.
662	static void getImpliedEnabledFeatures(FeatureBitset &Bits,
663	const FeatureBitset &Implies) {
664	// Fast path: Implies is often empty.
665	if (!Implies.any())
666	return;
667	FeatureBitset Prev;
668	Bits \|= Implies;
669	do {
670	Prev = Bits;
671	for (unsigned i = CPU_FEATURE_MAX; i;)
672	if (Bits [--i])
673	Bits \|= FeatureInfos[i].ImpliedFeatures;
674	} while (Prev != Bits);
675	}
676
677	/// Create bit vector of features that are implied disabled if the feature
678	/// passed in Value is disabled.
679	static void getImpliedDisabledFeatures(FeatureBitset &Bits, unsigned Value) {
680	// Check all features looking for any dependent on this feature. If we find
681	// one, mark it and recursively find any feature that depend on it.
682	FeatureBitset Prev;
683	Bits.set(Value);
684	do {
685	Prev = Bits;
686	for (unsigned i = `0`; i != CPU_FEATURE_MAX; ++i)
687	if ((FeatureInfos[i].ImpliedFeatures & Bits).any())
688	Bits.set(i);
689	} while (Prev != Bits);
690	}
691
692	void llvm::X86::updateImpliedFeatures(
693	StringRef Feature, bool Enabled,
694	StringMap<bool> &Features) {
695	auto I = llvm::find_if(Range: FeatureInfos, P: [&](const FeatureInfo &FI) {
696	return FI.getName() == Feature;
697	});
698	if (I == std::end(arr: FeatureInfos)) {
699	// FIXME: This shouldn't happen, but may not have all features in the table
700	// yet.
701	return;
702	}
703
704	FeatureBitset ImpliedBits;
705	if (Enabled)
706	getImpliedEnabledFeatures(Bits&: ImpliedBits, Implies: I->ImpliedFeatures);
707	else
708	getImpliedDisabledFeatures(Bits&: ImpliedBits,
709	Value: std::distance(first: std::begin(arr: FeatureInfos), last: I));
710
711	// Update the map entry for all implied features.
712	for (unsigned i = `0`; i != CPU_FEATURE_MAX; ++i)
713	if (ImpliedBits [i] && !FeatureInfos[i].getName().empty())
714	Features [FeatureInfos[i].getName()] = Enabled;
715	}
716
717	char llvm::X86::getCPUDispatchMangling(StringRef CPU) {
718	auto I = llvm::find_if(Range: Processors,
719	P: [&](const ProcInfo &P) { return P.Name == CPU; });
720	assert(I != std::end(Processors) && "Processor not found!");
721	assert(I->Mangling != `'\0'` && "Processor dooesn't support function multiversion!");
722	return I->Mangling;
723	}
724
725	bool llvm::X86::validateCPUSpecificCPUDispatch(StringRef Name) {
726	auto I = llvm::find_if(Range: Processors,
727	P: [&](const ProcInfo &P) { return P.Name == Name; });
728	return I != std::end(arr: Processors);
729	}
730
731	std::array<uint32_t, `4`>
732	llvm::X86::getCpuSupportsMask(ArrayRef<StringRef> FeatureStrs) {
733	// Processor features and mapping to processor feature value.
734	std::array<uint32_t, `4`> FeatureMask{};
735	for (StringRef FeatureStr : FeatureStrs) {
736	unsigned Feature = StringSwitch<unsigned>(FeatureStr)
737	#define X86_FEATURE_COMPAT(ENUM, STR, PRIORITY) \
738	.Case(STR, llvm::X86::FEATURE_##ENUM)
739	#define X86_MICROARCH_LEVEL(ENUM, STR, PRIORITY) \
740	.Case(STR, llvm::X86::FEATURE_##ENUM)
741	#include "llvm/TargetParser/X86TargetParser.def"
742	;
743	assert(Feature / `32` < FeatureMask.size());
744	FeatureMask [Feature / `32`] \|= `1U` << (Feature % `32`);
745	}
746	return FeatureMask;
747	}
748
749	unsigned llvm::X86::getFeaturePriority(ProcessorFeatures Feat) {
750	#ifndef NDEBUG
751	// Check that priorities are set properly in the .def file. We expect that
752	// "compat" features are assigned non-duplicate consecutive priorities
753	// starting from one (1, ..., 37) and multiple zeros.
754	#define X86_FEATURE_COMPAT(ENUM, STR, PRIORITY) PRIORITY,
755	unsigned Priorities[] = {
756	#include "llvm/TargetParser/X86TargetParser.def"
757	};
758	std::array<unsigned, std::size(Priorities)> HelperList;
759	const size_t MaxPriority = `37`;
760	std::iota(first: HelperList.begin(), last: HelperList.begin() + MaxPriority + `1`, value: `0`);
761	for (size_t i = MaxPriority + `1`; i != std::size(Priorities); ++i)
762	HelperList [i] = `0`;
763	assert(std::is_permutation(HelperList.begin(), HelperList.end(),
764	std::begin(Priorities), std::end(Priorities)) &&
765	"Priorities don't form consecutive range!");
766	#endif
767
768	switch (Feat) {
769	#define X86_FEATURE_COMPAT(ENUM, STR, PRIORITY) \
770	case X86::FEATURE_##ENUM: \
771	return PRIORITY;
772	#include "llvm/TargetParser/X86TargetParser.def"
773	default:
774	llvm_unreachable("No Feature Priority for non-CPUSupports Features");
775	}
776	}
777

source code of llvm/lib/TargetParser/X86TargetParser.cpp