17#include "llvm/ADT/StringRef.h"
18#include "llvm/ADT/StringSwitch.h"
19#include "llvm/TargetParser/X86TargetParser.h"
34#define GET_BUILTIN_STR_TABLE
35#include "clang/Basic/BuiltinsX86.inc"
36#undef GET_BUILTIN_STR_TABLE
39#define GET_BUILTIN_INFOS
40#include "clang/Basic/BuiltinsX86.inc"
41#undef GET_BUILTIN_INFOS
45#define GET_BUILTIN_PREFIXED_INFOS
46#include "clang/Basic/BuiltinsX86.inc"
47#undef GET_BUILTIN_PREFIXED_INFOS
54#define GET_BUILTIN_STR_TABLE
55#include "clang/Basic/BuiltinsX86_64.inc"
56#undef GET_BUILTIN_STR_TABLE
59#define GET_BUILTIN_INFOS
60#include "clang/Basic/BuiltinsX86_64.inc"
61#undef GET_BUILTIN_INFOS
65#define GET_BUILTIN_PREFIXED_INFOS
66#include "clang/Basic/BuiltinsX86_64.inc"
67#undef GET_BUILTIN_PREFIXED_INFOS
74 "ax",
"dx",
"cx",
"bx",
"si",
"di",
"bp",
"sp",
75 "st",
"st(1)",
"st(2)",
"st(3)",
"st(4)",
"st(5)",
"st(6)",
"st(7)",
76 "argp",
"flags",
"fpcr",
"fpsr",
"dirflag",
"frame",
"xmm0",
"xmm1",
77 "xmm2",
"xmm3",
"xmm4",
"xmm5",
"xmm6",
"xmm7",
"mm0",
"mm1",
78 "mm2",
"mm3",
"mm4",
"mm5",
"mm6",
"mm7",
"r8",
"r9",
79 "r10",
"r11",
"r12",
"r13",
"r14",
"r15",
"xmm8",
"xmm9",
80 "xmm10",
"xmm11",
"xmm12",
"xmm13",
"xmm14",
"xmm15",
"ymm0",
"ymm1",
81 "ymm2",
"ymm3",
"ymm4",
"ymm5",
"ymm6",
"ymm7",
"ymm8",
"ymm9",
82 "ymm10",
"ymm11",
"ymm12",
"ymm13",
"ymm14",
"ymm15",
"xmm16",
"xmm17",
83 "xmm18",
"xmm19",
"xmm20",
"xmm21",
"xmm22",
"xmm23",
"xmm24",
"xmm25",
84 "xmm26",
"xmm27",
"xmm28",
"xmm29",
"xmm30",
"xmm31",
"ymm16",
"ymm17",
85 "ymm18",
"ymm19",
"ymm20",
"ymm21",
"ymm22",
"ymm23",
"ymm24",
"ymm25",
86 "ymm26",
"ymm27",
"ymm28",
"ymm29",
"ymm30",
"ymm31",
"zmm0",
"zmm1",
87 "zmm2",
"zmm3",
"zmm4",
"zmm5",
"zmm6",
"zmm7",
"zmm8",
"zmm9",
88 "zmm10",
"zmm11",
"zmm12",
"zmm13",
"zmm14",
"zmm15",
"zmm16",
"zmm17",
89 "zmm18",
"zmm19",
"zmm20",
"zmm21",
"zmm22",
"zmm23",
"zmm24",
"zmm25",
90 "zmm26",
"zmm27",
"zmm28",
"zmm29",
"zmm30",
"zmm31",
"k0",
"k1",
91 "k2",
"k3",
"k4",
"k5",
"k6",
"k7",
92 "cr0",
"cr2",
"cr3",
"cr4",
"cr8",
93 "dr0",
"dr1",
"dr2",
"dr3",
"dr6",
"dr7",
94 "bnd0",
"bnd1",
"bnd2",
"bnd3",
95 "tmm0",
"tmm1",
"tmm2",
"tmm3",
"tmm4",
"tmm5",
"tmm6",
"tmm7",
96 "r16",
"r17",
"r18",
"r19",
"r20",
"r21",
"r22",
"r23",
97 "r24",
"r25",
"r26",
"r27",
"r28",
"r29",
"r30",
"r31",
101 {{
"al",
"ah",
"eax",
"rax"}, 0},
102 {{
"bl",
"bh",
"ebx",
"rbx"}, 3},
103 {{
"cl",
"ch",
"ecx",
"rcx"}, 2},
104 {{
"dl",
"dh",
"edx",
"rdx"}, 1},
109 {{
"r8d",
"r8w",
"r8b"}, 38},
110 {{
"r9d",
"r9w",
"r9b"}, 39},
111 {{
"r10d",
"r10w",
"r10b"}, 40},
112 {{
"r11d",
"r11w",
"r11b"}, 41},
113 {{
"r12d",
"r12w",
"r12b"}, 42},
114 {{
"r13d",
"r13w",
"r13b"}, 43},
115 {{
"r14d",
"r14w",
"r14b"}, 44},
116 {{
"r15d",
"r15w",
"r15b"}, 45},
117 {{
"r16d",
"r16w",
"r16b"}, 165},
118 {{
"r17d",
"r17w",
"r17b"}, 166},
119 {{
"r18d",
"r18w",
"r18b"}, 167},
120 {{
"r19d",
"r19w",
"r19b"}, 168},
121 {{
"r20d",
"r20w",
"r20b"}, 169},
122 {{
"r21d",
"r21w",
"r21b"}, 170},
123 {{
"r22d",
"r22w",
"r22b"}, 171},
124 {{
"r23d",
"r23w",
"r23b"}, 172},
125 {{
"r24d",
"r24w",
"r24b"}, 173},
126 {{
"r25d",
"r25w",
"r25b"}, 174},
127 {{
"r26d",
"r26w",
"r26b"}, 175},
128 {{
"r27d",
"r27w",
"r27b"}, 176},
129 {{
"r28d",
"r28w",
"r28b"}, 177},
130 {{
"r29d",
"r29w",
"r29b"}, 178},
131 {{
"r30d",
"r30w",
"r30b"}, 179},
132 {{
"r31d",
"r31w",
"r31b"}, 180},
137using namespace clang;
154 const std::vector<std::string> &FeaturesVec)
const {
157 if (
getTriple().getArch() == llvm::Triple::x86_64)
160 using namespace llvm::X86;
163 getFeaturesForCPU(
CPU, CPUFeatures);
164 for (
auto &F : CPUFeatures)
167 std::vector<std::string> UpdatedFeaturesVec;
168 for (
const auto &
Feature : FeaturesVec) {
170 if (
Feature ==
"+general-regs-only") {
171 UpdatedFeaturesVec.push_back(
"-x87");
172 UpdatedFeaturesVec.push_back(
"-mmx");
173 UpdatedFeaturesVec.push_back(
"-sse");
177 UpdatedFeaturesVec.push_back(
Feature);
187 auto I = Features.find(
"sse4.2");
188 if (I != Features.end() && I->getValue() &&
189 !llvm::is_contained(UpdatedFeaturesVec,
"-popcnt"))
190 Features[
"popcnt"] =
true;
194 I = Features.find(
"sse");
195 if (I != Features.end() && I->getValue() &&
196 !llvm::is_contained(UpdatedFeaturesVec,
"-mmx"))
197 Features[
"mmx"] =
true;
200 I = Features.find(
"avx");
201 if (I != Features.end() && I->getValue() &&
202 !llvm::is_contained(UpdatedFeaturesVec,
"-xsave"))
203 Features[
"xsave"] =
true;
206 I = Features.find(
"sse4.2");
207 if (I != Features.end() && I->getValue() &&
208 !llvm::is_contained(UpdatedFeaturesVec,
"-crc32"))
209 Features[
"crc32"] =
true;
215 StringRef Name,
bool Enabled)
const {
216 if (Name ==
"sse4") {
227 Features[Name] = Enabled;
228 llvm::X86::updateImpliedFeatures(Name, Enabled, Features);
235 for (
const auto &
Feature : Features) {
241 }
else if (
Feature ==
"+aes") {
243 }
else if (
Feature ==
"+vaes") {
245 }
else if (
Feature ==
"+pclmul") {
247 }
else if (
Feature ==
"+vpclmulqdq") {
248 HasVPCLMULQDQ =
true;
249 }
else if (
Feature ==
"+lzcnt") {
251 }
else if (
Feature ==
"+rdrnd") {
253 }
else if (
Feature ==
"+fsgsbase") {
255 }
else if (
Feature ==
"+bmi") {
257 }
else if (
Feature ==
"+bmi2") {
259 }
else if (
Feature ==
"+popcnt") {
261 }
else if (
Feature ==
"+rtm") {
263 }
else if (
Feature ==
"+prfchw") {
265 }
else if (
Feature ==
"+rdseed") {
267 }
else if (
Feature ==
"+adx") {
269 }
else if (
Feature ==
"+tbm") {
271 }
else if (
Feature ==
"+lwp") {
273 }
else if (
Feature ==
"+fma") {
275 }
else if (
Feature ==
"+f16c") {
277 }
else if (
Feature ==
"+gfni") {
279 }
else if (
Feature ==
"+avx10.1") {
281 }
else if (
Feature ==
"+avx10.2") {
284 }
else if (
Feature ==
"+avx512cd") {
286 }
else if (
Feature ==
"+avx512vpopcntdq") {
287 HasAVX512VPOPCNTDQ =
true;
288 }
else if (
Feature ==
"+avx512vnni") {
289 HasAVX512VNNI =
true;
290 }
else if (
Feature ==
"+avx512bf16") {
291 HasAVX512BF16 =
true;
292 }
else if (
Feature ==
"+avx512fp16") {
293 HasAVX512FP16 =
true;
295 }
else if (
Feature ==
"+avx512dq") {
297 }
else if (
Feature ==
"+avx512bitalg") {
298 HasAVX512BITALG =
true;
299 }
else if (
Feature ==
"+avx512bmm") {
301 }
else if (
Feature ==
"+avx512bw") {
303 }
else if (
Feature ==
"+avx512vl") {
305 }
else if (
Feature ==
"+avx512vbmi") {
306 HasAVX512VBMI =
true;
307 }
else if (
Feature ==
"+avx512vbmi2") {
308 HasAVX512VBMI2 =
true;
309 }
else if (
Feature ==
"+avx512ifma") {
310 HasAVX512IFMA =
true;
311 }
else if (
Feature ==
"+avx512vp2intersect") {
312 HasAVX512VP2INTERSECT =
true;
313 }
else if (
Feature ==
"+sha") {
315 }
else if (
Feature ==
"+sha512") {
317 }
else if (
Feature ==
"+shstk") {
319 }
else if (
Feature ==
"+sm3") {
321 }
else if (
Feature ==
"+sm4") {
323 }
else if (
Feature ==
"+movbe") {
325 }
else if (
Feature ==
"+movrs") {
327 }
else if (
Feature ==
"+sgx") {
329 }
else if (
Feature ==
"+cx8") {
331 }
else if (
Feature ==
"+cx16") {
333 }
else if (
Feature ==
"+fxsr") {
335 }
else if (
Feature ==
"+xsave") {
337 }
else if (
Feature ==
"+xsaveopt") {
339 }
else if (
Feature ==
"+xsavec") {
341 }
else if (
Feature ==
"+xsaves") {
343 }
else if (
Feature ==
"+mwaitx") {
345 }
else if (
Feature ==
"+pku") {
347 }
else if (
Feature ==
"+clflushopt") {
348 HasCLFLUSHOPT =
true;
349 }
else if (
Feature ==
"+clwb") {
351 }
else if (
Feature ==
"+wbnoinvd") {
353 }
else if (
Feature ==
"+prefetchi") {
355 }
else if (
Feature ==
"+clzero") {
357 }
else if (
Feature ==
"+cldemote") {
359 }
else if (
Feature ==
"+rdpid") {
361 }
else if (
Feature ==
"+rdpru") {
365 }
else if (
Feature ==
"+widekl") {
367 }
else if (
Feature ==
"+retpoline-external-thunk") {
368 HasRetpolineExternalThunk =
true;
369 }
else if (
Feature ==
"+sahf") {
371 }
else if (
Feature ==
"+waitpkg") {
373 }
else if (
Feature ==
"+movdiri") {
375 }
else if (
Feature ==
"+movdir64b") {
377 }
else if (
Feature ==
"+pconfig") {
379 }
else if (
Feature ==
"+ptwrite") {
381 }
else if (
Feature ==
"+invpcid") {
383 }
else if (
Feature ==
"+enqcmd") {
385 }
else if (
Feature ==
"+hreset") {
387 }
else if (
Feature ==
"+amx-bf16") {
389 }
else if (
Feature ==
"+amx-fp16") {
391 }
else if (
Feature ==
"+amx-int8") {
393 }
else if (
Feature ==
"+amx-tile") {
395 }
else if (
Feature ==
"+amx-complex") {
396 HasAMXCOMPLEX =
true;
397 }
else if (
Feature ==
"+amx-fp8") {
399 }
else if (
Feature ==
"+amx-movrs") {
401 }
else if (
Feature ==
"+amx-avx512") {
403 }
else if (
Feature ==
"+amx-tf32") {
405 }
else if (
Feature ==
"+cmpccxadd") {
407 }
else if (
Feature ==
"+raoint") {
409 }
else if (
Feature ==
"+avxifma") {
411 }
else if (
Feature ==
"+avxneconvert") {
412 HasAVXNECONVERT=
true;
413 }
else if (
Feature ==
"+avxvnni") {
415 }
else if (
Feature ==
"+avxvnniint16") {
416 HasAVXVNNIINT16 =
true;
417 }
else if (
Feature ==
"+avxvnniint8") {
418 HasAVXVNNIINT8 =
true;
419 }
else if (
Feature ==
"+serialize") {
421 }
else if (
Feature ==
"+tsxldtrk") {
423 }
else if (
Feature ==
"+uintr") {
425 }
else if (
Feature ==
"+usermsr") {
427 }
else if (
Feature ==
"+crc32") {
429 }
else if (
Feature ==
"+x87") {
431 }
else if (
Feature ==
"+fullbf16") {
433 }
else if (
Feature ==
"+egpr") {
435 }
else if (
Feature ==
"+inline-asm-use-gpr32") {
436 HasInlineAsmUseGPR32 =
true;
437 }
else if (
Feature ==
"+push2pop2") {
439 }
else if (
Feature ==
"+ppx") {
441 }
else if (
Feature ==
"+ndd") {
443 }
else if (
Feature ==
"+ccmp") {
451 }
else if (
Feature ==
"+jmpabs") {
453 }
else if (
Feature ==
"+branch-hint") {
454 HasBranchHint =
true;
457 X86SSEEnum Level = llvm::StringSwitch<X86SSEEnum>(
Feature)
458 .Case(
"+avx512f", AVX512F)
461 .Case(
"+sse4.2", SSE42)
462 .Case(
"+sse4.1", SSE41)
463 .Case(
"+ssse3", SSSE3)
468 SSELevel = std::max(SSELevel, Level);
483 XOPEnum XLevel = llvm::StringSwitch<XOPEnum>(
Feature)
486 .Case(
"+sse4a", SSE4A)
488 XOPLevel = std::max(XOPLevel, XLevel);
495 Diags.
Report(diag::err_target_unsupported_fpmath)
513 Builder.defineMacro(
"__GCC_ASM_FLAG_OUTPUTS__");
516 if (CodeModel ==
"default")
518 Builder.defineMacro(
"__code_model_" + CodeModel +
"__");
521 if (
getTriple().getArch() == llvm::Triple::x86_64) {
522 Builder.defineMacro(
"__amd64__");
523 Builder.defineMacro(
"__amd64");
524 Builder.defineMacro(
"__x86_64");
525 Builder.defineMacro(
"__x86_64__");
526 if (
getTriple().getArchName() ==
"x86_64h") {
527 Builder.defineMacro(
"__x86_64h");
528 Builder.defineMacro(
"__x86_64h__");
534 Builder.defineMacro(
"__SEG_GS");
535 Builder.defineMacro(
"__SEG_FS");
536 Builder.defineMacro(
"__seg_gs",
"__attribute__((address_space(256)))");
537 Builder.defineMacro(
"__seg_fs",
"__attribute__((address_space(257)))");
542 using namespace llvm::X86;
548 Builder.defineMacro(
"__tune_i386__");
557 Builder.defineMacro(
"__pentium_mmx__");
558 Builder.defineMacro(
"__tune_pentium_mmx__");
567 Builder.defineMacro(
"__tune_pentium3__");
571 Builder.defineMacro(
"__tune_pentium2__");
599 case CK_GoldmontPlus:
613 case CK_SkylakeClient:
614 case CK_SkylakeServer:
618 case CK_IcelakeClient:
620 case CK_IcelakeServer:
622 case CK_SapphireRapids:
632 case CK_Sierraforest:
634 case CK_Graniterapids:
635 case CK_GraniterapidsD:
636 case CK_Emeraldrapids:
637 case CK_Clearwaterforest:
638 case CK_Diamondrapids:
652 Builder.defineMacro(
"__tune_lakemont__");
655 Builder.defineMacro(
"__k6_2__");
656 Builder.defineMacro(
"__tune_k6_2__");
659 if (
CPU != CK_K6_2) {
663 Builder.defineMacro(
"__k6_3__");
664 Builder.defineMacro(
"__tune_k6_3__");
673 if (SSELevel != NoSSE) {
674 Builder.defineMacro(
"__athlon_sse__");
675 Builder.defineMacro(
"__tune_athlon_sse__");
744 Builder.defineMacro(
"__REGISTER_PREFIX__",
"");
749 Builder.defineMacro(
"__NO_MATH_INLINES");
752 Builder.defineMacro(
"__AES__");
755 Builder.defineMacro(
"__VAES__");
758 Builder.defineMacro(
"__PCLMUL__");
761 Builder.defineMacro(
"__VPCLMULQDQ__");
765 if (HasLAHFSAHF ||
getTriple().getArch() == llvm::Triple::x86)
766 Builder.defineMacro(
"__LAHF_SAHF__");
769 Builder.defineMacro(
"__LZCNT__");
772 Builder.defineMacro(
"__RDRND__");
775 Builder.defineMacro(
"__FSGSBASE__");
778 Builder.defineMacro(
"__BMI__");
781 Builder.defineMacro(
"__BMI2__");
784 Builder.defineMacro(
"__POPCNT__");
787 Builder.defineMacro(
"__RTM__");
790 Builder.defineMacro(
"__PRFCHW__");
793 Builder.defineMacro(
"__RDSEED__");
796 Builder.defineMacro(
"__ADX__");
799 Builder.defineMacro(
"__TBM__");
802 Builder.defineMacro(
"__LWP__");
805 Builder.defineMacro(
"__MWAITX__");
808 Builder.defineMacro(
"__MOVBE__");
812 Builder.defineMacro(
"__XOP__");
815 Builder.defineMacro(
"__FMA4__");
818 Builder.defineMacro(
"__SSE4A__");
825 Builder.defineMacro(
"__FMA__");
828 Builder.defineMacro(
"__F16C__");
831 Builder.defineMacro(
"__GFNI__");
834 Builder.defineMacro(
"__AVX10_1__");
835 Builder.defineMacro(
"__AVX10_1_512__");
838 Builder.defineMacro(
"__AVX10_2__");
839 Builder.defineMacro(
"__AVX10_2_512__");
842 Builder.defineMacro(
"__AVX512CD__");
843 if (HasAVX512VPOPCNTDQ)
844 Builder.defineMacro(
"__AVX512VPOPCNTDQ__");
846 Builder.defineMacro(
"__AVX512VNNI__");
848 Builder.defineMacro(
"__AVX512BF16__");
850 Builder.defineMacro(
"__AVX512FP16__");
852 Builder.defineMacro(
"__AVX512DQ__");
854 Builder.defineMacro(
"__AVX512BITALG__");
856 Builder.defineMacro(
"__AVX512BMM__");
858 Builder.defineMacro(
"__AVX512BW__");
860 Builder.defineMacro(
"__AVX512VL__");
863 Builder.defineMacro(
"__AVX512VBMI__");
865 Builder.defineMacro(
"__AVX512VBMI2__");
867 Builder.defineMacro(
"__AVX512IFMA__");
868 if (HasAVX512VP2INTERSECT)
869 Builder.defineMacro(
"__AVX512VP2INTERSECT__");
871 Builder.defineMacro(
"__SHA__");
873 Builder.defineMacro(
"__SHA512__");
876 Builder.defineMacro(
"__FXSR__");
878 Builder.defineMacro(
"__XSAVE__");
880 Builder.defineMacro(
"__XSAVEOPT__");
882 Builder.defineMacro(
"__XSAVEC__");
884 Builder.defineMacro(
"__XSAVES__");
886 Builder.defineMacro(
"__PKU__");
888 Builder.defineMacro(
"__CLFLUSHOPT__");
890 Builder.defineMacro(
"__CLWB__");
892 Builder.defineMacro(
"__WBNOINVD__");
894 Builder.defineMacro(
"__SHSTK__");
896 Builder.defineMacro(
"__SGX__");
898 Builder.defineMacro(
"__SM3__");
900 Builder.defineMacro(
"__SM4__");
902 Builder.defineMacro(
"__PREFETCHI__");
904 Builder.defineMacro(
"__CLZERO__");
906 Builder.defineMacro(
"__KL__");
908 Builder.defineMacro(
"__WIDEKL__");
910 Builder.defineMacro(
"__RDPID__");
912 Builder.defineMacro(
"__RDPRU__");
914 Builder.defineMacro(
"__CLDEMOTE__");
916 Builder.defineMacro(
"__WAITPKG__");
918 Builder.defineMacro(
"__MOVDIRI__");
920 Builder.defineMacro(
"__MOVDIR64B__");
922 Builder.defineMacro(
"__MOVRS__");
924 Builder.defineMacro(
"__PCONFIG__");
926 Builder.defineMacro(
"__PTWRITE__");
928 Builder.defineMacro(
"__INVPCID__");
930 Builder.defineMacro(
"__ENQCMD__");
932 Builder.defineMacro(
"__HRESET__");
934 Builder.defineMacro(
"__AMX_TILE__");
936 Builder.defineMacro(
"__AMX_INT8__");
938 Builder.defineMacro(
"__AMX_BF16__");
940 Builder.defineMacro(
"__AMX_FP16__");
942 Builder.defineMacro(
"__AMX_COMPLEX__");
944 Builder.defineMacro(
"__AMX_FP8__");
946 Builder.defineMacro(
"__AMX_MOVRS__");
948 Builder.defineMacro(
"__AMX_AVX512__");
950 Builder.defineMacro(
"__AMX_TF32__");
952 Builder.defineMacro(
"__CMPCCXADD__");
954 Builder.defineMacro(
"__RAOINT__");
956 Builder.defineMacro(
"__AVXIFMA__");
958 Builder.defineMacro(
"__AVXNECONVERT__");
960 Builder.defineMacro(
"__AVXVNNI__");
962 Builder.defineMacro(
"__AVXVNNIINT16__");
964 Builder.defineMacro(
"__AVXVNNIINT8__");
966 Builder.defineMacro(
"__SERIALIZE__");
968 Builder.defineMacro(
"__TSXLDTRK__");
970 Builder.defineMacro(
"__UINTR__");
972 Builder.defineMacro(
"__USERMSR__");
974 Builder.defineMacro(
"__CRC32__");
976 Builder.defineMacro(
"__EGPR__");
978 Builder.defineMacro(
"__PUSH2POP2__");
980 Builder.defineMacro(
"__PPX__");
982 Builder.defineMacro(
"__NDD__");
984 Builder.defineMacro(
"__CCMP__");
986 Builder.defineMacro(
"__NF__");
988 Builder.defineMacro(
"__CF__");
990 Builder.defineMacro(
"__ZU__");
992 Builder.defineMacro(
"__JMPABS__");
993 if (HasEGPR && HasPush2Pop2 && HasPPX && HasNDD && HasCCMP && HasNF &&
995 Builder.defineMacro(
"__APX_F__");
996 if (HasEGPR && HasInlineAsmUseGPR32)
997 Builder.defineMacro(
"__APX_INLINE_ASM_USE_GPR32__");
1002 Builder.defineMacro(
"__AVX512F__");
1005 Builder.defineMacro(
"__AVX2__");
1008 Builder.defineMacro(
"__AVX__");
1011 Builder.defineMacro(
"__SSE4_2__");
1014 Builder.defineMacro(
"__SSE4_1__");
1017 Builder.defineMacro(
"__SSSE3__");
1020 Builder.defineMacro(
"__SSE3__");
1023 Builder.defineMacro(
"__SSE2__");
1024 Builder.defineMacro(
"__SSE2_MATH__");
1027 Builder.defineMacro(
"__SSE__");
1028 Builder.defineMacro(
"__SSE_MATH__");
1034 if (Opts.MicrosoftExt &&
getTriple().getArch() == llvm::Triple::x86) {
1044 Builder.defineMacro(
"_M_IX86_FP", Twine(2));
1047 Builder.defineMacro(
"_M_IX86_FP", Twine(1));
1050 Builder.defineMacro(
"_M_IX86_FP", Twine(0));
1057 Builder.defineMacro(
"__MMX__");
1060 if (
CPU >= CK_i486 ||
CPU == CK_None) {
1061 Builder.defineMacro(
"__GCC_HAVE_SYNC_COMPARE_AND_SWAP_1");
1062 Builder.defineMacro(
"__GCC_HAVE_SYNC_COMPARE_AND_SWAP_2");
1063 Builder.defineMacro(
"__GCC_HAVE_SYNC_COMPARE_AND_SWAP_4");
1066 Builder.defineMacro(
"__GCC_HAVE_SYNC_COMPARE_AND_SWAP_8");
1067 if (HasCX16 &&
getTriple().getArch() == llvm::Triple::x86_64)
1068 Builder.defineMacro(
"__GCC_HAVE_SYNC_COMPARE_AND_SWAP_16");
1071 Builder.defineMacro(
"__SIZEOF_FLOAT128__",
"16");
1073 if (Opts.CFProtectionReturn || Opts.CFProtectionBranch)
1074 Builder.defineMacro(
"__CET__", Twine{(Opts.CFProtectionReturn << 1) |
1075 Opts.CFProtectionBranch});
1079 return llvm::StringSwitch<bool>(Name)
1082 .Case(
"amx-avx512",
true)
1083 .Case(
"amx-bf16",
true)
1084 .Case(
"amx-complex",
true)
1085 .Case(
"amx-fp16",
true)
1086 .Case(
"amx-fp8",
true)
1087 .Case(
"amx-int8",
true)
1088 .Case(
"amx-movrs",
true)
1089 .Case(
"amx-tf32",
true)
1090 .Case(
"amx-tile",
true)
1092 .Case(
"avx10.1",
true)
1093 .Case(
"avx10.2",
true)
1095 .Case(
"avx512f",
true)
1096 .Case(
"avx512cd",
true)
1097 .Case(
"avx512vpopcntdq",
true)
1098 .Case(
"avx512vnni",
true)
1099 .Case(
"avx512bf16",
true)
1100 .Case(
"avx512fp16",
true)
1101 .Case(
"avx512dq",
true)
1102 .Case(
"avx512bitalg",
true)
1103 .Case(
"avx512bmm",
true)
1104 .Case(
"avx512bw",
true)
1105 .Case(
"avx512vl",
true)
1106 .Case(
"avx512vbmi",
true)
1107 .Case(
"avx512vbmi2",
true)
1108 .Case(
"avx512ifma",
true)
1109 .Case(
"avx512vp2intersect",
true)
1110 .Case(
"avxifma",
true)
1111 .Case(
"avxneconvert",
true)
1112 .Case(
"avxvnni",
true)
1113 .Case(
"avxvnniint16",
true)
1114 .Case(
"avxvnniint8",
true)
1117 .Case(
"cldemote",
true)
1118 .Case(
"clflushopt",
true)
1120 .Case(
"clzero",
true)
1121 .Case(
"cmpccxadd",
true)
1122 .Case(
"crc32",
true)
1124 .Case(
"enqcmd",
true)
1128 .Case(
"fsgsbase",
true)
1130 .Case(
"general-regs-only",
true)
1132 .Case(
"hreset",
true)
1133 .Case(
"invpcid",
true)
1135 .Case(
"widekl",
true)
1137 .Case(
"lzcnt",
true)
1139 .Case(
"movbe",
true)
1140 .Case(
"movrs",
true)
1141 .Case(
"movdiri",
true)
1142 .Case(
"movdir64b",
true)
1143 .Case(
"mwaitx",
true)
1144 .Case(
"pclmul",
true)
1145 .Case(
"pconfig",
true)
1147 .Case(
"popcnt",
true)
1148 .Case(
"prefer-256-bit",
true)
1149 .Case(
"prefetchi",
true)
1150 .Case(
"prfchw",
true)
1151 .Case(
"ptwrite",
true)
1152 .Case(
"raoint",
true)
1153 .Case(
"rdpid",
true)
1154 .Case(
"rdpru",
true)
1155 .Case(
"rdrnd",
true)
1156 .Case(
"rdseed",
true)
1159 .Case(
"serialize",
true)
1162 .Case(
"sha512",
true)
1163 .Case(
"shstk",
true)
1169 .Case(
"ssse3",
true)
1171 .Case(
"sse4.1",
true)
1172 .Case(
"sse4.2",
true)
1173 .Case(
"sse4a",
true)
1175 .Case(
"tsxldtrk",
true)
1176 .Case(
"uintr",
true)
1177 .Case(
"usermsr",
true)
1179 .Case(
"vpclmulqdq",
true)
1180 .Case(
"wbnoinvd",
true)
1181 .Case(
"waitpkg",
true)
1184 .Case(
"xsave",
true)
1185 .Case(
"xsavec",
true)
1186 .Case(
"xsaves",
true)
1187 .Case(
"xsaveopt",
true)
1189 .Case(
"push2pop2",
true)
1196 .Case(
"jmpabs",
true)
1201 return llvm::StringSwitch<bool>(
Feature)
1202 .Case(
"adx", HasADX)
1203 .Case(
"aes", HasAES)
1204 .Case(
"amx-avx512", HasAMXAVX512)
1205 .Case(
"amx-bf16", HasAMXBF16)
1206 .Case(
"amx-complex", HasAMXCOMPLEX)
1207 .Case(
"amx-fp16", HasAMXFP16)
1208 .Case(
"amx-fp8", HasAMXFP8)
1209 .Case(
"amx-int8", HasAMXINT8)
1210 .Case(
"amx-movrs", HasAMXMOVRS)
1211 .Case(
"amx-tf32", HasAMXTF32)
1212 .Case(
"amx-tile", HasAMXTILE)
1213 .Case(
"avx", SSELevel >= AVX)
1214 .Case(
"avx10.1", HasAVX10_1)
1215 .Case(
"avx10.2", HasAVX10_2)
1216 .Case(
"avx2", SSELevel >= AVX2)
1217 .Case(
"avx512f", SSELevel >= AVX512F)
1218 .Case(
"avx512cd", HasAVX512CD)
1219 .Case(
"avx512vpopcntdq", HasAVX512VPOPCNTDQ)
1220 .Case(
"avx512vnni", HasAVX512VNNI)
1221 .Case(
"avx512bf16", HasAVX512BF16)
1222 .Case(
"avx512fp16", HasAVX512FP16)
1223 .Case(
"avx512dq", HasAVX512DQ)
1224 .Case(
"avx512bitalg", HasAVX512BITALG)
1225 .Case(
"avx512bmm", HasAVX512BMM)
1226 .Case(
"avx512bw", HasAVX512BW)
1227 .Case(
"avx512vl", HasAVX512VL)
1228 .Case(
"avx512vbmi", HasAVX512VBMI)
1229 .Case(
"avx512vbmi2", HasAVX512VBMI2)
1230 .Case(
"avx512ifma", HasAVX512IFMA)
1231 .Case(
"avx512vp2intersect", HasAVX512VP2INTERSECT)
1232 .Case(
"avxifma", HasAVXIFMA)
1233 .Case(
"avxneconvert", HasAVXNECONVERT)
1234 .Case(
"avxvnni", HasAVXVNNI)
1235 .Case(
"avxvnniint16", HasAVXVNNIINT16)
1236 .Case(
"avxvnniint8", HasAVXVNNIINT8)
1237 .Case(
"bmi", HasBMI)
1238 .Case(
"bmi2", HasBMI2)
1239 .Case(
"cldemote", HasCLDEMOTE)
1240 .Case(
"clflushopt", HasCLFLUSHOPT)
1241 .Case(
"clwb", HasCLWB)
1242 .Case(
"clzero", HasCLZERO)
1243 .Case(
"cmpccxadd", HasCMPCCXADD)
1244 .Case(
"crc32", HasCRC32)
1245 .Case(
"cx8", HasCX8)
1246 .Case(
"cx16", HasCX16)
1247 .Case(
"enqcmd", HasENQCMD)
1248 .Case(
"f16c", HasF16C)
1249 .Case(
"fma", HasFMA)
1250 .Case(
"fma4", XOPLevel >= FMA4)
1251 .Case(
"fsgsbase", HasFSGSBASE)
1252 .Case(
"fxsr", HasFXSR)
1253 .Case(
"gfni", HasGFNI)
1254 .Case(
"hreset", HasHRESET)
1255 .Case(
"invpcid", HasINVPCID)
1257 .Case(
"widekl", HasWIDEKL)
1258 .Case(
"lwp", HasLWP)
1259 .Case(
"lzcnt", HasLZCNT)
1260 .Case(
"mmx", HasMMX)
1261 .Case(
"movbe", HasMOVBE)
1262 .Case(
"movrs", HasMOVRS)
1263 .Case(
"movdiri", HasMOVDIRI)
1264 .Case(
"movdir64b", HasMOVDIR64B)
1265 .Case(
"mwaitx", HasMWAITX)
1266 .Case(
"pclmul", HasPCLMUL)
1267 .Case(
"pconfig", HasPCONFIG)
1268 .Case(
"pku", HasPKU)
1269 .Case(
"popcnt", HasPOPCNT)
1270 .Case(
"prefetchi", HasPREFETCHI)
1271 .Case(
"prfchw", HasPRFCHW)
1272 .Case(
"ptwrite", HasPTWRITE)
1273 .Case(
"raoint", HasRAOINT)
1274 .Case(
"rdpid", HasRDPID)
1275 .Case(
"rdpru", HasRDPRU)
1276 .Case(
"rdrnd", HasRDRND)
1277 .Case(
"rdseed", HasRDSEED)
1278 .Case(
"retpoline-external-thunk", HasRetpolineExternalThunk)
1279 .Case(
"rtm", HasRTM)
1280 .Case(
"sahf", HasLAHFSAHF)
1281 .Case(
"serialize", HasSERIALIZE)
1282 .Case(
"sgx", HasSGX)
1283 .Case(
"sha", HasSHA)
1284 .Case(
"sha512", HasSHA512)
1285 .Case(
"shstk", HasSHSTK)
1286 .Case(
"sm3", HasSM3)
1287 .Case(
"sm4", HasSM4)
1288 .Case(
"sse", SSELevel >= SSE1)
1289 .Case(
"sse2", SSELevel >= SSE2)
1290 .Case(
"sse3", SSELevel >= SSE3)
1291 .Case(
"ssse3", SSELevel >= SSSE3)
1292 .Case(
"sse4.1", SSELevel >= SSE41)
1293 .Case(
"sse4.2", SSELevel >= SSE42)
1294 .Case(
"sse4a", XOPLevel >= SSE4A)
1295 .Case(
"tbm", HasTBM)
1296 .Case(
"tsxldtrk", HasTSXLDTRK)
1297 .Case(
"uintr", HasUINTR)
1298 .Case(
"usermsr", HasUSERMSR)
1299 .Case(
"vaes", HasVAES)
1300 .Case(
"vpclmulqdq", HasVPCLMULQDQ)
1301 .Case(
"wbnoinvd", HasWBNOINVD)
1302 .Case(
"waitpkg", HasWAITPKG)
1304 .Case(
"x86_32",
getTriple().getArch() == llvm::Triple::x86)
1305 .Case(
"x86_64",
getTriple().getArch() == llvm::Triple::x86_64)
1306 .Case(
"x87", HasX87)
1307 .Case(
"xop", XOPLevel >= XOP)
1308 .Case(
"xsave", HasXSAVE)
1309 .Case(
"xsavec", HasXSAVEC)
1310 .Case(
"xsaves", HasXSAVES)
1311 .Case(
"xsaveopt", HasXSAVEOPT)
1313 .Case(
"egpr", HasEGPR)
1314 .Case(
"push2pop2", HasPush2Pop2)
1315 .Case(
"ppx", HasPPX)
1316 .Case(
"ndd", HasNDD)
1317 .Case(
"ccmp", HasCCMP)
1321 .Case(
"jmpabs", HasJMPABS)
1322 .Case(
"branch-hint", HasBranchHint)
1332 return llvm::StringSwitch<bool>(FeatureStr)
1333#define X86_FEATURE_COMPAT(ENUM, STR, PRIORITY, ABI_VALUE) .Case(STR, true)
1334#define X86_MICROARCH_LEVEL(ENUM, STR, PRIORITY, ABI_VALUE) .Case(STR, true)
1335#include "llvm/TargetParser/X86TargetParser.def"
1340 return llvm::StringSwitch<llvm::X86::ProcessorFeatures>(Name)
1341#define X86_FEATURE_COMPAT(ENUM, STR, PRIORITY, ABI_VALUE) \
1342 .Case(STR, llvm::X86::FEATURE_##ENUM)
1344#include "llvm/TargetParser/X86TargetParser.def"
1351 auto getPriority = [](StringRef
Feature) ->
unsigned {
1354 using namespace llvm::X86;
1355 CPUKind Kind = parseArchX86(
Feature);
1356 if (Kind != CK_None) {
1357 ProcessorFeatures KeyFeature = getKeyFeature(Kind);
1358 return (getFeaturePriority(KeyFeature) << 1) + 1;
1365 unsigned Priority = 0;
1366 for (StringRef
Feature : Features)
1368 Priority = std::max(Priority, getPriority(
Feature));
1369 return llvm::APInt(32, Priority);
1373 return llvm::X86::validateCPUSpecificCPUDispatch(Name);
1377 return llvm::X86::getCPUDispatchMangling(Name);
1383 llvm::X86::getFeaturesForCPU(Name, TargetCPUFeatures,
true);
1384 for (
auto &F : TargetCPUFeatures)
1385 Features.push_back(F);
1393 return llvm::StringSwitch<bool>(FeatureStr)
1394#define X86_VENDOR(ENUM, STRING) .Case(STRING, true)
1395#define X86_CPU_TYPE_ALIAS(ENUM, ALIAS) .Case(ALIAS, true)
1396#define X86_CPU_TYPE(ENUM, STR) .Case(STR, true)
1397#define X86_CPU_SUBTYPE_ALIAS(ENUM, ALIAS) .Case(ALIAS, true)
1398#define X86_CPU_SUBTYPE(ENUM, STR) .Case(STR, true)
1399#include "llvm/TargetParser/X86TargetParser.def"
1404 auto RV = llvm::StringSwitch<unsigned>(Name)
1573 using namespace llvm::X86;
1613 case CK_GoldmontPlus:
1618 case CK_SandyBridge:
1622 case CK_SkylakeClient:
1623 case CK_SkylakeServer:
1624 case CK_Cascadelake:
1629 case CK_SapphireRapids:
1630 case CK_IcelakeClient:
1632 case CK_IcelakeServer:
1639 case CK_Pantherlake:
1640 case CK_Wildcatlake:
1642 case CK_Sierraforest:
1644 case CK_Graniterapids:
1645 case CK_GraniterapidsD:
1646 case CK_Emeraldrapids:
1647 case CK_Clearwaterforest:
1648 case CK_Diamondrapids:
1691 return std::nullopt;
1693 llvm_unreachable(
"Unknown CPU kind");
1697 StringRef Constraint,
1698 unsigned Size)
const {
1700 Constraint = Constraint.ltrim(
"=+&");
1706 StringRef Constraint,
1707 unsigned Size)
const {
1712 StringRef Constraint,
1713 unsigned Size)
const {
1714 switch (Constraint[0]) {
1727 switch (Constraint[1]) {
1738 return Size <= 512U;
1741 return Size <= 256U;
1743 return Size <= 128U;
1749 if (SSELevel < SSE2)
1758 return Size <= 512U;
1761 return Size <= 256U;
1762 return Size <= 128U;
1770 switch (*Constraint) {
1773 std::string Converted =
"{" + std::string(Constraint, Len) +
"}";
1774 Constraint += Len - 1;
1777 return std::string(1, *Constraint);
1779 return std::string(
"{ax}");
1781 return std::string(
"{bx}");
1783 return std::string(
"{cx}");
1785 return std::string(
"{dx}");
1787 return std::string(
"{si}");
1789 return std::string(
"{di}");
1791 return std::string(
"p");
1793 return std::string(
"{st}");
1795 return std::string(
"{st(1)}");
1797 assert(Constraint[1] ==
's');
1798 return '^' + std::string(Constraint++, 2);
1800 switch (Constraint[1]) {
1815 return std::string(
"^") + std::string(Constraint++, 2);
1819 switch (Constraint[1]) {
1830 return std::string(
"^") + std::string(Constraint++, 2);
1834 return std::string(1, *Constraint);
1839 bool Only64Bit =
getTriple().getArch() != llvm::Triple::x86;
1840 llvm::X86::fillValidCPUArchList(Values, Only64Bit);
1844 llvm::X86::fillValidTuneCPUList(Values);
1876 bool HasNonWeakDef)
const {
Defines the Diagnostic-related interfaces.
static unsigned matchAsmCCConstraint(const char *Name)
static constexpr Builtin::Info PrefixedBuiltinInfos[]
static llvm::X86::ProcessorFeatures getFeature(StringRef Name)
static constexpr Builtin::Info BuiltinInfos[]
Defines enum values for all the target-independent builtin functions.
Enumerates target-specific builtins in their own namespaces within namespace clang.
Concrete class used by the front-end to report problems and issues.
DiagnosticBuilder Report(SourceLocation Loc, unsigned DiagID)
Issue the message to the client.
Keeps track of the various options that can be enabled, which controls the dialect of C or C++ that i...
TargetOptions & getTargetOpts() const
Retrieve the target options.
const llvm::Triple & getTriple() const
Returns the target triple of the primary target.
virtual bool hasFeatureEnabled(const llvm::StringMap< bool > &Features, StringRef Name) const
Check if target has a given feature enabled.
virtual unsigned getMinGlobalAlign(uint64_t Size, bool HasNonWeakDef) const
getMinGlobalAlign - Return the minimum alignment of a global variable, unless its alignment is explic...
virtual bool initFeatureMap(llvm::StringMap< bool > &Features, DiagnosticsEngine &Diags, StringRef CPU, const std::vector< std::string > &FeatureVec) const
Initialize the map with the default set of target features for the CPU this should include all legal ...
unsigned getMinGlobalAlign(uint64_t TypeSize, bool HasNonWeakDef) const override
getMinGlobalAlign - Return the minimum alignment of a global variable, unless its alignment is explic...
enum clang::targets::X86TargetInfo::FPMathKind FPMath
bool handleTargetFeatures(std::vector< std::string > &Features, DiagnosticsEngine &Diags) override
handleTargetFeatures - Perform initialization based on the user configured set of features.
std::optional< unsigned > getCPUCacheLineSize() const override
bool validateAsmConstraint(const char *&Name, TargetInfo::ConstraintInfo &info) const override
llvm::APInt getFMVPriority(ArrayRef< StringRef > Features) const override
bool setFPMath(StringRef Name) override
Use the specified unit for FP math.
ArrayRef< const char * > getGCCRegNames() const override
char CPUSpecificManglingCharacter(StringRef Name) const override
std::string convertConstraint(const char *&Constraint) const override
void getTargetDefines(const LangOptions &Opts, MacroBuilder &Builder) const override
X86TargetInfo::getTargetDefines - Return the set of the X86-specific macro definitions for this parti...
bool initFeatureMap(llvm::StringMap< bool > &Features, DiagnosticsEngine &Diags, StringRef CPU, const std::vector< std::string > &FeaturesVec) const override
Initialize the map with the default set of target features for the CPU this should include all legal ...
void getCPUSpecificCPUDispatchFeatures(StringRef Name, llvm::SmallVectorImpl< StringRef > &Features) const override
bool validateCpuIs(StringRef FeatureStr) const override
bool validateOutputSize(const llvm::StringMap< bool > &FeatureMap, StringRef Constraint, unsigned Size) const override
virtual bool validateOperandSize(const llvm::StringMap< bool > &FeatureMap, StringRef Constraint, unsigned Size) const
void fillValidTuneCPUList(SmallVectorImpl< StringRef > &Values) const override
Fill a SmallVectorImpl with the valid values for tuning CPU.
bool validateCPUSpecificCPUDispatch(StringRef Name) const override
bool validateCpuSupports(StringRef FeatureStr) const override
bool isValidFeatureName(StringRef Name) const override
Determine whether this TargetInfo supports the given feature.
bool hasFeature(StringRef Feature) const final
Determine whether the given target has the given feature.
void setFeatureEnabled(llvm::StringMap< bool > &Features, StringRef Name, bool Enabled) const final
Enable or disable a specific target feature; the feature name must be valid.
void fillValidCPUList(SmallVectorImpl< StringRef > &Values) const override
Fill a SmallVectorImpl with the valid values to setCPU.
ArrayRef< TargetInfo::AddlRegName > getGCCAddlRegNames() const override
bool validateInputSize(const llvm::StringMap< bool > &FeatureMap, StringRef Constraint, unsigned Size) const override
llvm::SmallVector< Builtin::InfosShard > getTargetBuiltins() const override
Return information about target-specific builtins for the current primary target, and info about whic...
llvm::SmallVector< Builtin::InfosShard > getTargetBuiltins() const override
Return information about target-specific builtins for the current primary target, and info about whic...
static constexpr Builtin::Info BuiltinInfos[]
static constexpr Builtin::Info PrefixedBuiltinInfos[]
static constexpr Builtin::Info BuiltinInfos[]
static constexpr Builtin::Info PrefixedBuiltinInfos[]
static constexpr int NumX86Builtins
LLVM_LIBRARY_VISIBILITY void defineCPUMacros(clang::MacroBuilder &Builder, llvm::StringRef CPUName, bool Tuning=true)
static constexpr int NumBuiltins
const TargetInfo::AddlRegName AddlRegNames[]
static const char *const GCCRegNames[]
static constexpr int NumX86_64Builtins
LLVM_LIBRARY_VISIBILITY void DefineStd(clang::MacroBuilder &Builder, llvm::StringRef MacroName, const clang::LangOptions &Opts)
Define a macro name and standard variants.
The JSON file list parser is used to communicate input to InstallAPI.
unsigned Microsoft64BitMinGlobalAlign(uint64_t TypeSize)
The info used to represent each builtin.
std::string ConstraintStr
void setOutputOperandBounds(unsigned Min, unsigned Max)
void setRequiresImmediate(int Min, int Max)
const llvm::fltSemantics * LongDoubleFormat