LLVM 20.0.0git
X86TargetMachine.cpp
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1//===-- X86TargetMachine.cpp - Define TargetMachine for the X86 -----------===//
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 defines the X86 specific subclass of TargetMachine.
10//
11//===----------------------------------------------------------------------===//
12
13#include "X86TargetMachine.h"
14#include "MCTargetDesc/X86MCTargetDesc.h"
15#include "TargetInfo/X86TargetInfo.h"
16#include "X86.h"
17#include "X86MachineFunctionInfo.h"
18#include "X86MacroFusion.h"
19#include "X86Subtarget.h"
20#include "X86TargetObjectFile.h"
21#include "X86TargetTransformInfo.h"
22#include "llvm/ADT/SmallString.h"
23#include "llvm/ADT/StringRef.h"
24#include "llvm/Analysis/TargetTransformInfo.h"
25#include "llvm/CodeGen/ExecutionDomainFix.h"
26#include "llvm/CodeGen/GlobalISel/CSEInfo.h"
27#include "llvm/CodeGen/GlobalISel/CallLowering.h"
28#include "llvm/CodeGen/GlobalISel/IRTranslator.h"
29#include "llvm/CodeGen/GlobalISel/InstructionSelect.h"
30#include "llvm/CodeGen/GlobalISel/InstructionSelector.h"
31#include "llvm/CodeGen/GlobalISel/Legalizer.h"
32#include "llvm/CodeGen/GlobalISel/RegBankSelect.h"
33#include "llvm/CodeGen/MIRParser/MIParser.h"
34#include "llvm/CodeGen/MIRYamlMapping.h"
35#include "llvm/CodeGen/MachineScheduler.h"
36#include "llvm/CodeGen/Passes.h"
37#include "llvm/CodeGen/TargetPassConfig.h"
38#include "llvm/IR/Attributes.h"
39#include "llvm/IR/DataLayout.h"
40#include "llvm/IR/Function.h"
41#include "llvm/MC/MCAsmInfo.h"
42#include "llvm/MC/TargetRegistry.h"
43#include "llvm/Pass.h"
44#include "llvm/Support/CodeGen.h"
45#include "llvm/Support/CommandLine.h"
46#include "llvm/Support/ErrorHandling.h"
47#include "llvm/Target/TargetLoweringObjectFile.h"
48#include "llvm/Target/TargetOptions.h"
49#include "llvm/TargetParser/Triple.h"
50#include "llvm/Transforms/CFGuard.h"
51#include <memory>
52#include <optional>
53#include <string>
54
55using namespace llvm;
56
57static cl::opt<bool> EnableMachineCombinerPass("x86-machine-combiner",
58 cl::desc("Enable the machine combiner pass"),
59 cl::init(true), cl::Hidden);
60
61static cl::opt<bool>
62 EnableTileRAPass("x86-tile-ra",
63 cl::desc("Enable the tile register allocation pass"),
64 cl::init(true), cl::Hidden);
65
66extern "C" LLVM_C_ABI void LLVMInitializeX86Target() {
67 // Register the target.
68 RegisterTargetMachine<X86TargetMachine> X(getTheX86_32Target());
69 RegisterTargetMachine<X86TargetMachine> Y(getTheX86_64Target());
70
71 PassRegistry &PR = *PassRegistry::getPassRegistry();
72 initializeX86LowerAMXIntrinsicsLegacyPassPass(PR);
73 initializeX86LowerAMXTypeLegacyPassPass(PR);
74 initializeX86PreTileConfigPass(PR);
75 initializeGlobalISel(PR);
76 initializeWinEHStatePassPass(PR);
77 initializeFixupBWInstPassPass(PR);
78 initializeCompressEVEXPassPass(PR);
79 initializeFixupLEAPassPass(PR);
80 initializeFPSPass(PR);
81 initializeX86FixupSetCCPassPass(PR);
82 initializeX86CallFrameOptimizationPass(PR);
83 initializeX86CmovConverterPassPass(PR);
84 initializeX86TileConfigPass(PR);
85 initializeX86FastPreTileConfigPass(PR);
86 initializeX86FastTileConfigPass(PR);
87 initializeKCFIPass(PR);
88 initializeX86LowerTileCopyPass(PR);
89 initializeX86ExpandPseudoPass(PR);
90 initializeX86ExecutionDomainFixPass(PR);
91 initializeX86DomainReassignmentPass(PR);
92 initializeX86AvoidSFBPassPass(PR);
93 initializeX86AvoidTrailingCallPassPass(PR);
94 initializeX86SpeculativeLoadHardeningPassPass(PR);
95 initializeX86SpeculativeExecutionSideEffectSuppressionPass(PR);
96 initializeX86FlagsCopyLoweringPassPass(PR);
97 initializeX86LoadValueInjectionLoadHardeningPassPass(PR);
98 initializeX86LoadValueInjectionRetHardeningPassPass(PR);
99 initializeX86OptimizeLEAPassPass(PR);
100 initializeX86PartialReductionPass(PR);
101 initializePseudoProbeInserterPass(PR);
102 initializeX86ReturnThunksPass(PR);
103 initializeX86DAGToDAGISelLegacyPass(PR);
104 initializeX86ArgumentStackSlotPassPass(PR);
105 initializeX86FixupInstTuningPassPass(PR);
106 initializeX86FixupVectorConstantsPassPass(PR);
107 initializeX86DynAllocaExpanderPass(PR);
108}
109
110static std::unique_ptr<TargetLoweringObjectFile> createTLOF(const Triple &TT) {
111 if (TT.isOSBinFormatMachO()) {
112 if (TT.getArch() == Triple::x86_64)
113 return std::make_unique<X86_64MachoTargetObjectFile>();
114 return std::make_unique<TargetLoweringObjectFileMachO>();
115 }
116
117 if (TT.isOSBinFormatCOFF())
118 return std::make_unique<TargetLoweringObjectFileCOFF>();
119
120 if (TT.getArch() == Triple::x86_64)
121 return std::make_unique<X86_64ELFTargetObjectFile>();
122 return std::make_unique<X86ELFTargetObjectFile>();
123}
124
125static std::string computeDataLayout(const Triple &TT) {
126 // X86 is little endian
127 std::string Ret = "e";
128
129 Ret += DataLayout::getManglingComponent(TT);
130 // X86 and x32 have 32 bit pointers.
131 if (!TT.isArch64Bit() || TT.isX32() || TT.isOSNaCl())
132 Ret += "-p:32:32";
133
134 // Address spaces for 32 bit signed, 32 bit unsigned, and 64 bit pointers.
135 Ret += "-p270:32:32-p271:32:32-p272:64:64";
136
137 // Some ABIs align 64 bit integers and doubles to 64 bits, others to 32.
138 // 128 bit integers are not specified in the 32-bit ABIs but are used
139 // internally for lowering f128, so we match the alignment to that.
140 if (TT.isArch64Bit() || TT.isOSWindows() || TT.isOSNaCl())
141 Ret += "-i64:64-i128:128";
142 else if (TT.isOSIAMCU())
143 Ret += "-i64:32-f64:32";
144 else
145 Ret += "-i128:128-f64:32:64";
146
147 // Some ABIs align long double to 128 bits, others to 32.
148 if (TT.isOSNaCl() || TT.isOSIAMCU())
149 ; // No f80
150 else if (TT.isArch64Bit() || TT.isOSDarwin() || TT.isWindowsMSVCEnvironment())
151 Ret += "-f80:128";
152 else
153 Ret += "-f80:32";
154
155 if (TT.isOSIAMCU())
156 Ret += "-f128:32";
157
158 // The registers can hold 8, 16, 32 or, in x86-64, 64 bits.
159 if (TT.isArch64Bit())
160 Ret += "-n8:16:32:64";
161 else
162 Ret += "-n8:16:32";
163
164 // The stack is aligned to 32 bits on some ABIs and 128 bits on others.
165 if ((!TT.isArch64Bit() && TT.isOSWindows()) || TT.isOSIAMCU())
166 Ret += "-a:0:32-S32";
167 else
168 Ret += "-S128";
169
170 return Ret;
171}
172
173static Reloc::Model getEffectiveRelocModel(const Triple &TT, bool JIT,
174 std::optional<Reloc::Model> RM) {
175 bool is64Bit = TT.getArch() == Triple::x86_64;
176 if (!RM) {
177 // JIT codegen should use static relocations by default, since it's
178 // typically executed in process and not relocatable.
179 if (JIT)
180 return Reloc::Static;
181
182 // Darwin defaults to PIC in 64 bit mode and dynamic-no-pic in 32 bit mode.
183 // Win64 requires rip-rel addressing, thus we force it to PIC. Otherwise we
184 // use static relocation model by default.
185 if (TT.isOSDarwin()) {
186 if (is64Bit)
187 return Reloc::PIC_;
188 return Reloc::DynamicNoPIC;
189 }
190 if (TT.isOSWindows() && is64Bit)
191 return Reloc::PIC_;
192 return Reloc::Static;
193 }
194
195 // ELF and X86-64 don't have a distinct DynamicNoPIC model. DynamicNoPIC
196 // is defined as a model for code which may be used in static or dynamic
197 // executables but not necessarily a shared library. On X86-32 we just
198 // compile in -static mode, in x86-64 we use PIC.
199 if (*RM == Reloc::DynamicNoPIC) {
200 if (is64Bit)
201 return Reloc::PIC_;
202 if (!TT.isOSDarwin())
203 return Reloc::Static;
204 }
205
206 // If we are on Darwin, disallow static relocation model in X86-64 mode, since
207 // the Mach-O file format doesn't support it.
208 if (*RM == Reloc::Static && TT.isOSDarwin() && is64Bit)
209 return Reloc::PIC_;
210
211 return *RM;
212}
213
214static CodeModel::Model
215getEffectiveX86CodeModel(const Triple &TT, std::optional<CodeModel::Model> CM,
216 bool JIT) {
217 bool Is64Bit = TT.getArch() == Triple::x86_64;
218 if (CM) {
219 if (*CM == CodeModel::Tiny)
220 report_fatal_error("Target does not support the tiny CodeModel", false);
221 return *CM;
222 }
223 if (JIT)
224 return Is64Bit ? CodeModel::Large : CodeModel::Small;
225 return CodeModel::Small;
226}
227
228/// Create an X86 target.
229///
230X86TargetMachine::X86TargetMachine(const Target &T, const Triple &TT,
231 StringRef CPU, StringRef FS,
232 const TargetOptions &Options,
233 std::optional<Reloc::Model> RM,
234 std::optional<CodeModel::Model> CM,
235 CodeGenOptLevel OL, bool JIT)
236 : CodeGenTargetMachineImpl(T, computeDataLayout(TT), TT, CPU, FS, Options,
237 getEffectiveRelocModel(TT, JIT, RM),
238 getEffectiveX86CodeModel(TT, CM, JIT), OL),
239 TLOF(createTLOF(getTargetTriple())), IsJIT(JIT) {
240 // On PS4/PS5, the "return address" of a 'noreturn' call must still be within
241 // the calling function. Note that this also includes __stack_chk_fail,
242 // so there was some target-specific logic in the instruction selectors
243 // to handle that. That code has since been generalized, so the only thing
244 // needed is to set TrapUnreachable here.
245 if (TT.isPS() || TT.isOSBinFormatMachO()) {
246 this->Options.TrapUnreachable = true;
247 this->Options.NoTrapAfterNoreturn = TT.isOSBinFormatMachO();
248 }
249
250 setMachineOutliner(true);
251
252 // x86 supports the debug entry values.
253 setSupportsDebugEntryValues(true);
254
255 initAsmInfo();
256}
257
258X86TargetMachine::~X86TargetMachine() = default;
259
260const X86Subtarget *
261X86TargetMachine::getSubtargetImpl(const Function &F) const {
262 Attribute CPUAttr = F.getFnAttribute("target-cpu");
263 Attribute TuneAttr = F.getFnAttribute("tune-cpu");
264 Attribute FSAttr = F.getFnAttribute("target-features");
265
266 StringRef CPU =
267 CPUAttr.isValid() ? CPUAttr.getValueAsString() : (StringRef)TargetCPU;
268 // "x86-64" is a default target setting for many front ends. In these cases,
269 // they actually request for "generic" tuning unless the "tune-cpu" was
270 // specified.
271 StringRef TuneCPU = TuneAttr.isValid() ? TuneAttr.getValueAsString()
272 : CPU == "x86-64" ? "generic"
273 : (StringRef)CPU;
274 StringRef FS =
275 FSAttr.isValid() ? FSAttr.getValueAsString() : (StringRef)TargetFS;
276
277 SmallString<512> Key;
278 // The additions here are ordered so that the definitely short strings are
279 // added first so we won't exceed the small size. We append the
280 // much longer FS string at the end so that we only heap allocate at most
281 // one time.
282
283 // Extract prefer-vector-width attribute.
284 unsigned PreferVectorWidthOverride = 0;
285 Attribute PreferVecWidthAttr = F.getFnAttribute("prefer-vector-width");
286 if (PreferVecWidthAttr.isValid()) {
287 StringRef Val = PreferVecWidthAttr.getValueAsString();
288 unsigned Width;
289 if (!Val.getAsInteger(0, Width)) {
290 Key += 'p';
291 Key += Val;
292 PreferVectorWidthOverride = Width;
293 }
294 }
295
296 // Extract min-legal-vector-width attribute.
297 unsigned RequiredVectorWidth = UINT32_MAX;
298 Attribute MinLegalVecWidthAttr = F.getFnAttribute("min-legal-vector-width");
299 if (MinLegalVecWidthAttr.isValid()) {
300 StringRef Val = MinLegalVecWidthAttr.getValueAsString();
301 unsigned Width;
302 if (!Val.getAsInteger(0, Width)) {
303 Key += 'm';
304 Key += Val;
305 RequiredVectorWidth = Width;
306 }
307 }
308
309 // Add CPU to the Key.
310 Key += CPU;
311
312 // Add tune CPU to the Key.
313 Key += TuneCPU;
314
315 // Keep track of the start of the feature portion of the string.
316 unsigned FSStart = Key.size();
317
318 // FIXME: This is related to the code below to reset the target options,
319 // we need to know whether or not the soft float flag is set on the
320 // function before we can generate a subtarget. We also need to use
321 // it as a key for the subtarget since that can be the only difference
322 // between two functions.
323 bool SoftFloat = F.getFnAttribute("use-soft-float").getValueAsBool();
324 // If the soft float attribute is set on the function turn on the soft float
325 // subtarget feature.
326 if (SoftFloat)
327 Key += FS.empty() ? "+soft-float" : "+soft-float,";
328
329 Key += FS;
330
331 // We may have added +soft-float to the features so move the StringRef to
332 // point to the full string in the Key.
333 FS = Key.substr(FSStart);
334
335 auto &I = SubtargetMap[Key];
336 if (!I) {
337 // This needs to be done before we create a new subtarget since any
338 // creation will depend on the TM and the code generation flags on the
339 // function that reside in TargetOptions.
340 resetTargetOptions(F);
341 I = std::make_unique<X86Subtarget>(
342 TargetTriple, CPU, TuneCPU, FS, *this,
343 MaybeAlign(F.getParent()->getOverrideStackAlignment()),
344 PreferVectorWidthOverride, RequiredVectorWidth);
345 }
346 return I.get();
347}
348
349yaml::MachineFunctionInfo *X86TargetMachine::createDefaultFuncInfoYAML() const {
350 return new yaml::X86MachineFunctionInfo();
351}
352
353yaml::MachineFunctionInfo *
354X86TargetMachine::convertFuncInfoToYAML(const MachineFunction &MF) const {
355 const auto *MFI = MF.getInfo<X86MachineFunctionInfo>();
356 return new yaml::X86MachineFunctionInfo(*MFI);
357}
358
359bool X86TargetMachine::parseMachineFunctionInfo(
360 const yaml::MachineFunctionInfo &MFI, PerFunctionMIParsingState &PFS,
361 SMDiagnostic &Error, SMRange &SourceRange) const {
362 const auto &YamlMFI = static_cast<const yaml::X86MachineFunctionInfo &>(MFI);
363 PFS.MF.getInfo<X86MachineFunctionInfo>()->initializeBaseYamlFields(YamlMFI);
364 return false;
365}
366
367bool X86TargetMachine::isNoopAddrSpaceCast(unsigned SrcAS,
368 unsigned DestAS) const {
369 assert(SrcAS != DestAS && "Expected different address spaces!");
370 if (getPointerSize(SrcAS) != getPointerSize(DestAS))
371 return false;
372 return SrcAS < 256 && DestAS < 256;
373}
374
375void X86TargetMachine::reset() { SubtargetMap.clear(); }
376
377//===----------------------------------------------------------------------===//
378// X86 TTI query.
379//===----------------------------------------------------------------------===//
380
381TargetTransformInfo
382X86TargetMachine::getTargetTransformInfo(const Function &F) const {
383 return TargetTransformInfo(X86TTIImpl(this, F));
384}
385
386//===----------------------------------------------------------------------===//
387// Pass Pipeline Configuration
388//===----------------------------------------------------------------------===//
389
390namespace {
391
392/// X86 Code Generator Pass Configuration Options.
393class X86PassConfig : public TargetPassConfig {
394public:
395 X86PassConfig(X86TargetMachine &TM, PassManagerBase &PM)
396 : TargetPassConfig(TM, PM) {}
397
398 X86TargetMachine &getX86TargetMachine() const {
399 return getTM<X86TargetMachine>();
400 }
401
402 ScheduleDAGInstrs *
403 createMachineScheduler(MachineSchedContext *C) const override {
404 ScheduleDAGMILive *DAG = createGenericSchedLive(C);
405 DAG->addMutation(createX86MacroFusionDAGMutation());
406 return DAG;
407 }
408
409 ScheduleDAGInstrs *
410 createPostMachineScheduler(MachineSchedContext *C) const override {
411 ScheduleDAGMI *DAG = createGenericSchedPostRA(C);
412 DAG->addMutation(createX86MacroFusionDAGMutation());
413 return DAG;
414 }
415
416 void addIRPasses() override;
417 bool addInstSelector() override;
418 bool addIRTranslator() override;
419 bool addLegalizeMachineIR() override;
420 bool addRegBankSelect() override;
421 bool addGlobalInstructionSelect() override;
422 bool addILPOpts() override;
423 bool addPreISel() override;
424 void addMachineSSAOptimization() override;
425 void addPreRegAlloc() override;
426 bool addPostFastRegAllocRewrite() override;
427 void addPostRegAlloc() override;
428 void addPreEmitPass() override;
429 void addPreEmitPass2() override;
430 void addPreSched2() override;
431 bool addRegAssignAndRewriteOptimized() override;
432
433 std::unique_ptr<CSEConfigBase> getCSEConfig() const override;
434};
435
436class X86ExecutionDomainFix : public ExecutionDomainFix {
437public:
438 static char ID;
439 X86ExecutionDomainFix() : ExecutionDomainFix(ID, X86::VR128XRegClass) {}
440 StringRef getPassName() const override {
441 return "X86 Execution Dependency Fix";
442 }
443};
444char X86ExecutionDomainFix::ID;
445
446} // end anonymous namespace
447
448INITIALIZE_PASS_BEGIN(X86ExecutionDomainFix, "x86-execution-domain-fix",
449 "X86 Execution Domain Fix", false, false)
450INITIALIZE_PASS_DEPENDENCY(ReachingDefAnalysis)
451INITIALIZE_PASS_END(X86ExecutionDomainFix, "x86-execution-domain-fix",
452 "X86 Execution Domain Fix", false, false)
453
454TargetPassConfig *X86TargetMachine::createPassConfig(PassManagerBase &PM) {
455 return new X86PassConfig(*this, PM);
456}
457
458MachineFunctionInfo *X86TargetMachine::createMachineFunctionInfo(
459 BumpPtrAllocator &Allocator, const Function &F,
460 const TargetSubtargetInfo *STI) const {
461 return X86MachineFunctionInfo::create<X86MachineFunctionInfo>(Allocator, F,
462 STI);
463}
464
465void X86PassConfig::addIRPasses() {
466 addPass(createAtomicExpandLegacyPass());
467
468 // We add both pass anyway and when these two passes run, we skip the pass
469 // based on the option level and option attribute.
470 addPass(createX86LowerAMXIntrinsicsPass());
471 addPass(createX86LowerAMXTypePass());
472
473 TargetPassConfig::addIRPasses();
474
475 if (TM->getOptLevel() != CodeGenOptLevel::None) {
476 addPass(createInterleavedAccessPass());
477 addPass(createX86PartialReductionPass());
478 }
479
480 // Add passes that handle indirect branch removal and insertion of a retpoline
481 // thunk. These will be a no-op unless a function subtarget has the retpoline
482 // feature enabled.
483 addPass(createIndirectBrExpandPass());
484
485 // Add Control Flow Guard checks.
486 const Triple &TT = TM->getTargetTriple();
487 if (TT.isOSWindows()) {
488 if (TT.getArch() == Triple::x86_64) {
489 addPass(createCFGuardDispatchPass());
490 } else {
491 addPass(createCFGuardCheckPass());
492 }
493 }
494
495 if (TM->Options.JMCInstrument)
496 addPass(createJMCInstrumenterPass());
497}
498
499bool X86PassConfig::addInstSelector() {
500 // Install an instruction selector.
501 addPass(createX86ISelDag(getX86TargetMachine(), getOptLevel()));
502
503 // For ELF, cleanup any local-dynamic TLS accesses.
504 if (TM->getTargetTriple().isOSBinFormatELF() &&
505 getOptLevel() != CodeGenOptLevel::None)
506 addPass(createCleanupLocalDynamicTLSPass());
507
508 addPass(createX86GlobalBaseRegPass());
509 addPass(createX86ArgumentStackSlotPass());
510 return false;
511}
512
513bool X86PassConfig::addIRTranslator() {
514 addPass(new IRTranslator(getOptLevel()));
515 return false;
516}
517
518bool X86PassConfig::addLegalizeMachineIR() {
519 addPass(new Legalizer());
520 return false;
521}
522
523bool X86PassConfig::addRegBankSelect() {
524 addPass(new RegBankSelect());
525 return false;
526}
527
528bool X86PassConfig::addGlobalInstructionSelect() {
529 addPass(new InstructionSelect(getOptLevel()));
530 // Add GlobalBaseReg in case there is no SelectionDAG passes afterwards
531 if (isGlobalISelAbortEnabled())
532 addPass(createX86GlobalBaseRegPass());
533 return false;
534}
535
536bool X86PassConfig::addILPOpts() {
537 addPass(&EarlyIfConverterLegacyID);
538 if (EnableMachineCombinerPass)
539 addPass(&MachineCombinerID);
540 addPass(createX86CmovConverterPass());
541 return true;
542}
543
544bool X86PassConfig::addPreISel() {
545 // Only add this pass for 32-bit x86 Windows.
546 const Triple &TT = TM->getTargetTriple();
547 if (TT.isOSWindows() && TT.getArch() == Triple::x86)
548 addPass(createX86WinEHStatePass());
549 return true;
550}
551
552void X86PassConfig::addPreRegAlloc() {
553 if (getOptLevel() != CodeGenOptLevel::None) {
554 addPass(&LiveRangeShrinkID);
555 addPass(createX86WinFixupBufferSecurityCheckPass());
556 addPass(createX86FixupSetCC());
557 addPass(createX86OptimizeLEAs());
558 addPass(createX86CallFrameOptimization());
559 addPass(createX86AvoidStoreForwardingBlocks());
560 }
561
562 addPass(createX86SpeculativeLoadHardeningPass());
563 addPass(createX86FlagsCopyLoweringPass());
564 addPass(createX86DynAllocaExpander());
565
566 if (getOptLevel() != CodeGenOptLevel::None)
567 addPass(createX86PreTileConfigPass());
568 else
569 addPass(createX86FastPreTileConfigPass());
570}
571
572void X86PassConfig::addMachineSSAOptimization() {
573 addPass(createX86DomainReassignmentPass());
574 TargetPassConfig::addMachineSSAOptimization();
575}
576
577void X86PassConfig::addPostRegAlloc() {
578 addPass(createX86LowerTileCopyPass());
579 addPass(createX86FloatingPointStackifierPass());
580 // When -O0 is enabled, the Load Value Injection Hardening pass will fall back
581 // to using the Speculative Execution Side Effect Suppression pass for
582 // mitigation. This is to prevent slow downs due to
583 // analyses needed by the LVIHardening pass when compiling at -O0.
584 if (getOptLevel() != CodeGenOptLevel::None)
585 addPass(createX86LoadValueInjectionLoadHardeningPass());
586}
587
588void X86PassConfig::addPreSched2() {
589 addPass(createX86ExpandPseudoPass());
590 addPass(createKCFIPass());
591}
592
593void X86PassConfig::addPreEmitPass() {
594 if (getOptLevel() != CodeGenOptLevel::None) {
595 addPass(new X86ExecutionDomainFix());
596 addPass(createBreakFalseDeps());
597 }
598
599 addPass(createX86IndirectBranchTrackingPass());
600
601 addPass(createX86IssueVZeroUpperPass());
602
603 if (getOptLevel() != CodeGenOptLevel::None) {
604 addPass(createX86FixupBWInsts());
605 addPass(createX86PadShortFunctions());
606 addPass(createX86FixupLEAs());
607 addPass(createX86FixupInstTuning());
608 addPass(createX86FixupVectorConstants());
609 }
610 addPass(createX86CompressEVEXPass());
611 addPass(createX86DiscriminateMemOpsPass());
612 addPass(createX86InsertPrefetchPass());
613 addPass(createX86InsertX87waitPass());
614}
615
616void X86PassConfig::addPreEmitPass2() {
617 const Triple &TT = TM->getTargetTriple();
618 const MCAsmInfo *MAI = TM->getMCAsmInfo();
619
620 // The X86 Speculative Execution Pass must run after all control
621 // flow graph modifying passes. As a result it was listed to run right before
622 // the X86 Retpoline Thunks pass. The reason it must run after control flow
623 // graph modifications is that the model of LFENCE in LLVM has to be updated
624 // (FIXME: https://bugs.llvm.org/show_bug.cgi?id=45167). Currently the
625 // placement of this pass was hand checked to ensure that the subsequent
626 // passes don't move the code around the LFENCEs in a way that will hurt the
627 // correctness of this pass. This placement has been shown to work based on
628 // hand inspection of the codegen output.
629 addPass(createX86SpeculativeExecutionSideEffectSuppression());
630 addPass(createX86IndirectThunksPass());
631 addPass(createX86ReturnThunksPass());
632
633 // Insert extra int3 instructions after trailing call instructions to avoid
634 // issues in the unwinder.
635 if (TT.isOSWindows() && TT.getArch() == Triple::x86_64)
636 addPass(createX86AvoidTrailingCallPass());
637
638 // Verify basic block incoming and outgoing cfa offset and register values and
639 // correct CFA calculation rule where needed by inserting appropriate CFI
640 // instructions.
641 if (!TT.isOSDarwin() &&
642 (!TT.isOSWindows() ||
643 MAI->getExceptionHandlingType() == ExceptionHandling::DwarfCFI))
644 addPass(createCFIInstrInserter());
645
646 if (TT.isOSWindows()) {
647 // Identify valid longjmp targets for Windows Control Flow Guard.
648 addPass(createCFGuardLongjmpPass());
649 // Identify valid eh continuation targets for Windows EHCont Guard.
650 addPass(createEHContGuardCatchretPass());
651 }
652 addPass(createX86LoadValueInjectionRetHardeningPass());
653
654 // Insert pseudo probe annotation for callsite profiling
655 addPass(createPseudoProbeInserter());
656
657 // KCFI indirect call checks are lowered to a bundle, and on Darwin platforms,
658 // also CALL_RVMARKER.
659 addPass(createUnpackMachineBundles([&TT](const MachineFunction &MF) {
660 // Only run bundle expansion if the module uses kcfi, or there are relevant
661 // ObjC runtime functions present in the module.
662 const Function &F = MF.getFunction();
663 const Module *M = F.getParent();
664 return M->getModuleFlag("kcfi") ||
665 (TT.isOSDarwin() &&
666 (M->getFunction("objc_retainAutoreleasedReturnValue") ||
667 M->getFunction("objc_unsafeClaimAutoreleasedReturnValue")));
668 }));
669}
670
671bool X86PassConfig::addPostFastRegAllocRewrite() {
672 addPass(createX86FastTileConfigPass());
673 return true;
674}
675
676std::unique_ptr<CSEConfigBase> X86PassConfig::getCSEConfig() const {
677 return getStandardCSEConfigForOpt(TM->getOptLevel());
678}
679
680static bool onlyAllocateTileRegisters(const TargetRegisterInfo &TRI,
681 const MachineRegisterInfo &MRI,
682 const Register Reg) {
683 const TargetRegisterClass *RC = MRI.getRegClass(Reg);
684 return static_cast<const X86RegisterInfo &>(TRI).isTileRegisterClass(RC);
685}
686
687bool X86PassConfig::addRegAssignAndRewriteOptimized() {
688 // Don't support tile RA when RA is specified by command line "-regalloc".
689 if (!isCustomizedRegAlloc() && EnableTileRAPass) {
690 // Allocate tile register first.
691 addPass(createGreedyRegisterAllocator(onlyAllocateTileRegisters));
692 addPass(createX86TileConfigPass());
693 }
694 return TargetPassConfig::addRegAssignAndRewriteOptimized();
695}
MRI
unsigned const MachineRegisterInfo * MRI
Definition: AArch64AdvSIMDScalarPass.cpp:105
Fix
Falkor HW Prefetch Fix
Definition: AArch64FalkorHWPFFix.cpp:111
fix
arm execution domain fix
Definition: ARMTargetMachine.cpp:409
Attributes.h
This file contains the simple types necessary to represent the attributes associated with functions a...
CSEInfo.h
Provides analysis for continuously CSEing during GISel passes.
CallLowering.h
This file describes how to lower LLVM calls to machine code calls.
LLVM_C_ABI
#define LLVM_C_ABI
Definition: Compiler.h:218
X
static GCMetadataPrinterRegistry::Add< ErlangGCPrinter > X("erlang", "erlang-compatible garbage collector")
IRTranslator.h
This file declares the IRTranslator pass.
Options
static LVOptions Options
Definition: LVOptions.cpp:25
computeDataLayout
static std::string computeDataLayout()
Definition: LanaiTargetMachine.cpp:41
F
#define F(x, y, z)
Definition: MD5.cpp:55
I
#define I(x, y, z)
Definition: MD5.cpp:58
TRI
unsigned const TargetRegisterInfo * TRI
Definition: MachineSink.cpp:1945
Y
static GCMetadataPrinterRegistry::Add< OcamlGCMetadataPrinter > Y("ocaml", "ocaml 3.10-compatible collector")
EnableMachineCombinerPass
static cl::opt< bool > EnableMachineCombinerPass("ppc-machine-combiner", cl::desc("Enable the machine combiner pass"), cl::init(true), cl::Hidden)
INITIALIZE_PASS_DEPENDENCY
#define INITIALIZE_PASS_DEPENDENCY(depName)
Definition: PassSupport.h:55
INITIALIZE_PASS_END
#define INITIALIZE_PASS_END(passName, arg, name, cfg, analysis)
Definition: PassSupport.h:57
INITIALIZE_PASS_BEGIN
#define INITIALIZE_PASS_BEGIN(passName, arg, name, cfg, analysis)
Definition: PassSupport.h:52
Allocator
Basic Register Allocator
Definition: RegAllocBasic.cpp:146
RegBankSelect.h
This file describes the interface of the MachineFunctionPass responsible for assigning the generic vi...
assert
assert(ImpDefSCC.getReg()==AMDGPU::SCC &&ImpDefSCC.isDef())
SmallString.h
This file defines the SmallString class.
execution
speculative execution
Definition: SpeculativeExecution.cpp:136
TargetPassConfig.h
Target-Independent Code Generator Pass Configuration Options pass.
TargetTransformInfo.h
This pass exposes codegen information to IR-level passes.
createTLOF
static std::unique_ptr< TargetLoweringObjectFile > createTLOF()
Definition: VETargetMachine.cpp:81
is64Bit
static bool is64Bit(const char *name)
Definition: X86Disassembler.cpp:1085
EnableTileRAPass
static cl::opt< bool > EnableTileRAPass("x86-tile-ra", cl::desc("Enable the tile register allocation pass"), cl::init(true), cl::Hidden)
EnableMachineCombinerPass
static cl::opt< bool > EnableMachineCombinerPass("x86-machine-combiner", cl::desc("Enable the machine combiner pass"), cl::init(true), cl::Hidden)
getEffectiveX86CodeModel
static CodeModel::Model getEffectiveX86CodeModel(const Triple &TT, std::optional< CodeModel::Model > CM, bool JIT)
Definition: X86TargetMachine.cpp:215
onlyAllocateTileRegisters
static bool onlyAllocateTileRegisters(const TargetRegisterInfo &TRI, const MachineRegisterInfo &MRI, const Register Reg)
Definition: X86TargetMachine.cpp:680
LLVMInitializeX86Target
LLVM_C_ABI void LLVMInitializeX86Target()
Definition: X86TargetMachine.cpp:66
getEffectiveRelocModel
static Reloc::Model getEffectiveRelocModel(const Triple &TT, bool JIT, std::optional< Reloc::Model > RM)
Definition: X86TargetMachine.cpp:173
X86TargetTransformInfo.h
This file a TargetTransformInfo::Concept conforming object specific to the X86 target machine.
llvm::Attribute::getValueAsString
StringRef getValueAsString() const
Return the attribute's value as a string.
Definition: Attributes.cpp:392
llvm::Attribute::isValid
bool isValid() const
Return true if the attribute is any kind of attribute.
Definition: Attributes.h:208
llvm::BumpPtrAllocatorImpl
Allocate memory in an ever growing pool, as if by bump-pointer.
Definition: Allocator.h:66
llvm::CodeGenTargetMachineImpl
implements a set of functionality in the TargetMachine class for targets that make use of the indepen...
Definition: CodeGenTargetMachineImpl.h:23
llvm::DataLayout::getManglingComponent
static const char * getManglingComponent(const Triple &T)
Definition: DataLayout.cpp:176
llvm::Error
Lightweight error class with error context and mandatory checking.
Definition: Error.h:160
llvm::InstructionSelect
This pass is responsible for selecting generic machine instructions to target-specific instructions.
Definition: InstructionSelect.h:35
llvm::MCAsmInfo
This class is intended to be used as a base class for asm properties and features specific to the tar...
Definition: MCAsmInfo.h:56
llvm::MCAsmInfo::getExceptionHandlingType
ExceptionHandling getExceptionHandlingType() const
Definition: MCAsmInfo.h:642
llvm::MachineFunction::getFunction
Function & getFunction()
Return the LLVM function that this machine code represents.
Definition: MachineFunction.h:695
llvm::MachineFunction::getInfo
Ty * getInfo()
getInfo - Keep track of various per-function pieces of information for backends that would like to do...
Definition: MachineFunction.h:822
llvm::MachineRegisterInfo
MachineRegisterInfo - Keep track of information for virtual and physical registers,...
Definition: MachineRegisterInfo.h:51
llvm::Module
A Module instance is used to store all the information related to an LLVM module.
Definition: Module.h:65
llvm::PassRegistry
PassRegistry - This class manages the registration and intitialization of the pass subsystem as appli...
Definition: PassRegistry.h:37
llvm::PassRegistry::getPassRegistry
static PassRegistry * getPassRegistry()
getPassRegistry - Access the global registry object, which is automatically initialized at applicatio...
Definition: PassRegistry.cpp:24
llvm::ReachingDefAnalysis
This class provides the reaching def analysis.
Definition: ReachingDefAnalysis.h:113
llvm::RegBankSelect
This pass implements the reg bank selector pass used in the GlobalISel pipeline.
Definition: RegBankSelect.h:91
llvm::Register
Wrapper class representing virtual and physical registers.
Definition: Register.h:19
llvm::SMDiagnostic
Instances of this class encapsulate one diagnostic report, allowing printing to a raw_ostream as a ca...
Definition: SourceMgr.h:281
llvm::SMRange
Represents a range in source code.
Definition: SMLoc.h:48
llvm::ScheduleDAGInstrs
A ScheduleDAG for scheduling lists of MachineInstr.
Definition: ScheduleDAGInstrs.h:114
llvm::ScheduleDAGMILive
ScheduleDAGMILive is an implementation of ScheduleDAGInstrs that schedules machine instructions while...
Definition: MachineScheduler.h:407
llvm::ScheduleDAGMI
ScheduleDAGMI is an implementation of ScheduleDAGInstrs that simply schedules machine instructions ac...
Definition: MachineScheduler.h:285
llvm::ScheduleDAGMI::addMutation
void addMutation(std::unique_ptr< ScheduleDAGMutation > Mutation)
Add a postprocessing step to the DAG builder.
Definition: MachineScheduler.h:337
llvm::SmallString
SmallString - A SmallString is just a SmallVector with methods and accessors that make it work better...
Definition: SmallString.h:26
llvm::StringRef
StringRef - Represent a constant reference to a string, i.e.
Definition: StringRef.h:51
llvm::StringRef::getAsInteger
bool getAsInteger(unsigned Radix, T &Result) const
Parse the current string as an integer of the specified radix.
Definition: StringRef.h:470
llvm::TargetMachine::setSupportsDebugEntryValues
void setSupportsDebugEntryValues(bool Enable)
Definition: TargetMachine.h:275
llvm::TargetMachine::TargetTriple
Triple TargetTriple
Triple string, CPU name, and target feature strings the TargetMachine instance is created with.
Definition: TargetMachine.h:96
llvm::TargetMachine::setMachineOutliner
void setMachineOutliner(bool Enable)
Definition: TargetMachine.h:269
llvm::TargetMachine::getPointerSize
unsigned getPointerSize(unsigned AS) const
Get the pointer size for this target.
Definition: TargetMachine.h:190
llvm::TargetMachine::TargetFS
std::string TargetFS
Definition: TargetMachine.h:98
llvm::TargetMachine::TargetCPU
std::string TargetCPU
Definition: TargetMachine.h:97
llvm::TargetMachine::STI
std::unique_ptr< const MCSubtargetInfo > STI
Definition: TargetMachine.h:109
llvm::TargetMachine::resetTargetOptions
void resetTargetOptions(const Function &F) const
Reset the target options based on the function's attributes.
Definition: TargetMachine.cpp:129
llvm::TargetOptions::NoTrapAfterNoreturn
unsigned NoTrapAfterNoreturn
Do not emit a trap instruction for 'unreachable' IR instructions behind noreturn calls,...
Definition: TargetOptions.h:291
llvm::TargetOptions::TrapUnreachable
unsigned TrapUnreachable
Emit target-specific trap instruction for 'unreachable' IR instructions.
Definition: TargetOptions.h:287
llvm::TargetPassConfig
Target-Independent Code Generator Pass Configuration Options.
Definition: TargetPassConfig.h:85
llvm::TargetPassConfig::addIRPasses
virtual void addIRPasses()
Add common target configurable passes that perform LLVM IR to IR transforms following machine indepen...
Definition: TargetPassConfig.cpp:815
llvm::TargetPassConfig::addMachineSSAOptimization
virtual void addMachineSSAOptimization()
addMachineSSAOptimization - Add standard passes that optimize machine instructions in SSA form.
Definition: TargetPassConfig.cpp:1281
llvm::TargetPassConfig::addRegAssignAndRewriteOptimized
virtual bool addRegAssignAndRewriteOptimized()
Definition: TargetPassConfig.cpp:1402
llvm::TargetRegisterInfo
TargetRegisterInfo base class - We assume that the target defines a static array of TargetRegisterDes...
Definition: TargetRegisterInfo.h:235
llvm::TargetSubtargetInfo
TargetSubtargetInfo - Generic base class for all target subtargets.
Definition: TargetSubtargetInfo.h:63
llvm::TargetTransformInfo
This pass provides access to the codegen interfaces that are needed for IR-level transformations.
Definition: TargetTransformInfo.h:212
llvm::Target
Target - Wrapper for Target specific information.
Definition: TargetRegistry.h:144
llvm::Triple
Triple - Helper class for working with autoconf configuration names.
Definition: Triple.h:44
llvm::X86MachineFunctionInfo
X86MachineFunctionInfo - This class is derived from MachineFunction and contains private X86 target-s...
Definition: X86MachineFunctionInfo.h:58
llvm::X86TargetMachine::isNoopAddrSpaceCast
bool isNoopAddrSpaceCast(unsigned SrcAS, unsigned DestAS) const override
Returns true if a cast between SrcAS and DestAS is a noop.
Definition: X86TargetMachine.cpp:367
llvm::X86TargetMachine::createMachineFunctionInfo
MachineFunctionInfo * createMachineFunctionInfo(BumpPtrAllocator &Allocator, const Function &F, const TargetSubtargetInfo *STI) const override
Create the target's instance of MachineFunctionInfo.
Definition: X86TargetMachine.cpp:458
llvm::X86TargetMachine::convertFuncInfoToYAML
yaml::MachineFunctionInfo * convertFuncInfoToYAML(const MachineFunction &MF) const override
Allocate and initialize an instance of the YAML representation of the MachineFunctionInfo.
Definition: X86TargetMachine.cpp:354
llvm::X86TargetMachine::getSubtargetImpl
const X86Subtarget * getSubtargetImpl() const =delete
llvm::X86TargetMachine::parseMachineFunctionInfo
bool parseMachineFunctionInfo(const yaml::MachineFunctionInfo &, PerFunctionMIParsingState &PFS, SMDiagnostic &Error, SMRange &SourceRange) const override
Parse out the target's MachineFunctionInfo from the YAML reprsentation.
Definition: X86TargetMachine.cpp:359
llvm::X86TargetMachine::~X86TargetMachine
~X86TargetMachine() override
llvm::X86TargetMachine::getTargetTransformInfo
TargetTransformInfo getTargetTransformInfo(const Function &F) const override
Get a TargetTransformInfo implementation for the target.
Definition: X86TargetMachine.cpp:382
llvm::X86TargetMachine::createDefaultFuncInfoYAML
yaml::MachineFunctionInfo * createDefaultFuncInfoYAML() const override
Allocate and return a default initialized instance of the YAML representation for the MachineFunction...
Definition: X86TargetMachine.cpp:349
llvm::X86TargetMachine::X86TargetMachine
X86TargetMachine(const Target &T, const Triple &TT, StringRef CPU, StringRef FS, const TargetOptions &Options, std::optional< Reloc::Model > RM, std::optional< CodeModel::Model > CM, CodeGenOptLevel OL, bool JIT)
Create an X86 target.
Definition: X86TargetMachine.cpp:230
llvm::legacy::PassManagerBase
PassManagerBase - An abstract interface to allow code to add passes to a pass manager without having ...
Definition: LegacyPassManager.h:39
llvm::CallingConv::C
@ C
The default llvm calling convention, compatible with C.
Definition: CallingConv.h:34
llvm::CallingConv::ID
unsigned ID
LLVM IR allows to use arbitrary numbers as calling convention identifiers.
Definition: CallingConv.h:24
llvm::Reloc::DynamicNoPIC
@ DynamicNoPIC
Definition: CodeGen.h:25
llvm::WinEH::EncodingType::X86
@ X86
Windows x64, Windows Itanium (IA-64)
llvm::cl::init
initializer< Ty > init(const Ty &Val)
Definition: CommandLine.h:443
llvm
This is an optimization pass for GlobalISel generic memory operations.
Definition: AddressRanges.h:18
llvm::createX86FloatingPointStackifierPass
FunctionPass * createX86FloatingPointStackifierPass()
This function returns a pass which converts floating-point register references and pseudo instruction...
Definition: X86FloatingPoint.cpp:310
llvm::createIndirectBrExpandPass
FunctionPass * createIndirectBrExpandPass()
Definition: IndirectBrExpandPass.cpp:98
llvm::createX86WinEHStatePass
FunctionPass * createX86WinEHStatePass()
Return an IR pass that inserts EH registration stack objects and explicit EH state updates.
Definition: X86WinEHState.cpp:120
llvm::initializeX86TileConfigPass
void initializeX86TileConfigPass(PassRegistry &)
llvm::initializeX86PartialReductionPass
void initializeX86PartialReductionPass(PassRegistry &)
llvm::initializeX86CallFrameOptimizationPass
void initializeX86CallFrameOptimizationPass(PassRegistry &)
llvm::initializeFixupBWInstPassPass
void initializeFixupBWInstPassPass(PassRegistry &)
llvm::initializeX86LoadValueInjectionRetHardeningPassPass
void initializeX86LoadValueInjectionRetHardeningPassPass(PassRegistry &)
llvm::createX86LoadValueInjectionLoadHardeningPass
FunctionPass * createX86LoadValueInjectionLoadHardeningPass()
Definition: X86LoadValueInjectionLoadHardening.cpp:807
llvm::createX86IssueVZeroUpperPass
FunctionPass * createX86IssueVZeroUpperPass()
This pass inserts AVX vzeroupper instructions before each call to avoid transition penalty between fu...
Definition: X86VZeroUpper.cpp:116
llvm::createGreedyRegisterAllocator
FunctionPass * createGreedyRegisterAllocator()
Greedy register allocation pass - This pass implements a global register allocator for optimized buil...
Definition: RegAllocGreedy.cpp:188
llvm::initializeX86ArgumentStackSlotPassPass
void initializeX86ArgumentStackSlotPassPass(PassRegistry &)
llvm::initializeX86SpeculativeLoadHardeningPassPass
void initializeX86SpeculativeLoadHardeningPassPass(PassRegistry &)
llvm::initializeWinEHStatePassPass
void initializeWinEHStatePassPass(PassRegistry &)
llvm::createX86InsertPrefetchPass
FunctionPass * createX86InsertPrefetchPass()
This pass applies profiling information to insert cache prefetches.
Definition: X86InsertPrefetch.cpp:257
llvm::ExceptionHandling::DwarfCFI
@ DwarfCFI
DWARF-like instruction based exceptions.
llvm::createPseudoProbeInserter
FunctionPass * createPseudoProbeInserter()
This pass inserts pseudo probe annotation for callsite profiling.
Definition: PseudoProbeInserter.cpp:148
llvm::createX86LowerAMXIntrinsicsPass
FunctionPass * createX86LowerAMXIntrinsicsPass()
The pass transforms amx intrinsics to scalar operation if the function has optnone attribute or it is...
Definition: X86LowerAMXIntrinsics.cpp:674
llvm::getTheX86_32Target
Target & getTheX86_32Target()
Definition: X86TargetInfo.cpp:13
llvm::createX86GlobalBaseRegPass
FunctionPass * createX86GlobalBaseRegPass()
This pass initializes a global base register for PIC on x86-32.
Definition: X86InstrInfo.cpp:10387
llvm::createX86FixupBWInsts
FunctionPass * createX86FixupBWInsts()
Return a Machine IR pass that selectively replaces certain byte and word instructions by equivalent 3...
Definition: X86FixupBWInsts.cpp:152
llvm::initializeX86LowerAMXIntrinsicsLegacyPassPass
void initializeX86LowerAMXIntrinsicsLegacyPassPass(PassRegistry &)
llvm::createX86DomainReassignmentPass
FunctionPass * createX86DomainReassignmentPass()
Return a Machine IR pass that reassigns instruction chains from one domain to another,...
llvm::createX86LoadValueInjectionRetHardeningPass
FunctionPass * createX86LoadValueInjectionRetHardeningPass()
llvm::createX86SpeculativeExecutionSideEffectSuppression
FunctionPass * createX86SpeculativeExecutionSideEffectSuppression()
Definition: X86SpeculativeExecutionSideEffectSuppression.cpp:176
llvm::createCleanupLocalDynamicTLSPass
FunctionPass * createCleanupLocalDynamicTLSPass()
This pass combines multiple accesses to local-dynamic TLS variables so that the TLS base address for ...
Definition: X86InstrInfo.cpp:10499
llvm::createX86FlagsCopyLoweringPass
FunctionPass * createX86FlagsCopyLoweringPass()
Return a pass that lowers EFLAGS copy pseudo instructions.
Definition: X86FlagsCopyLowering.cpp:122
llvm::initializeX86FastTileConfigPass
void initializeX86FastTileConfigPass(PassRegistry &)
llvm::createCFGuardDispatchPass
FunctionPass * createCFGuardDispatchPass()
Insert Control FLow Guard dispatches on indirect function calls.
Definition: CFGuard.cpp:318
llvm::getStandardCSEConfigForOpt
std::unique_ptr< CSEConfigBase > getStandardCSEConfigForOpt(CodeGenOptLevel Level)
Definition: CSEInfo.cpp:79
llvm::createX86CompressEVEXPass
FunctionPass * createX86CompressEVEXPass()
This pass compress instructions from EVEX space to legacy/VEX/EVEX space when possible in order to re...
Definition: X86CompressEVEX.cpp:304
llvm::initializeX86ExpandPseudoPass
void initializeX86ExpandPseudoPass(PassRegistry &)
llvm::initializeX86AvoidTrailingCallPassPass
void initializeX86AvoidTrailingCallPassPass(PassRegistry &)
llvm::createGenericSchedLive
ScheduleDAGMILive * createGenericSchedLive(MachineSchedContext *C)
Create the standard converging machine scheduler.
Definition: MachineScheduler.cpp:3846
llvm::createX86ArgumentStackSlotPass
FunctionPass * createX86ArgumentStackSlotPass()
llvm::initializeX86PreTileConfigPass
void initializeX86PreTileConfigPass(PassRegistry &)
llvm::EarlyIfConverterLegacyID
char & EarlyIfConverterLegacyID
EarlyIfConverter - This pass performs if-conversion on SSA form by inserting cmov instructions.
Definition: EarlyIfConversion.cpp:800
llvm::createX86CmovConverterPass
FunctionPass * createX86CmovConverterPass()
This pass converts X86 cmov instructions into branch when profitable.
Definition: X86CmovConversion.cpp:896
llvm::createX86TileConfigPass
FunctionPass * createX86TileConfigPass()
Return a pass that config the tile registers.
Definition: X86TileConfig.cpp:266
llvm::createX86PadShortFunctions
FunctionPass * createX86PadShortFunctions()
Return a pass that pads short functions with NOOPs.
Definition: X86PadShortFunction.cpp:97
llvm::initializeX86DomainReassignmentPass
void initializeX86DomainReassignmentPass(PassRegistry &)
llvm::initializeX86LoadValueInjectionLoadHardeningPassPass
void initializeX86LoadValueInjectionLoadHardeningPassPass(PassRegistry &)
llvm::createX86FastPreTileConfigPass
FunctionPass * createX86FastPreTileConfigPass()
Return a pass that preconfig the tile registers before fast reg allocation.
Definition: X86FastPreTileConfig.cpp:722
llvm::createJMCInstrumenterPass
ModulePass * createJMCInstrumenterPass()
JMC instrument pass.
llvm::createX86MacroFusionDAGMutation
std::unique_ptr< ScheduleDAGMutation > createX86MacroFusionDAGMutation()
Note that you have to add: DAG.addMutation(createX86MacroFusionDAGMutation()); to X86PassConfig::crea...
Definition: X86MacroFusion.cpp:70
llvm::initializeX86AvoidSFBPassPass
void initializeX86AvoidSFBPassPass(PassRegistry &)
llvm::createX86LowerTileCopyPass
FunctionPass * createX86LowerTileCopyPass()
Return a pass that lower the tile copy instruction.
Definition: X86LowerTileCopy.cpp:68
llvm::MachineCombinerID
char & MachineCombinerID
This pass performs instruction combining using trace metrics to estimate critical-path and resource d...
Definition: MachineCombiner.cpp:128
llvm::initializeX86FastPreTileConfigPass
void initializeX86FastPreTileConfigPass(PassRegistry &)
llvm::createX86SpeculativeLoadHardeningPass
FunctionPass * createX86SpeculativeLoadHardeningPass()
Definition: X86SpeculativeLoadHardening.cpp:2267
llvm::createX86FixupSetCC
FunctionPass * createX86FixupSetCC()
Return a pass that transforms setcc + movzx pairs into xor + setcc.
Definition: X86FixupSetCC.cpp:65
llvm::createX86IndirectBranchTrackingPass
FunctionPass * createX86IndirectBranchTrackingPass()
This pass inserts ENDBR instructions before indirect jump/call destinations as part of CET IBT mechan...
Definition: X86IndirectBranchTracking.cpp:69
llvm::createX86InsertX87waitPass
FunctionPass * createX86InsertX87waitPass()
This pass insert wait instruction after X87 instructions which could raise fp exceptions when strict-...
Definition: X86InsertWait.cpp:56
llvm::initializeX86FixupSetCCPassPass
void initializeX86FixupSetCCPassPass(PassRegistry &)
llvm::createKCFIPass
FunctionPass * createKCFIPass()
Lowers KCFI operand bundles for indirect calls.
Definition: KCFI.cpp:61
llvm::LiveRangeShrinkID
char & LiveRangeShrinkID
LiveRangeShrink pass.
Definition: LiveRangeShrink.cpp:65
llvm::createX86ExpandPseudoPass
FunctionPass * createX86ExpandPseudoPass()
Return a Machine IR pass that expands X86-specific pseudo instructions into a sequence of actual inst...
Definition: X86ExpandPseudo.cpp:1099
llvm::report_fatal_error
void report_fatal_error(Error Err, bool gen_crash_diag=true)
Report a serious error, calling any installed error handler.
Definition: Error.cpp:167
llvm::createX86FixupInstTuning
FunctionPass * createX86FixupInstTuning()
Return a pass that replaces equivalent slower instructions with faster ones.
Definition: X86FixupInstTuning.cpp:67
llvm::createX86ISelDag
FunctionPass * createX86ISelDag(X86TargetMachine &TM, CodeGenOptLevel OptLevel)
This pass converts a legalized DAG into a X86-specific DAG, ready for instruction scheduling.
Definition: X86ISelDAGToDAG.cpp:6756
llvm::initializeX86LowerTileCopyPass
void initializeX86LowerTileCopyPass(PassRegistry &)
llvm::initializeX86OptimizeLEAPassPass
void initializeX86OptimizeLEAPassPass(PassRegistry &)
llvm::CodeGenOptLevel
CodeGenOptLevel
Code generation optimization level.
Definition: CodeGen.h:54
llvm::createX86FastTileConfigPass
FunctionPass * createX86FastTileConfigPass()
Return a pass that config the tile registers after fast reg allocation.
Definition: X86FastTileConfig.cpp:201
llvm::createCFGuardLongjmpPass
FunctionPass * createCFGuardLongjmpPass()
Creates CFGuard longjmp target identification pass.
llvm::createX86PartialReductionPass
FunctionPass * createX86PartialReductionPass()
This pass optimizes arithmetic based on knowledge that is only used by a reduction sequence and is th...
Definition: X86PartialReduction.cpp:58
llvm::createX86FixupLEAs
FunctionPass * createX86FixupLEAs()
Return a pass that selectively replaces certain instructions (like add, sub, inc, dec,...
Definition: X86FixupLEAs.cpp:214
llvm::createInterleavedAccessPass
FunctionPass * createInterleavedAccessPass()
InterleavedAccess Pass - This pass identifies and matches interleaved memory accesses to target speci...
Definition: InterleavedAccessPass.cpp:198
llvm::initializeGlobalISel
void initializeGlobalISel(PassRegistry &)
Initialize all passes linked into the GlobalISel library.
Definition: GlobalISel.cpp:17
llvm::createGenericSchedPostRA
ScheduleDAGMI * createGenericSchedPostRA(MachineSchedContext *C)
Create a generic scheduler with no vreg liveness or DAG mutation passes.
Definition: MachineScheduler.cpp:4154
llvm::initializeX86FixupInstTuningPassPass
void initializeX86FixupInstTuningPassPass(PassRegistry &)
llvm::initializeX86LowerAMXTypeLegacyPassPass
void initializeX86LowerAMXTypeLegacyPassPass(PassRegistry &)
llvm::initializeX86CmovConverterPassPass
void initializeX86CmovConverterPassPass(PassRegistry &)
llvm::createBreakFalseDeps
FunctionPass * createBreakFalseDeps()
Creates Break False Dependencies pass.
Definition: BreakFalseDeps.cpp:108
llvm::createX86CallFrameOptimization
FunctionPass * createX86CallFrameOptimization()
Return a pass that optimizes the code-size of x86 call sequences.
Definition: X86CallFrameOptimization.cpp:629
llvm::initializeX86FlagsCopyLoweringPassPass
void initializeX86FlagsCopyLoweringPassPass(PassRegistry &)
llvm::initializeFPSPass
void initializeFPSPass(PassRegistry &)
llvm::createUnpackMachineBundles
FunctionPass * createUnpackMachineBundles(std::function< bool(const MachineFunction &)> Ftor)
Definition: MachineInstrBundle.cpp:80
llvm::createX86AvoidTrailingCallPass
FunctionPass * createX86AvoidTrailingCallPass()
Return a pass that inserts int3 at the end of the function if it ends with a CALL instruction.
Definition: X86AvoidTrailingCall.cpp:64
llvm::createX86DynAllocaExpander
FunctionPass * createX86DynAllocaExpander()
Return a pass that expands DynAlloca pseudo-instructions.
llvm::initializeKCFIPass
void initializeKCFIPass(PassRegistry &)
llvm::initializeX86SpeculativeExecutionSideEffectSuppressionPass
void initializeX86SpeculativeExecutionSideEffectSuppressionPass(PassRegistry &)
llvm::initializeCompressEVEXPassPass
void initializeCompressEVEXPassPass(PassRegistry &)
llvm::createCFGuardCheckPass
FunctionPass * createCFGuardCheckPass()
Insert Control FLow Guard checks on indirect function calls.
Definition: CFGuard.cpp:314
llvm::createX86OptimizeLEAs
FunctionPass * createX86OptimizeLEAs()
Return a pass that removes redundant LEA instructions and redundant address recalculations.
Definition: X86OptimizeLEAs.cpp:314
llvm::initializeX86FixupVectorConstantsPassPass
void initializeX86FixupVectorConstantsPassPass(PassRegistry &)
llvm::createX86LowerAMXTypePass
FunctionPass * createX86LowerAMXTypePass()
The pass transforms load/store <256 x i32> to AMX load/store intrinsics or split the data to two <128...
Definition: X86LowerAMXType.cpp:1475
llvm::createCFIInstrInserter
FunctionPass * createCFIInstrInserter()
Creates CFI Instruction Inserter pass.
llvm::createX86WinFixupBufferSecurityCheckPass
FunctionPass * createX86WinFixupBufferSecurityCheckPass()
Return a pass that transform inline buffer security check into seperate bb.
llvm::createX86IndirectThunksPass
FunctionPass * createX86IndirectThunksPass()
This pass creates the thunks for the retpoline feature.
Definition: X86IndirectThunks.cpp:238
llvm::createAtomicExpandLegacyPass
FunctionPass * createAtomicExpandLegacyPass()
AtomicExpandPass - At IR level this pass replace atomic instructions with __atomic_* library calls,...
Definition: AtomicExpandPass.cpp:417
llvm::createEHContGuardCatchretPass
FunctionPass * createEHContGuardCatchretPass()
Creates EHContGuard catchret target identification pass.
llvm::initializeX86DynAllocaExpanderPass
void initializeX86DynAllocaExpanderPass(PassRegistry &)
llvm::getTheX86_64Target
Target & getTheX86_64Target()
Definition: X86TargetInfo.cpp:17
llvm::initializePseudoProbeInserterPass
void initializePseudoProbeInserterPass(PassRegistry &)
llvm::createX86FixupVectorConstants
FunctionPass * createX86FixupVectorConstants()
Return a pass that reduces the size of vector constant pool loads.
Definition: X86FixupVectorConstants.cpp:63
llvm::initializeX86ExecutionDomainFixPass
void initializeX86ExecutionDomainFixPass(PassRegistry &)
llvm::createX86PreTileConfigPass
FunctionPass * createX86PreTileConfigPass()
Return a pass that insert pseudo tile config instruction.
Definition: X86PreTileConfig.cpp:448
llvm::createX86ReturnThunksPass
FunctionPass * createX86ReturnThunksPass()
This pass replaces ret instructions with jmp's to __x86_return thunk.
Definition: X86ReturnThunks.cpp:99
llvm::createX86AvoidStoreForwardingBlocks
FunctionPass * createX86AvoidStoreForwardingBlocks()
Return a pass that avoids creating store forward block issues in the hardware.
Definition: X86AvoidStoreForwardingBlocks.cpp:128
llvm::initializeX86ReturnThunksPass
void initializeX86ReturnThunksPass(PassRegistry &)
llvm::initializeX86DAGToDAGISelLegacyPass
void initializeX86DAGToDAGISelLegacyPass(PassRegistry &)
llvm::createX86DiscriminateMemOpsPass
FunctionPass * createX86DiscriminateMemOpsPass()
This pass ensures instructions featuring a memory operand have distinctive <LineNumber,...
Definition: X86DiscriminateMemOps.cpp:182
llvm::initializeFixupLEAPassPass
void initializeFixupLEAPassPass(PassRegistry &)
llvm::MachineFunctionInfo
MachineFunctionInfo - This class can be derived from and used by targets to hold private target-speci...
Definition: MachineFunction.h:95
llvm::MachineSchedContext
MachineSchedContext provides enough context from the MachineScheduler pass for the target to instanti...
Definition: MachineScheduler.h:136
llvm::MaybeAlign
This struct is a compact representation of a valid (power of two) or undefined (0) alignment.
Definition: Alignment.h:117
llvm::RegisterTargetMachine
RegisterTargetMachine - Helper template for registering a target machine implementation,...
Definition: TargetRegistry.h:1248
llvm::yaml::MachineFunctionInfo
Targets should override this in a way that mirrors the implementation of llvm::MachineFunctionInfo.
Definition: MIRYamlMapping.h:732
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