[InstCombine] Signed saturation tests. NFC
[llvm-complete.git] / lib / Target / Hexagon / MCTargetDesc / HexagonMCTargetDesc.cpp
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1 //===-- HexagonMCTargetDesc.cpp - Hexagon Target Descriptions -------------===//
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 provides Hexagon specific target descriptions.
11 //===----------------------------------------------------------------------===//
13 #include "MCTargetDesc/HexagonMCTargetDesc.h"
14 #include "HexagonDepArch.h"
15 #include "HexagonTargetStreamer.h"
16 #include "MCTargetDesc/HexagonInstPrinter.h"
17 #include "MCTargetDesc/HexagonMCAsmInfo.h"
18 #include "MCTargetDesc/HexagonMCELFStreamer.h"
19 #include "MCTargetDesc/HexagonMCInstrInfo.h"
20 #include "TargetInfo/HexagonTargetInfo.h"
21 #include "llvm/ADT/StringExtras.h"
22 #include "llvm/ADT/StringRef.h"
23 #include "llvm/BinaryFormat/ELF.h"
24 #include "llvm/MC/MCAsmBackend.h"
25 #include "llvm/MC/MCCodeEmitter.h"
26 #include "llvm/MC/MCContext.h"
27 #include "llvm/MC/MCDwarf.h"
28 #include "llvm/MC/MCELFStreamer.h"
29 #include "llvm/MC/MCInstrAnalysis.h"
30 #include "llvm/MC/MCInstrInfo.h"
31 #include "llvm/MC/MCObjectWriter.h"
32 #include "llvm/MC/MCRegisterInfo.h"
33 #include "llvm/MC/MCStreamer.h"
34 #include "llvm/MC/MCSubtargetInfo.h"
35 #include "llvm/Support/ErrorHandling.h"
36 #include "llvm/Support/TargetRegistry.h"
37 #include "llvm/Support/raw_ostream.h"
38 #include <cassert>
39 #include <cstdint>
40 #include <new>
41 #include <string>
43 using namespace llvm;
45 #define GET_INSTRINFO_MC_DESC
46 #include "HexagonGenInstrInfo.inc"
48 #define GET_SUBTARGETINFO_MC_DESC
49 #include "HexagonGenSubtargetInfo.inc"
51 #define GET_REGINFO_MC_DESC
52 #include "HexagonGenRegisterInfo.inc"
54 cl::opt<bool> llvm::HexagonDisableCompound
55 ("mno-compound",
56 cl::desc("Disable looking for compound instructions for Hexagon"));
58 cl::opt<bool> llvm::HexagonDisableDuplex
59 ("mno-pairing",
60 cl::desc("Disable looking for duplex instructions for Hexagon"));
62 namespace { // These flags are to be deprecated
63 cl::opt<bool> MV5("mv5", cl::Hidden, cl::desc("Build for Hexagon V5"),
64 cl::init(false));
65 cl::opt<bool> MV55("mv55", cl::Hidden, cl::desc("Build for Hexagon V55"),
66 cl::init(false));
67 cl::opt<bool> MV60("mv60", cl::Hidden, cl::desc("Build for Hexagon V60"),
68 cl::init(false));
69 cl::opt<bool> MV62("mv62", cl::Hidden, cl::desc("Build for Hexagon V62"),
70 cl::init(false));
71 cl::opt<bool> MV65("mv65", cl::Hidden, cl::desc("Build for Hexagon V65"),
72 cl::init(false));
73 cl::opt<bool> MV66("mv66", cl::Hidden, cl::desc("Build for Hexagon V66"),
74 cl::init(false));
76 cl::opt<Hexagon::ArchEnum>
77 EnableHVX("mhvx",
78 cl::desc("Enable Hexagon Vector eXtensions"),
79 cl::values(
80 clEnumValN(Hexagon::ArchEnum::V60, "v60", "Build for HVX v60"),
81 clEnumValN(Hexagon::ArchEnum::V62, "v62", "Build for HVX v62"),
82 clEnumValN(Hexagon::ArchEnum::V65, "v65", "Build for HVX v65"),
83 clEnumValN(Hexagon::ArchEnum::V66, "v66", "Build for HVX v66"),
84 // Sentinel for no value specified.
85 clEnumValN(Hexagon::ArchEnum::Generic, "", "")),
86 // Sentinel for flag not present.
87 cl::init(Hexagon::ArchEnum::NoArch), cl::ValueOptional);
88 } // namespace
90 static cl::opt<bool>
91 DisableHVX("mno-hvx", cl::Hidden,
92 cl::desc("Disable Hexagon Vector eXtensions"));
95 static StringRef DefaultArch = "hexagonv60";
97 static StringRef HexagonGetArchVariant() {
98 if (MV5)
99 return "hexagonv5";
100 if (MV55)
101 return "hexagonv55";
102 if (MV60)
103 return "hexagonv60";
104 if (MV62)
105 return "hexagonv62";
106 if (MV65)
107 return "hexagonv65";
108 if (MV66)
109 return "hexagonv66";
110 return "";
113 StringRef Hexagon_MC::selectHexagonCPU(StringRef CPU) {
114 StringRef ArchV = HexagonGetArchVariant();
115 if (!ArchV.empty() && !CPU.empty()) {
116 if (ArchV != CPU)
117 report_fatal_error("conflicting architectures specified.");
118 return CPU;
120 if (ArchV.empty()) {
121 if (CPU.empty())
122 CPU = DefaultArch;
123 return CPU;
125 return ArchV;
128 unsigned llvm::HexagonGetLastSlot() { return HexagonItinerariesV5FU::SLOT3; }
130 namespace {
132 class HexagonTargetAsmStreamer : public HexagonTargetStreamer {
133 public:
134 HexagonTargetAsmStreamer(MCStreamer &S,
135 formatted_raw_ostream &OS,
136 bool isVerboseAsm,
137 MCInstPrinter &IP)
138 : HexagonTargetStreamer(S) {}
140 void prettyPrintAsm(MCInstPrinter &InstPrinter, raw_ostream &OS,
141 const MCInst &Inst, const MCSubtargetInfo &STI) override {
142 assert(HexagonMCInstrInfo::isBundle(Inst));
143 assert(HexagonMCInstrInfo::bundleSize(Inst) <= HEXAGON_PACKET_SIZE);
144 std::string Buffer;
146 raw_string_ostream TempStream(Buffer);
147 InstPrinter.printInst(&Inst, TempStream, "", STI);
149 StringRef Contents(Buffer);
150 auto PacketBundle = Contents.rsplit('\n');
151 auto HeadTail = PacketBundle.first.split('\n');
152 StringRef Separator = "\n";
153 StringRef Indent = "\t";
154 OS << "\t{\n";
155 while (!HeadTail.first.empty()) {
156 StringRef InstTxt;
157 auto Duplex = HeadTail.first.split('\v');
158 if (!Duplex.second.empty()) {
159 OS << Indent << Duplex.first << Separator;
160 InstTxt = Duplex.second;
161 } else if (!HeadTail.first.trim().startswith("immext")) {
162 InstTxt = Duplex.first;
164 if (!InstTxt.empty())
165 OS << Indent << InstTxt << Separator;
166 HeadTail = HeadTail.second.split('\n');
169 if (HexagonMCInstrInfo::isMemReorderDisabled(Inst))
170 OS << "\n\t} :mem_noshuf" << PacketBundle.second;
171 else
172 OS << "\t}" << PacketBundle.second;
176 class HexagonTargetELFStreamer : public HexagonTargetStreamer {
177 public:
178 MCELFStreamer &getStreamer() {
179 return static_cast<MCELFStreamer &>(Streamer);
181 HexagonTargetELFStreamer(MCStreamer &S, MCSubtargetInfo const &STI)
182 : HexagonTargetStreamer(S) {
183 MCAssembler &MCA = getStreamer().getAssembler();
184 MCA.setELFHeaderEFlags(Hexagon_MC::GetELFFlags(STI));
188 void EmitCommonSymbolSorted(MCSymbol *Symbol, uint64_t Size,
189 unsigned ByteAlignment,
190 unsigned AccessSize) override {
191 HexagonMCELFStreamer &HexagonELFStreamer =
192 static_cast<HexagonMCELFStreamer &>(getStreamer());
193 HexagonELFStreamer.HexagonMCEmitCommonSymbol(Symbol, Size, ByteAlignment,
194 AccessSize);
197 void EmitLocalCommonSymbolSorted(MCSymbol *Symbol, uint64_t Size,
198 unsigned ByteAlignment,
199 unsigned AccessSize) override {
200 HexagonMCELFStreamer &HexagonELFStreamer =
201 static_cast<HexagonMCELFStreamer &>(getStreamer());
202 HexagonELFStreamer.HexagonMCEmitLocalCommonSymbol(
203 Symbol, Size, ByteAlignment, AccessSize);
207 } // end anonymous namespace
209 llvm::MCInstrInfo *llvm::createHexagonMCInstrInfo() {
210 MCInstrInfo *X = new MCInstrInfo();
211 InitHexagonMCInstrInfo(X);
212 return X;
215 static MCRegisterInfo *createHexagonMCRegisterInfo(const Triple &TT) {
216 MCRegisterInfo *X = new MCRegisterInfo();
217 InitHexagonMCRegisterInfo(X, Hexagon::R31);
218 return X;
221 static MCAsmInfo *createHexagonMCAsmInfo(const MCRegisterInfo &MRI,
222 const Triple &TT) {
223 MCAsmInfo *MAI = new HexagonMCAsmInfo(TT);
225 // VirtualFP = (R30 + #0).
226 MCCFIInstruction Inst =
227 MCCFIInstruction::createDefCfa(nullptr,
228 MRI.getDwarfRegNum(Hexagon::R30, true), 0);
229 MAI->addInitialFrameState(Inst);
231 return MAI;
234 static MCInstPrinter *createHexagonMCInstPrinter(const Triple &T,
235 unsigned SyntaxVariant,
236 const MCAsmInfo &MAI,
237 const MCInstrInfo &MII,
238 const MCRegisterInfo &MRI)
240 if (SyntaxVariant == 0)
241 return new HexagonInstPrinter(MAI, MII, MRI);
242 else
243 return nullptr;
246 static MCTargetStreamer *
247 createMCAsmTargetStreamer(MCStreamer &S, formatted_raw_ostream &OS,
248 MCInstPrinter *IP, bool IsVerboseAsm) {
249 return new HexagonTargetAsmStreamer(S, OS, IsVerboseAsm, *IP);
252 static MCStreamer *createMCStreamer(Triple const &T, MCContext &Context,
253 std::unique_ptr<MCAsmBackend> &&MAB,
254 std::unique_ptr<MCObjectWriter> &&OW,
255 std::unique_ptr<MCCodeEmitter> &&Emitter,
256 bool RelaxAll) {
257 return createHexagonELFStreamer(T, Context, std::move(MAB), std::move(OW),
258 std::move(Emitter));
261 static MCTargetStreamer *
262 createHexagonObjectTargetStreamer(MCStreamer &S, const MCSubtargetInfo &STI) {
263 return new HexagonTargetELFStreamer(S, STI);
266 static void LLVM_ATTRIBUTE_UNUSED clearFeature(MCSubtargetInfo* STI, uint64_t F) {
267 if (STI->getFeatureBits()[F])
268 STI->ToggleFeature(F);
271 static bool LLVM_ATTRIBUTE_UNUSED checkFeature(MCSubtargetInfo* STI, uint64_t F) {
272 return STI->getFeatureBits()[F];
275 namespace {
276 std::string selectHexagonFS(StringRef CPU, StringRef FS) {
277 SmallVector<StringRef, 3> Result;
278 if (!FS.empty())
279 Result.push_back(FS);
281 switch (EnableHVX) {
282 case Hexagon::ArchEnum::V5:
283 case Hexagon::ArchEnum::V55:
284 break;
285 case Hexagon::ArchEnum::V60:
286 Result.push_back("+hvxv60");
287 break;
288 case Hexagon::ArchEnum::V62:
289 Result.push_back("+hvxv62");
290 break;
291 case Hexagon::ArchEnum::V65:
292 Result.push_back("+hvxv65");
293 break;
294 case Hexagon::ArchEnum::V66:
295 Result.push_back("+hvxv66");
296 break;
297 case Hexagon::ArchEnum::Generic:{
298 Result.push_back(StringSwitch<StringRef>(CPU)
299 .Case("hexagonv60", "+hvxv60")
300 .Case("hexagonv62", "+hvxv62")
301 .Case("hexagonv65", "+hvxv65")
302 .Case("hexagonv66", "+hvxv66"));
303 break;
305 case Hexagon::ArchEnum::NoArch:
306 // Sentinal if -mhvx isn't specified
307 break;
309 return join(Result.begin(), Result.end(), ",");
313 static bool isCPUValid(std::string CPU)
315 std::vector<std::string> table {
316 "generic", "hexagonv5", "hexagonv55", "hexagonv60",
317 "hexagonv62", "hexagonv65", "hexagonv66",
320 return std::find(table.begin(), table.end(), CPU) != table.end();
323 namespace {
324 std::pair<std::string, std::string> selectCPUAndFS(StringRef CPU,
325 StringRef FS) {
326 std::pair<std::string, std::string> Result;
327 Result.first = Hexagon_MC::selectHexagonCPU(CPU);
328 Result.second = selectHexagonFS(Result.first, FS);
329 return Result;
333 FeatureBitset Hexagon_MC::completeHVXFeatures(const FeatureBitset &S) {
334 using namespace Hexagon;
335 // Make sure that +hvx-length turns hvx on, and that "hvx" alone
336 // turns on hvxvNN, corresponding to the existing ArchVNN.
337 FeatureBitset FB = S;
338 unsigned CpuArch = ArchV5;
339 for (unsigned F : {ArchV66, ArchV65, ArchV62, ArchV60, ArchV55, ArchV5}) {
340 if (!FB.test(F))
341 continue;
342 CpuArch = F;
343 break;
345 bool UseHvx = false;
346 for (unsigned F : {ExtensionHVX, ExtensionHVX64B, ExtensionHVX128B}) {
347 if (!FB.test(F))
348 continue;
349 UseHvx = true;
350 break;
352 bool HasHvxVer = false;
353 for (unsigned F : {ExtensionHVXV60, ExtensionHVXV62, ExtensionHVXV65,
354 ExtensionHVXV66}) {
355 if (!FB.test(F))
356 continue;
357 HasHvxVer = true;
358 UseHvx = true;
359 break;
362 if (!UseHvx || HasHvxVer)
363 return FB;
365 // HasHvxVer is false, and UseHvx is true.
366 switch (CpuArch) {
367 case ArchV66:
368 FB.set(ExtensionHVXV66);
369 LLVM_FALLTHROUGH;
370 case ArchV65:
371 FB.set(ExtensionHVXV65);
372 LLVM_FALLTHROUGH;
373 case ArchV62:
374 FB.set(ExtensionHVXV62);
375 LLVM_FALLTHROUGH;
376 case ArchV60:
377 FB.set(ExtensionHVXV60);
378 break;
380 return FB;
383 MCSubtargetInfo *Hexagon_MC::createHexagonMCSubtargetInfo(const Triple &TT,
384 StringRef CPU,
385 StringRef FS) {
386 std::pair<std::string, std::string> Features = selectCPUAndFS(CPU, FS);
387 StringRef CPUName = Features.first;
388 StringRef ArchFS = Features.second;
390 if (!isCPUValid(CPUName.str())) {
391 errs() << "error: invalid CPU \"" << CPUName.str().c_str()
392 << "\" specified\n";
393 return nullptr;
396 MCSubtargetInfo *X = createHexagonMCSubtargetInfoImpl(TT, CPUName, ArchFS);
397 if (HexagonDisableDuplex) {
398 llvm::FeatureBitset Features = X->getFeatureBits();
399 X->setFeatureBits(Features.reset(Hexagon::FeatureDuplex));
402 X->setFeatureBits(completeHVXFeatures(X->getFeatureBits()));
403 return X;
406 unsigned Hexagon_MC::GetELFFlags(const MCSubtargetInfo &STI) {
407 static std::map<StringRef,unsigned> ElfFlags = {
408 {"hexagonv5", ELF::EF_HEXAGON_MACH_V5},
409 {"hexagonv55", ELF::EF_HEXAGON_MACH_V55},
410 {"hexagonv60", ELF::EF_HEXAGON_MACH_V60},
411 {"hexagonv62", ELF::EF_HEXAGON_MACH_V62},
412 {"hexagonv65", ELF::EF_HEXAGON_MACH_V65},
413 {"hexagonv66", ELF::EF_HEXAGON_MACH_V66},
416 auto F = ElfFlags.find(STI.getCPU());
417 assert(F != ElfFlags.end() && "Unrecognized Architecture");
418 return F->second;
421 namespace {
422 class HexagonMCInstrAnalysis : public MCInstrAnalysis {
423 public:
424 HexagonMCInstrAnalysis(MCInstrInfo const *Info) : MCInstrAnalysis(Info) {}
426 bool isUnconditionalBranch(MCInst const &Inst) const override {
427 //assert(!HexagonMCInstrInfo::isBundle(Inst));
428 return MCInstrAnalysis::isUnconditionalBranch(Inst);
431 bool isConditionalBranch(MCInst const &Inst) const override {
432 //assert(!HexagonMCInstrInfo::isBundle(Inst));
433 return MCInstrAnalysis::isConditionalBranch(Inst);
436 bool evaluateBranch(MCInst const &Inst, uint64_t Addr,
437 uint64_t Size, uint64_t &Target) const override {
438 //assert(!HexagonMCInstrInfo::isBundle(Inst));
439 if(!HexagonMCInstrInfo::isExtendable(*Info, Inst))
440 return false;
441 auto const &Extended(HexagonMCInstrInfo::getExtendableOperand(*Info, Inst));
442 assert(Extended.isExpr());
443 int64_t Value;
444 if(!Extended.getExpr()->evaluateAsAbsolute(Value))
445 return false;
446 Target = Value;
447 return true;
452 static MCInstrAnalysis *createHexagonMCInstrAnalysis(const MCInstrInfo *Info) {
453 return new HexagonMCInstrAnalysis(Info);
456 // Force static initialization.
457 extern "C" void LLVMInitializeHexagonTargetMC() {
458 // Register the MC asm info.
459 RegisterMCAsmInfoFn X(getTheHexagonTarget(), createHexagonMCAsmInfo);
461 // Register the MC instruction info.
462 TargetRegistry::RegisterMCInstrInfo(getTheHexagonTarget(),
463 createHexagonMCInstrInfo);
465 // Register the MC register info.
466 TargetRegistry::RegisterMCRegInfo(getTheHexagonTarget(),
467 createHexagonMCRegisterInfo);
469 // Register the MC subtarget info.
470 TargetRegistry::RegisterMCSubtargetInfo(getTheHexagonTarget(),
471 Hexagon_MC::createHexagonMCSubtargetInfo);
473 // Register the MC Code Emitter
474 TargetRegistry::RegisterMCCodeEmitter(getTheHexagonTarget(),
475 createHexagonMCCodeEmitter);
477 // Register the asm backend
478 TargetRegistry::RegisterMCAsmBackend(getTheHexagonTarget(),
479 createHexagonAsmBackend);
482 // Register the MC instruction analyzer.
483 TargetRegistry::RegisterMCInstrAnalysis(getTheHexagonTarget(),
484 createHexagonMCInstrAnalysis);
486 // Register the obj streamer
487 TargetRegistry::RegisterELFStreamer(getTheHexagonTarget(),
488 createMCStreamer);
490 // Register the obj target streamer
491 TargetRegistry::RegisterObjectTargetStreamer(getTheHexagonTarget(),
492 createHexagonObjectTargetStreamer);
494 // Register the asm streamer
495 TargetRegistry::RegisterAsmTargetStreamer(getTheHexagonTarget(),
496 createMCAsmTargetStreamer);
498 // Register the MC Inst Printer
499 TargetRegistry::RegisterMCInstPrinter(getTheHexagonTarget(),
500 createHexagonMCInstPrinter);