//===--- Sparc.cpp - Implement Sparc target feature support ---------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file implements Sparc TargetInfo objects. // //===----------------------------------------------------------------------===// #include "Sparc.h" #include "Targets.h" #include "clang/Basic/MacroBuilder.h" #include "llvm/ADT/StringSwitch.h" using namespace clang; using namespace clang::targets; const char *const SparcTargetInfo::GCCRegNames[] = { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23", "r24", "r25", "r26", "r27", "r28", "r29", "r30", "r31" }; ArrayRef SparcTargetInfo::getGCCRegNames() const { return llvm::makeArrayRef(GCCRegNames); } const TargetInfo::GCCRegAlias SparcTargetInfo::GCCRegAliases[] = { {{"g0"}, "r0"}, {{"g1"}, "r1"}, {{"g2"}, "r2"}, {{"g3"}, "r3"}, {{"g4"}, "r4"}, {{"g5"}, "r5"}, {{"g6"}, "r6"}, {{"g7"}, "r7"}, {{"o0"}, "r8"}, {{"o1"}, "r9"}, {{"o2"}, "r10"}, {{"o3"}, "r11"}, {{"o4"}, "r12"}, {{"o5"}, "r13"}, {{"o6", "sp"}, "r14"}, {{"o7"}, "r15"}, {{"l0"}, "r16"}, {{"l1"}, "r17"}, {{"l2"}, "r18"}, {{"l3"}, "r19"}, {{"l4"}, "r20"}, {{"l5"}, "r21"}, {{"l6"}, "r22"}, {{"l7"}, "r23"}, {{"i0"}, "r24"}, {{"i1"}, "r25"}, {{"i2"}, "r26"}, {{"i3"}, "r27"}, {{"i4"}, "r28"}, {{"i5"}, "r29"}, {{"i6", "fp"}, "r30"}, {{"i7"}, "r31"}, }; ArrayRef SparcTargetInfo::getGCCRegAliases() const { return llvm::makeArrayRef(GCCRegAliases); } bool SparcTargetInfo::hasFeature(StringRef Feature) const { return llvm::StringSwitch(Feature) .Case("softfloat", SoftFloat) .Case("sparc", true) .Default(false); } struct SparcCPUInfo { llvm::StringLiteral Name; SparcTargetInfo::CPUKind Kind; SparcTargetInfo::CPUGeneration Generation; }; static constexpr SparcCPUInfo CPUInfo[] = { {{"v8"}, SparcTargetInfo::CK_V8, SparcTargetInfo::CG_V8}, {{"supersparc"}, SparcTargetInfo::CK_SUPERSPARC, SparcTargetInfo::CG_V8}, {{"sparclite"}, SparcTargetInfo::CK_SPARCLITE, SparcTargetInfo::CG_V8}, {{"f934"}, SparcTargetInfo::CK_F934, SparcTargetInfo::CG_V8}, {{"hypersparc"}, SparcTargetInfo::CK_HYPERSPARC, SparcTargetInfo::CG_V8}, {{"sparclite86x"}, SparcTargetInfo::CK_SPARCLITE86X, SparcTargetInfo::CG_V8}, {{"sparclet"}, SparcTargetInfo::CK_SPARCLET, SparcTargetInfo::CG_V8}, {{"tsc701"}, SparcTargetInfo::CK_TSC701, SparcTargetInfo::CG_V8}, {{"v9"}, SparcTargetInfo::CK_V9, SparcTargetInfo::CG_V9}, {{"ultrasparc"}, SparcTargetInfo::CK_ULTRASPARC, SparcTargetInfo::CG_V9}, {{"ultrasparc3"}, SparcTargetInfo::CK_ULTRASPARC3, SparcTargetInfo::CG_V9}, {{"niagara"}, SparcTargetInfo::CK_NIAGARA, SparcTargetInfo::CG_V9}, {{"niagara2"}, SparcTargetInfo::CK_NIAGARA2, SparcTargetInfo::CG_V9}, {{"niagara3"}, SparcTargetInfo::CK_NIAGARA3, SparcTargetInfo::CG_V9}, {{"niagara4"}, SparcTargetInfo::CK_NIAGARA4, SparcTargetInfo::CG_V9}, {{"ma2100"}, SparcTargetInfo::CK_MYRIAD2100, SparcTargetInfo::CG_V8}, {{"ma2150"}, SparcTargetInfo::CK_MYRIAD2150, SparcTargetInfo::CG_V8}, {{"ma2155"}, SparcTargetInfo::CK_MYRIAD2155, SparcTargetInfo::CG_V8}, {{"ma2450"}, SparcTargetInfo::CK_MYRIAD2450, SparcTargetInfo::CG_V8}, {{"ma2455"}, SparcTargetInfo::CK_MYRIAD2455, SparcTargetInfo::CG_V8}, {{"ma2x5x"}, SparcTargetInfo::CK_MYRIAD2x5x, SparcTargetInfo::CG_V8}, {{"ma2080"}, SparcTargetInfo::CK_MYRIAD2080, SparcTargetInfo::CG_V8}, {{"ma2085"}, SparcTargetInfo::CK_MYRIAD2085, SparcTargetInfo::CG_V8}, {{"ma2480"}, SparcTargetInfo::CK_MYRIAD2480, SparcTargetInfo::CG_V8}, {{"ma2485"}, SparcTargetInfo::CK_MYRIAD2485, SparcTargetInfo::CG_V8}, {{"ma2x8x"}, SparcTargetInfo::CK_MYRIAD2x8x, SparcTargetInfo::CG_V8}, // FIXME: the myriad2[.n] spellings are obsolete, // but a grace period is needed to allow updating dependent builds. {{"myriad2"}, SparcTargetInfo::CK_MYRIAD2x5x, SparcTargetInfo::CG_V8}, {{"myriad2.1"}, SparcTargetInfo::CK_MYRIAD2100, SparcTargetInfo::CG_V8}, {{"myriad2.2"}, SparcTargetInfo::CK_MYRIAD2x5x, SparcTargetInfo::CG_V8}, {{"myriad2.3"}, SparcTargetInfo::CK_MYRIAD2x8x, SparcTargetInfo::CG_V8}, {{"leon2"}, SparcTargetInfo::CK_LEON2, SparcTargetInfo::CG_V8}, {{"at697e"}, SparcTargetInfo::CK_LEON2_AT697E, SparcTargetInfo::CG_V8}, {{"at697f"}, SparcTargetInfo::CK_LEON2_AT697F, SparcTargetInfo::CG_V8}, {{"leon3"}, SparcTargetInfo::CK_LEON3, SparcTargetInfo::CG_V8}, {{"ut699"}, SparcTargetInfo::CK_LEON3_UT699, SparcTargetInfo::CG_V8}, {{"gr712rc"}, SparcTargetInfo::CK_LEON3_GR712RC, SparcTargetInfo::CG_V8}, {{"leon4"}, SparcTargetInfo::CK_LEON4, SparcTargetInfo::CG_V8}, {{"gr740"}, SparcTargetInfo::CK_LEON4_GR740, SparcTargetInfo::CG_V8}, }; SparcTargetInfo::CPUGeneration SparcTargetInfo::getCPUGeneration(CPUKind Kind) const { if (Kind == CK_GENERIC) return CG_V8; const SparcCPUInfo *Item = llvm::find_if( CPUInfo, [Kind](const SparcCPUInfo &Info) { return Info.Kind == Kind; }); if (Item == std::end(CPUInfo)) llvm_unreachable("Unexpected CPU kind"); return Item->Generation; } SparcTargetInfo::CPUKind SparcTargetInfo::getCPUKind(StringRef Name) const { const SparcCPUInfo *Item = llvm::find_if( CPUInfo, [Name](const SparcCPUInfo &Info) { return Info.Name == Name; }); if (Item == std::end(CPUInfo)) return CK_GENERIC; return Item->Kind; } void SparcTargetInfo::fillValidCPUList( SmallVectorImpl &Values) const { for (const SparcCPUInfo &Info : CPUInfo) Values.push_back(Info.Name); } void SparcTargetInfo::getTargetDefines(const LangOptions &Opts, MacroBuilder &Builder) const { DefineStd(Builder, "sparc", Opts); Builder.defineMacro("__REGISTER_PREFIX__", ""); if (SoftFloat) Builder.defineMacro("SOFT_FLOAT", "1"); } void SparcV8TargetInfo::getTargetDefines(const LangOptions &Opts, MacroBuilder &Builder) const { SparcTargetInfo::getTargetDefines(Opts, Builder); switch (getCPUGeneration(CPU)) { case CG_V8: Builder.defineMacro("__sparcv8"); if (getTriple().getOS() != llvm::Triple::Solaris) Builder.defineMacro("__sparcv8__"); break; case CG_V9: Builder.defineMacro("__sparcv9"); if (getTriple().getOS() != llvm::Triple::Solaris) { Builder.defineMacro("__sparcv9__"); Builder.defineMacro("__sparc_v9__"); } break; } if (getTriple().getVendor() == llvm::Triple::Myriad) { std::string MyriadArchValue, Myriad2Value; Builder.defineMacro("__sparc_v8__"); Builder.defineMacro("__leon__"); switch (CPU) { case CK_MYRIAD2100: MyriadArchValue = "__ma2100"; Myriad2Value = "1"; break; case CK_MYRIAD2150: MyriadArchValue = "__ma2150"; Myriad2Value = "2"; break; case CK_MYRIAD2155: MyriadArchValue = "__ma2155"; Myriad2Value = "2"; break; case CK_MYRIAD2450: MyriadArchValue = "__ma2450"; Myriad2Value = "2"; break; case CK_MYRIAD2455: MyriadArchValue = "__ma2455"; Myriad2Value = "2"; break; case CK_MYRIAD2x5x: Myriad2Value = "2"; break; case CK_MYRIAD2080: MyriadArchValue = "__ma2080"; Myriad2Value = "3"; break; case CK_MYRIAD2085: MyriadArchValue = "__ma2085"; Myriad2Value = "3"; break; case CK_MYRIAD2480: MyriadArchValue = "__ma2480"; Myriad2Value = "3"; break; case CK_MYRIAD2485: MyriadArchValue = "__ma2485"; Myriad2Value = "3"; break; case CK_MYRIAD2x8x: Myriad2Value = "3"; break; default: MyriadArchValue = "__ma2100"; Myriad2Value = "1"; break; } if (!MyriadArchValue.empty()) { Builder.defineMacro(MyriadArchValue, "1"); Builder.defineMacro(MyriadArchValue + "__", "1"); } if (Myriad2Value == "2") { Builder.defineMacro("__ma2x5x", "1"); Builder.defineMacro("__ma2x5x__", "1"); } else if (Myriad2Value == "3") { Builder.defineMacro("__ma2x8x", "1"); Builder.defineMacro("__ma2x8x__", "1"); } Builder.defineMacro("__myriad2__", Myriad2Value); Builder.defineMacro("__myriad2", Myriad2Value); } } void SparcV9TargetInfo::getTargetDefines(const LangOptions &Opts, MacroBuilder &Builder) const { SparcTargetInfo::getTargetDefines(Opts, Builder); Builder.defineMacro("__sparcv9"); Builder.defineMacro("__arch64__"); // Solaris doesn't need these variants, but the BSDs do. if (getTriple().getOS() != llvm::Triple::Solaris) { Builder.defineMacro("__sparc64__"); Builder.defineMacro("__sparc_v9__"); Builder.defineMacro("__sparcv9__"); } } void SparcV9TargetInfo::fillValidCPUList( SmallVectorImpl &Values) const { for (const SparcCPUInfo &Info : CPUInfo) if (Info.Generation == CG_V9) Values.push_back(Info.Name); }