//===----------- Triple.cpp - Triple unit tests ---------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "gtest/gtest.h" #include "llvm/ADT/Triple.h" using namespace llvm; namespace { TEST(TripleTest, BasicParsing) { Triple T; T = Triple(""); EXPECT_EQ("", T.getArchName().str()); EXPECT_EQ("", T.getVendorName().str()); EXPECT_EQ("", T.getOSName().str()); EXPECT_EQ("", T.getEnvironmentName().str()); T = Triple("-"); EXPECT_EQ("", T.getArchName().str()); EXPECT_EQ("", T.getVendorName().str()); EXPECT_EQ("", T.getOSName().str()); EXPECT_EQ("", T.getEnvironmentName().str()); T = Triple("--"); EXPECT_EQ("", T.getArchName().str()); EXPECT_EQ("", T.getVendorName().str()); EXPECT_EQ("", T.getOSName().str()); EXPECT_EQ("", T.getEnvironmentName().str()); T = Triple("---"); EXPECT_EQ("", T.getArchName().str()); EXPECT_EQ("", T.getVendorName().str()); EXPECT_EQ("", T.getOSName().str()); EXPECT_EQ("", T.getEnvironmentName().str()); T = Triple("----"); EXPECT_EQ("", T.getArchName().str()); EXPECT_EQ("", T.getVendorName().str()); EXPECT_EQ("", T.getOSName().str()); EXPECT_EQ("-", T.getEnvironmentName().str()); T = Triple("a"); EXPECT_EQ("a", T.getArchName().str()); EXPECT_EQ("", T.getVendorName().str()); EXPECT_EQ("", T.getOSName().str()); EXPECT_EQ("", T.getEnvironmentName().str()); T = Triple("a-b"); EXPECT_EQ("a", T.getArchName().str()); EXPECT_EQ("b", T.getVendorName().str()); EXPECT_EQ("", T.getOSName().str()); EXPECT_EQ("", T.getEnvironmentName().str()); T = Triple("a-b-c"); EXPECT_EQ("a", T.getArchName().str()); EXPECT_EQ("b", T.getVendorName().str()); EXPECT_EQ("c", T.getOSName().str()); EXPECT_EQ("", T.getEnvironmentName().str()); T = Triple("a-b-c-d"); EXPECT_EQ("a", T.getArchName().str()); EXPECT_EQ("b", T.getVendorName().str()); EXPECT_EQ("c", T.getOSName().str()); EXPECT_EQ("d", T.getEnvironmentName().str()); } TEST(TripleTest, ParsedIDs) { Triple T; T = Triple("i386-apple-darwin"); EXPECT_EQ(Triple::x86, T.getArch()); EXPECT_EQ(Triple::Apple, T.getVendor()); EXPECT_EQ(Triple::Darwin, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("i386-pc-elfiamcu"); EXPECT_EQ(Triple::x86, T.getArch()); EXPECT_EQ(Triple::PC, T.getVendor()); EXPECT_EQ(Triple::ELFIAMCU, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("x86_64-pc-linux-gnu"); EXPECT_EQ(Triple::x86_64, T.getArch()); EXPECT_EQ(Triple::PC, T.getVendor()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ(Triple::GNU, T.getEnvironment()); T = Triple("x86_64-pc-linux-musl"); EXPECT_EQ(Triple::x86_64, T.getArch()); EXPECT_EQ(Triple::PC, T.getVendor()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ(Triple::Musl, T.getEnvironment()); T = Triple("powerpc-bgp-linux"); EXPECT_EQ(Triple::ppc, T.getArch()); EXPECT_EQ(Triple::BGP, T.getVendor()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("powerpc-bgp-cnk"); EXPECT_EQ(Triple::ppc, T.getArch()); EXPECT_EQ(Triple::BGP, T.getVendor()); EXPECT_EQ(Triple::CNK, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("powerpc64-bgq-linux"); EXPECT_EQ(Triple::ppc64, T.getArch()); EXPECT_EQ(Triple::BGQ, T.getVendor()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("powerpc-ibm-aix"); EXPECT_EQ(Triple::ppc, T.getArch()); EXPECT_EQ(Triple::IBM, T.getVendor()); EXPECT_EQ(Triple::AIX, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("powerpc64-ibm-aix"); EXPECT_EQ(Triple::ppc64, T.getArch()); EXPECT_EQ(Triple::IBM, T.getVendor()); EXPECT_EQ(Triple::AIX, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("powerpc-dunno-notsure"); EXPECT_EQ(Triple::ppc, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("arm-none-none-eabi"); EXPECT_EQ(Triple::arm, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::EABI, T.getEnvironment()); T = Triple("arm-none-linux-musleabi"); EXPECT_EQ(Triple::arm, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ(Triple::MuslEABI, T.getEnvironment()); T = Triple("armv6hl-none-linux-gnueabi"); EXPECT_EQ(Triple::arm, T.getArch()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::GNUEABI, T.getEnvironment()); T = Triple("armv7hl-none-linux-gnueabi"); EXPECT_EQ(Triple::arm, T.getArch()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::GNUEABI, T.getEnvironment()); T = Triple("amdil-unknown-unknown"); EXPECT_EQ(Triple::amdil, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); T = Triple("amdil64-unknown-unknown"); EXPECT_EQ(Triple::amdil64, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); T = Triple("hsail-unknown-unknown"); EXPECT_EQ(Triple::hsail, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); T = Triple("hsail64-unknown-unknown"); EXPECT_EQ(Triple::hsail64, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); T = Triple("sparcel-unknown-unknown"); EXPECT_EQ(Triple::sparcel, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); T = Triple("spir-unknown-unknown"); EXPECT_EQ(Triple::spir, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); T = Triple("spir64-unknown-unknown"); EXPECT_EQ(Triple::spir64, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); T = Triple("x86_64-unknown-cloudabi"); EXPECT_EQ(Triple::x86_64, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::CloudABI, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("wasm32-unknown-unknown"); EXPECT_EQ(Triple::wasm32, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("wasm64-unknown-unknown"); EXPECT_EQ(Triple::wasm64, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("avr-unknown-unknown"); EXPECT_EQ(Triple::avr, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("avr"); EXPECT_EQ(Triple::avr, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("lanai-unknown-unknown"); EXPECT_EQ(Triple::lanai, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("lanai"); EXPECT_EQ(Triple::lanai, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("amdgcn-mesa-mesa3d"); EXPECT_EQ(Triple::amdgcn, T.getArch()); EXPECT_EQ(Triple::Mesa, T.getVendor()); EXPECT_EQ(Triple::Mesa3D, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("amdgcn-amd-amdhsa"); EXPECT_EQ(Triple::amdgcn, T.getArch()); EXPECT_EQ(Triple::AMD, T.getVendor()); EXPECT_EQ(Triple::AMDHSA, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T = Triple("huh"); EXPECT_EQ(Triple::UnknownArch, T.getArch()); } static std::string Join(StringRef A, StringRef B, StringRef C) { std::string Str = A; Str += '-'; Str += B; Str += '-'; Str += C; return Str; } static std::string Join(StringRef A, StringRef B, StringRef C, StringRef D) { std::string Str = A; Str += '-'; Str += B; Str += '-'; Str += C; Str += '-'; Str += D; return Str; } TEST(TripleTest, Normalization) { EXPECT_EQ("", Triple::normalize("")); EXPECT_EQ("-", Triple::normalize("-")); EXPECT_EQ("--", Triple::normalize("--")); EXPECT_EQ("---", Triple::normalize("---")); EXPECT_EQ("----", Triple::normalize("----")); EXPECT_EQ("a", Triple::normalize("a")); EXPECT_EQ("a-b", Triple::normalize("a-b")); EXPECT_EQ("a-b-c", Triple::normalize("a-b-c")); EXPECT_EQ("a-b-c-d", Triple::normalize("a-b-c-d")); EXPECT_EQ("i386-b-c", Triple::normalize("i386-b-c")); EXPECT_EQ("i386-a-c", Triple::normalize("a-i386-c")); EXPECT_EQ("i386-a-b", Triple::normalize("a-b-i386")); EXPECT_EQ("i386-a-b-c", Triple::normalize("a-b-c-i386")); EXPECT_EQ("a-pc-c", Triple::normalize("a-pc-c")); EXPECT_EQ("-pc-b-c", Triple::normalize("pc-b-c")); EXPECT_EQ("a-pc-b", Triple::normalize("a-b-pc")); EXPECT_EQ("a-pc-b-c", Triple::normalize("a-b-c-pc")); EXPECT_EQ("a-b-linux", Triple::normalize("a-b-linux")); EXPECT_EQ("--linux-b-c", Triple::normalize("linux-b-c")); EXPECT_EQ("a--linux-c", Triple::normalize("a-linux-c")); EXPECT_EQ("i386-pc-a", Triple::normalize("a-pc-i386")); EXPECT_EQ("i386-pc-", Triple::normalize("-pc-i386")); EXPECT_EQ("-pc-linux-c", Triple::normalize("linux-pc-c")); EXPECT_EQ("-pc-linux", Triple::normalize("linux-pc-")); EXPECT_EQ("i386", Triple::normalize("i386")); EXPECT_EQ("-pc", Triple::normalize("pc")); EXPECT_EQ("--linux", Triple::normalize("linux")); EXPECT_EQ("x86_64--linux-gnu", Triple::normalize("x86_64-gnu-linux")); // Check that normalizing a permutated set of valid components returns a // triple with the unpermuted components. // // We don't check every possible combination. For the set of architectures A, // vendors V, operating systems O, and environments E, that would require |A| // * |V| * |O| * |E| * 4! tests. Instead we check every option for any given // slot and make sure it gets normalized to the correct position from every // permutation. This should cover the core logic while being a tractable // number of tests at (|A| + |V| + |O| + |E|) * 4!. auto FirstArchType = Triple::ArchType(Triple::UnknownArch + 1); auto FirstVendorType = Triple::VendorType(Triple::UnknownVendor + 1); auto FirstOSType = Triple::OSType(Triple::UnknownOS + 1); auto FirstEnvType = Triple::EnvironmentType(Triple::UnknownEnvironment + 1); StringRef InitialC[] = {Triple::getArchTypeName(FirstArchType), Triple::getVendorTypeName(FirstVendorType), Triple::getOSTypeName(FirstOSType), Triple::getEnvironmentTypeName(FirstEnvType)}; for (int Arch = FirstArchType; Arch <= Triple::LastArchType; ++Arch) { StringRef C[] = {InitialC[0], InitialC[1], InitialC[2], InitialC[3]}; C[0] = Triple::getArchTypeName(Triple::ArchType(Arch)); std::string E = Join(C[0], C[1], C[2]); int I[] = {0, 1, 2}; do { EXPECT_EQ(E, Triple::normalize(Join(C[I[0]], C[I[1]], C[I[2]]))); } while (std::next_permutation(std::begin(I), std::end(I))); std::string F = Join(C[0], C[1], C[2], C[3]); int J[] = {0, 1, 2, 3}; do { EXPECT_EQ(F, Triple::normalize(Join(C[J[0]], C[J[1]], C[J[2]], C[J[3]]))); } while (std::next_permutation(std::begin(J), std::end(J))); } for (int Vendor = FirstVendorType; Vendor <= Triple::LastVendorType; ++Vendor) { StringRef C[] = {InitialC[0], InitialC[1], InitialC[2], InitialC[3]}; C[1] = Triple::getVendorTypeName(Triple::VendorType(Vendor)); std::string E = Join(C[0], C[1], C[2]); int I[] = {0, 1, 2}; do { EXPECT_EQ(E, Triple::normalize(Join(C[I[0]], C[I[1]], C[I[2]]))); } while (std::next_permutation(std::begin(I), std::end(I))); std::string F = Join(C[0], C[1], C[2], C[3]); int J[] = {0, 1, 2, 3}; do { EXPECT_EQ(F, Triple::normalize(Join(C[J[0]], C[J[1]], C[J[2]], C[J[3]]))); } while (std::next_permutation(std::begin(J), std::end(J))); } for (int OS = FirstOSType; OS <= Triple::LastOSType; ++OS) { if (OS == Triple::Win32) continue; StringRef C[] = {InitialC[0], InitialC[1], InitialC[2], InitialC[3]}; C[2] = Triple::getOSTypeName(Triple::OSType(OS)); std::string E = Join(C[0], C[1], C[2]); int I[] = {0, 1, 2}; do { EXPECT_EQ(E, Triple::normalize(Join(C[I[0]], C[I[1]], C[I[2]]))); } while (std::next_permutation(std::begin(I), std::end(I))); std::string F = Join(C[0], C[1], C[2], C[3]); int J[] = {0, 1, 2, 3}; do { EXPECT_EQ(F, Triple::normalize(Join(C[J[0]], C[J[1]], C[J[2]], C[J[3]]))); } while (std::next_permutation(std::begin(J), std::end(J))); } for (int Env = FirstEnvType; Env <= Triple::LastEnvironmentType; ++Env) { StringRef C[] = {InitialC[0], InitialC[1], InitialC[2], InitialC[3]}; C[3] = Triple::getEnvironmentTypeName(Triple::EnvironmentType(Env)); std::string F = Join(C[0], C[1], C[2], C[3]); int J[] = {0, 1, 2, 3}; do { EXPECT_EQ(F, Triple::normalize(Join(C[J[0]], C[J[1]], C[J[2]], C[J[3]]))); } while (std::next_permutation(std::begin(J), std::end(J))); } // Various real-world funky triples. The value returned by GCC's config.sub // is given in the comment. EXPECT_EQ("i386--windows-gnu", Triple::normalize("i386-mingw32")); // i386-pc-mingw32 EXPECT_EQ("x86_64--linux-gnu", Triple::normalize("x86_64-linux-gnu")); // x86_64-pc-linux-gnu EXPECT_EQ("i486--linux-gnu", Triple::normalize("i486-linux-gnu")); // i486-pc-linux-gnu EXPECT_EQ("i386-redhat-linux", Triple::normalize("i386-redhat-linux")); // i386-redhat-linux-gnu EXPECT_EQ("i686--linux", Triple::normalize("i686-linux")); // i686-pc-linux-gnu EXPECT_EQ("arm-none--eabi", Triple::normalize("arm-none-eabi")); // arm-none-eabi } TEST(TripleTest, MutateName) { Triple T; EXPECT_EQ(Triple::UnknownArch, T.getArch()); EXPECT_EQ(Triple::UnknownVendor, T.getVendor()); EXPECT_EQ(Triple::UnknownOS, T.getOS()); EXPECT_EQ(Triple::UnknownEnvironment, T.getEnvironment()); T.setArchName("i386"); EXPECT_EQ(Triple::x86, T.getArch()); EXPECT_EQ("i386--", T.getTriple()); T.setVendorName("pc"); EXPECT_EQ(Triple::x86, T.getArch()); EXPECT_EQ(Triple::PC, T.getVendor()); EXPECT_EQ("i386-pc-", T.getTriple()); T.setOSName("linux"); EXPECT_EQ(Triple::x86, T.getArch()); EXPECT_EQ(Triple::PC, T.getVendor()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ("i386-pc-linux", T.getTriple()); T.setEnvironmentName("gnu"); EXPECT_EQ(Triple::x86, T.getArch()); EXPECT_EQ(Triple::PC, T.getVendor()); EXPECT_EQ(Triple::Linux, T.getOS()); EXPECT_EQ("i386-pc-linux-gnu", T.getTriple()); T.setOSName("freebsd"); EXPECT_EQ(Triple::x86, T.getArch()); EXPECT_EQ(Triple::PC, T.getVendor()); EXPECT_EQ(Triple::FreeBSD, T.getOS()); EXPECT_EQ("i386-pc-freebsd-gnu", T.getTriple()); T.setOSAndEnvironmentName("darwin"); EXPECT_EQ(Triple::x86, T.getArch()); EXPECT_EQ(Triple::PC, T.getVendor()); EXPECT_EQ(Triple::Darwin, T.getOS()); EXPECT_EQ("i386-pc-darwin", T.getTriple()); T.setEnvironmentName("amdopencl"); EXPECT_EQ(Triple::AMDOpenCL, T.getEnvironment()); } TEST(TripleTest, BitWidthPredicates) { Triple T; EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::arm); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::hexagon); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::mips); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::mips64); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.setArch(Triple::msp430); EXPECT_TRUE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::ppc); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::ppc64); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.setArch(Triple::x86); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::x86_64); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.setArch(Triple::amdil); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::amdil64); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.setArch(Triple::hsail); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::hsail64); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.setArch(Triple::spir); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::spir64); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.setArch(Triple::sparc); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::sparcel); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::sparcv9); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.setArch(Triple::wasm32); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::wasm64); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.setArch(Triple::avr); EXPECT_TRUE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.setArch(Triple::lanai); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); } TEST(TripleTest, BitWidthArchVariants) { Triple T; EXPECT_EQ(Triple::UnknownArch, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::UnknownArch, T.get64BitArchVariant().getArch()); T.setArch(Triple::UnknownArch); EXPECT_EQ(Triple::UnknownArch, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::UnknownArch, T.get64BitArchVariant().getArch()); T.setArch(Triple::mips); EXPECT_EQ(Triple::mips, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::mips64, T.get64BitArchVariant().getArch()); T.setArch(Triple::mipsel); EXPECT_EQ(Triple::mipsel, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::mips64el, T.get64BitArchVariant().getArch()); T.setArch(Triple::ppc); EXPECT_EQ(Triple::ppc, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::ppc64, T.get64BitArchVariant().getArch()); T.setArch(Triple::nvptx); EXPECT_EQ(Triple::nvptx, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::nvptx64, T.get64BitArchVariant().getArch()); T.setArch(Triple::sparc); EXPECT_EQ(Triple::sparc, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::sparcv9, T.get64BitArchVariant().getArch()); T.setArch(Triple::x86); EXPECT_EQ(Triple::x86, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::x86_64, T.get64BitArchVariant().getArch()); T.setArch(Triple::mips64); EXPECT_EQ(Triple::mips, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::mips64, T.get64BitArchVariant().getArch()); T.setArch(Triple::mips64el); EXPECT_EQ(Triple::mipsel, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::mips64el, T.get64BitArchVariant().getArch()); T.setArch(Triple::ppc64); EXPECT_EQ(Triple::ppc, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::ppc64, T.get64BitArchVariant().getArch()); T.setArch(Triple::nvptx64); EXPECT_EQ(Triple::nvptx, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::nvptx64, T.get64BitArchVariant().getArch()); T.setArch(Triple::sparcv9); EXPECT_EQ(Triple::sparc, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::sparcv9, T.get64BitArchVariant().getArch()); T.setArch(Triple::x86_64); EXPECT_EQ(Triple::x86, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::x86_64, T.get64BitArchVariant().getArch()); T.setArch(Triple::amdil); EXPECT_EQ(Triple::amdil, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::amdil64, T.get64BitArchVariant().getArch()); T.setArch(Triple::amdil64); EXPECT_EQ(Triple::amdil, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::amdil64, T.get64BitArchVariant().getArch()); T.setArch(Triple::hsail); EXPECT_EQ(Triple::hsail, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::hsail64, T.get64BitArchVariant().getArch()); T.setArch(Triple::hsail64); EXPECT_EQ(Triple::hsail, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::hsail64, T.get64BitArchVariant().getArch()); T.setArch(Triple::spir); EXPECT_EQ(Triple::spir, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::spir64, T.get64BitArchVariant().getArch()); T.setArch(Triple::spir64); EXPECT_EQ(Triple::spir, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::spir64, T.get64BitArchVariant().getArch()); T.setArch(Triple::wasm32); EXPECT_EQ(Triple::wasm32, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::wasm64, T.get64BitArchVariant().getArch()); T.setArch(Triple::wasm64); EXPECT_EQ(Triple::wasm32, T.get32BitArchVariant().getArch()); EXPECT_EQ(Triple::wasm64, T.get64BitArchVariant().getArch()); } TEST(TripleTest, EndianArchVariants) { Triple T; EXPECT_EQ(Triple::UnknownArch, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::UnknownArch, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::UnknownArch); EXPECT_EQ(Triple::UnknownArch, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::UnknownArch, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::aarch64_be); EXPECT_EQ(Triple::aarch64_be, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::aarch64, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::aarch64); EXPECT_EQ(Triple::aarch64_be, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::aarch64, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::armeb); EXPECT_EQ(Triple::armeb, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::UnknownArch, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::arm); EXPECT_EQ(Triple::UnknownArch, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::arm, T.getLittleEndianArchVariant().getArch()); T = Triple("arm"); EXPECT_TRUE(T.isLittleEndian()); T = Triple("thumb"); EXPECT_TRUE(T.isLittleEndian()); T = Triple("armeb"); EXPECT_FALSE(T.isLittleEndian()); T = Triple("thumbeb"); EXPECT_FALSE(T.isLittleEndian()); T.setArch(Triple::bpfeb); EXPECT_EQ(Triple::bpfeb, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::bpfel, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::bpfel); EXPECT_EQ(Triple::bpfeb, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::bpfel, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::mips64); EXPECT_EQ(Triple::mips64, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::mips64el, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::mips64el); EXPECT_EQ(Triple::mips64, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::mips64el, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::mips); EXPECT_EQ(Triple::mips, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::mipsel, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::mipsel); EXPECT_EQ(Triple::mips, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::mipsel, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::ppc); EXPECT_EQ(Triple::ppc, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::UnknownArch, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::ppc64); EXPECT_EQ(Triple::ppc64, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::ppc64le, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::ppc64le); EXPECT_EQ(Triple::ppc64, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::ppc64le, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::sparc); EXPECT_EQ(Triple::sparc, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::sparcel, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::sparcel); EXPECT_EQ(Triple::sparc, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::sparcel, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::thumb); EXPECT_EQ(Triple::UnknownArch, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::thumb, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::thumbeb); EXPECT_EQ(Triple::thumbeb, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::UnknownArch, T.getLittleEndianArchVariant().getArch()); T.setArch(Triple::lanai); EXPECT_EQ(Triple::lanai, T.getBigEndianArchVariant().getArch()); EXPECT_EQ(Triple::UnknownArch, T.getLittleEndianArchVariant().getArch()); } TEST(TripleTest, getOSVersion) { Triple T; unsigned Major, Minor, Micro; T = Triple("i386-apple-darwin9"); EXPECT_TRUE(T.isMacOSX()); EXPECT_FALSE(T.isiOS()); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.getMacOSXVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)10, Major); EXPECT_EQ((unsigned)5, Minor); EXPECT_EQ((unsigned)0, Micro); T.getiOSVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)5, Major); EXPECT_EQ((unsigned)0, Minor); EXPECT_EQ((unsigned)0, Micro); T = Triple("x86_64-apple-darwin9"); EXPECT_TRUE(T.isMacOSX()); EXPECT_FALSE(T.isiOS()); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.getMacOSXVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)10, Major); EXPECT_EQ((unsigned)5, Minor); EXPECT_EQ((unsigned)0, Micro); T.getiOSVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)5, Major); EXPECT_EQ((unsigned)0, Minor); EXPECT_EQ((unsigned)0, Micro); T = Triple("x86_64-apple-macosx"); EXPECT_TRUE(T.isMacOSX()); EXPECT_FALSE(T.isiOS()); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.getMacOSXVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)10, Major); EXPECT_EQ((unsigned)4, Minor); EXPECT_EQ((unsigned)0, Micro); T.getiOSVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)5, Major); EXPECT_EQ((unsigned)0, Minor); EXPECT_EQ((unsigned)0, Micro); T = Triple("x86_64-apple-macosx10.7"); EXPECT_TRUE(T.isMacOSX()); EXPECT_FALSE(T.isiOS()); EXPECT_FALSE(T.isArch16Bit()); EXPECT_FALSE(T.isArch32Bit()); EXPECT_TRUE(T.isArch64Bit()); T.getMacOSXVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)10, Major); EXPECT_EQ((unsigned)7, Minor); EXPECT_EQ((unsigned)0, Micro); T.getiOSVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)5, Major); EXPECT_EQ((unsigned)0, Minor); EXPECT_EQ((unsigned)0, Micro); T = Triple("armv7-apple-ios"); EXPECT_FALSE(T.isMacOSX()); EXPECT_TRUE(T.isiOS()); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.getMacOSXVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)10, Major); EXPECT_EQ((unsigned)4, Minor); EXPECT_EQ((unsigned)0, Micro); T.getiOSVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)5, Major); EXPECT_EQ((unsigned)0, Minor); EXPECT_EQ((unsigned)0, Micro); T = Triple("armv7-apple-ios7.0"); EXPECT_FALSE(T.isMacOSX()); EXPECT_TRUE(T.isiOS()); EXPECT_FALSE(T.isArch16Bit()); EXPECT_TRUE(T.isArch32Bit()); EXPECT_FALSE(T.isArch64Bit()); T.getMacOSXVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)10, Major); EXPECT_EQ((unsigned)4, Minor); EXPECT_EQ((unsigned)0, Micro); T.getiOSVersion(Major, Minor, Micro); EXPECT_EQ((unsigned)7, Major); EXPECT_EQ((unsigned)0, Minor); EXPECT_EQ((unsigned)0, Micro); } TEST(TripleTest, FileFormat) { EXPECT_EQ(Triple::ELF, Triple("i686-unknown-linux-gnu").getObjectFormat()); EXPECT_EQ(Triple::ELF, Triple("i686-unknown-freebsd").getObjectFormat()); EXPECT_EQ(Triple::ELF, Triple("i686-unknown-netbsd").getObjectFormat()); EXPECT_EQ(Triple::ELF, Triple("i686--win32-elf").getObjectFormat()); EXPECT_EQ(Triple::ELF, Triple("i686---elf").getObjectFormat()); EXPECT_EQ(Triple::MachO, Triple("i686-apple-macosx").getObjectFormat()); EXPECT_EQ(Triple::MachO, Triple("i686-apple-ios").getObjectFormat()); EXPECT_EQ(Triple::MachO, Triple("i686---macho").getObjectFormat()); EXPECT_EQ(Triple::COFF, Triple("i686--win32").getObjectFormat()); EXPECT_EQ(Triple::ELF, Triple("i686-pc-windows-msvc-elf").getObjectFormat()); EXPECT_EQ(Triple::ELF, Triple("i686-pc-cygwin-elf").getObjectFormat()); Triple MSVCNormalized(Triple::normalize("i686-pc-windows-msvc-elf")); EXPECT_EQ(Triple::ELF, MSVCNormalized.getObjectFormat()); Triple GNUWindowsNormalized(Triple::normalize("i686-pc-windows-gnu-elf")); EXPECT_EQ(Triple::ELF, GNUWindowsNormalized.getObjectFormat()); Triple CygnusNormalised(Triple::normalize("i686-pc-windows-cygnus-elf")); EXPECT_EQ(Triple::ELF, CygnusNormalised.getObjectFormat()); Triple CygwinNormalized(Triple::normalize("i686-pc-cygwin-elf")); EXPECT_EQ(Triple::ELF, CygwinNormalized.getObjectFormat()); Triple T = Triple(""); T.setObjectFormat(Triple::ELF); EXPECT_EQ(Triple::ELF, T.getObjectFormat()); } TEST(TripleTest, NormalizeWindows) { EXPECT_EQ("i686-pc-windows-msvc", Triple::normalize("i686-pc-win32")); EXPECT_EQ("i686--windows-msvc", Triple::normalize("i686-win32")); EXPECT_EQ("i686-pc-windows-gnu", Triple::normalize("i686-pc-mingw32")); EXPECT_EQ("i686--windows-gnu", Triple::normalize("i686-mingw32")); EXPECT_EQ("i686-pc-windows-gnu", Triple::normalize("i686-pc-mingw32-w64")); EXPECT_EQ("i686--windows-gnu", Triple::normalize("i686-mingw32-w64")); EXPECT_EQ("i686-pc-windows-cygnus", Triple::normalize("i686-pc-cygwin")); EXPECT_EQ("i686--windows-cygnus", Triple::normalize("i686-cygwin")); EXPECT_EQ("x86_64-pc-windows-msvc", Triple::normalize("x86_64-pc-win32")); EXPECT_EQ("x86_64--windows-msvc", Triple::normalize("x86_64-win32")); EXPECT_EQ("x86_64-pc-windows-gnu", Triple::normalize("x86_64-pc-mingw32")); EXPECT_EQ("x86_64--windows-gnu", Triple::normalize("x86_64-mingw32")); EXPECT_EQ("x86_64-pc-windows-gnu", Triple::normalize("x86_64-pc-mingw32-w64")); EXPECT_EQ("x86_64--windows-gnu", Triple::normalize("x86_64-mingw32-w64")); EXPECT_EQ("i686-pc-windows-elf", Triple::normalize("i686-pc-win32-elf")); EXPECT_EQ("i686--windows-elf", Triple::normalize("i686-win32-elf")); EXPECT_EQ("i686-pc-windows-macho", Triple::normalize("i686-pc-win32-macho")); EXPECT_EQ("i686--windows-macho", Triple::normalize("i686-win32-macho")); EXPECT_EQ("x86_64-pc-windows-elf", Triple::normalize("x86_64-pc-win32-elf")); EXPECT_EQ("x86_64--windows-elf", Triple::normalize("x86_64-win32-elf")); EXPECT_EQ("x86_64-pc-windows-macho", Triple::normalize("x86_64-pc-win32-macho")); EXPECT_EQ("x86_64--windows-macho", Triple::normalize("x86_64-win32-macho")); EXPECT_EQ("i686-pc-windows-cygnus", Triple::normalize("i686-pc-windows-cygnus")); EXPECT_EQ("i686-pc-windows-gnu", Triple::normalize("i686-pc-windows-gnu")); EXPECT_EQ("i686-pc-windows-itanium", Triple::normalize("i686-pc-windows-itanium")); EXPECT_EQ("i686-pc-windows-msvc", Triple::normalize("i686-pc-windows-msvc")); EXPECT_EQ("i686-pc-windows-elf", Triple::normalize("i686-pc-windows-elf-elf")); } TEST(TripleTest, getARMCPUForArch) { // Standard ARM Architectures. { llvm::Triple Triple("armv4-unknown-eabi"); EXPECT_EQ("strongarm", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv4t-unknown-eabi"); EXPECT_EQ("arm7tdmi", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv5-unknown-eabi"); EXPECT_EQ("arm10tdmi", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv5t-unknown-eabi"); EXPECT_EQ("arm10tdmi", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv5e-unknown-eabi"); EXPECT_EQ("arm1022e", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv5tej-unknown-eabi"); EXPECT_EQ("arm926ej-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6-unknown-eabi"); EXPECT_EQ("arm1136jf-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6j-unknown-eabi"); EXPECT_EQ("arm1136jf-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6k-unknown-eabi"); EXPECT_EQ("arm1176j-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6kz-unknown-eabi"); EXPECT_EQ("arm1176jzf-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6zk-unknown-eabi"); EXPECT_EQ("arm1176jzf-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6t2-unknown-eabi"); EXPECT_EQ("arm1156t2-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6m-unknown-eabi"); EXPECT_EQ("cortex-m0", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7-unknown-eabi"); EXPECT_EQ("cortex-a8", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7a-unknown-eabi"); EXPECT_EQ("cortex-a8", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7m-unknown-eabi"); EXPECT_EQ("cortex-m3", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7r-unknown-eabi"); EXPECT_EQ("cortex-r4", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7r-unknown-eabi"); EXPECT_EQ("cortex-r4", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7r-unknown-eabi"); EXPECT_EQ("cortex-r4", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7r-unknown-eabi"); EXPECT_EQ("cortex-r4", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv8a-unknown-eabi"); EXPECT_EQ("cortex-a53", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv8.1a-unknown-eabi"); EXPECT_EQ("generic", Triple.getARMCPUForArch()); } // Non-synonym names, using -march style, not default arch. { llvm::Triple Triple("arm"); EXPECT_EQ("cortex-a8", Triple.getARMCPUForArch("armv7-a")); } { llvm::Triple Triple("arm"); EXPECT_EQ("cortex-m3", Triple.getARMCPUForArch("armv7-m")); } { llvm::Triple Triple("arm"); EXPECT_EQ("cortex-a53", Triple.getARMCPUForArch("armv8")); } { llvm::Triple Triple("arm"); EXPECT_EQ("cortex-a53", Triple.getARMCPUForArch("armv8-a")); } // Platform specific defaults. { llvm::Triple Triple("arm--nacl"); EXPECT_EQ("cortex-a8", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6-unknown-freebsd"); EXPECT_EQ("arm1176jzf-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("thumbv6-unknown-freebsd"); EXPECT_EQ("arm1176jzf-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armebv6-unknown-freebsd"); EXPECT_EQ("arm1176jzf-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("arm--win32"); EXPECT_EQ("cortex-a9", Triple.getARMCPUForArch()); } // Some alternative architectures { llvm::Triple Triple("xscale-unknown-eabi"); EXPECT_EQ("xscale", Triple.getARMCPUForArch()); } { llvm::Triple Triple("iwmmxt-unknown-eabi"); EXPECT_EQ("iwmmxt", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7s-apple-ios7"); EXPECT_EQ("swift", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7k-apple-ios9"); EXPECT_EQ("cortex-a7", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7k-apple-watchos3"); EXPECT_EQ("cortex-a7", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7k-apple-tvos9"); EXPECT_EQ("cortex-a7", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7em-apple-ios7"); EXPECT_EQ("cortex-m4", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv7l-linux-gnueabihf"); EXPECT_EQ("cortex-a8", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6sm-apple-ios7"); EXPECT_EQ("cortex-m0", Triple.getARMCPUForArch()); } // armeb is permitted, but armebeb is not { llvm::Triple Triple("armeb-none-eabi"); EXPECT_EQ("arm7tdmi", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armebeb-none-eabi"); EXPECT_EQ("", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armebv6eb-none-eabi"); EXPECT_EQ("", Triple.getARMCPUForArch()); } // armebv6 and armv6eb are permitted, but armebv6eb is not { llvm::Triple Triple("armebv6-non-eabi"); EXPECT_EQ("arm1136jf-s", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armv6eb-none-eabi"); EXPECT_EQ("arm1136jf-s", Triple.getARMCPUForArch()); } // xscaleeb is permitted, but armebxscale is not { llvm::Triple Triple("xscaleeb-none-eabi"); EXPECT_EQ("xscale", Triple.getARMCPUForArch()); } { llvm::Triple Triple("armebxscale-none-eabi"); EXPECT_EQ("", Triple.getARMCPUForArch()); } } TEST(TripleTest, NormalizeARM) { EXPECT_EQ("armv6--netbsd-eabi", Triple::normalize("armv6-netbsd-eabi")); EXPECT_EQ("armv7--netbsd-eabi", Triple::normalize("armv7-netbsd-eabi")); EXPECT_EQ("armv6eb--netbsd-eabi", Triple::normalize("armv6eb-netbsd-eabi")); EXPECT_EQ("armv7eb--netbsd-eabi", Triple::normalize("armv7eb-netbsd-eabi")); EXPECT_EQ("armv6--netbsd-eabihf", Triple::normalize("armv6-netbsd-eabihf")); EXPECT_EQ("armv7--netbsd-eabihf", Triple::normalize("armv7-netbsd-eabihf")); EXPECT_EQ("armv6eb--netbsd-eabihf", Triple::normalize("armv6eb-netbsd-eabihf")); EXPECT_EQ("armv7eb--netbsd-eabihf", Triple::normalize("armv7eb-netbsd-eabihf")); Triple T; T = Triple("armv6--netbsd-eabi"); EXPECT_EQ(Triple::arm, T.getArch()); T = Triple("armv6eb--netbsd-eabi"); EXPECT_EQ(Triple::armeb, T.getArch()); } TEST(TripleTest, ParseARMArch) { // ARM { Triple T = Triple("arm"); EXPECT_EQ(Triple::arm, T.getArch()); } { Triple T = Triple("armv6t2"); EXPECT_EQ(Triple::arm, T.getArch()); } { Triple T = Triple("armv8"); EXPECT_EQ(Triple::arm, T.getArch()); } { Triple T = Triple("armeb"); EXPECT_EQ(Triple::armeb, T.getArch()); } { Triple T = Triple("armv5eb"); EXPECT_EQ(Triple::armeb, T.getArch()); } { Triple T = Triple("armebv7m"); EXPECT_EQ(Triple::armeb, T.getArch()); } { Triple T = Triple("armv7eb"); EXPECT_EQ(Triple::armeb, T.getArch()); } // THUMB { Triple T = Triple("thumb"); EXPECT_EQ(Triple::thumb, T.getArch()); } { Triple T = Triple("thumbv7a"); EXPECT_EQ(Triple::thumb, T.getArch()); } { Triple T = Triple("thumbeb"); EXPECT_EQ(Triple::thumbeb, T.getArch()); } { Triple T = Triple("thumbv4teb"); EXPECT_EQ(Triple::thumbeb, T.getArch()); } { Triple T = Triple("thumbebv7"); EXPECT_EQ(Triple::thumbeb, T.getArch()); } { Triple T = Triple("armv6m"); EXPECT_EQ(Triple::thumb, T.getArch()); } { Triple T = Triple("thumbv2"); EXPECT_EQ(Triple::UnknownArch, T.getArch()); } { Triple T = Triple("thumbebv6eb"); EXPECT_EQ(Triple::UnknownArch, T.getArch()); } // AARCH64 { Triple T = Triple("arm64"); EXPECT_EQ(Triple::aarch64, T.getArch()); } { Triple T = Triple("aarch64"); EXPECT_EQ(Triple::aarch64, T.getArch()); } { Triple T = Triple("aarch64_be"); EXPECT_EQ(Triple::aarch64_be, T.getArch()); } { Triple T = Triple("aarch64be"); EXPECT_EQ(Triple::UnknownArch, T.getArch()); } { Triple T = Triple("arm64be"); EXPECT_EQ(Triple::UnknownArch, T.getArch()); } } } // end anonymous namespace