//===-- unittests/RISCVISAInfoTest.cpp ------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "llvm/Support/RISCVISAInfo.h" #include "llvm/Testing/Support/Error.h" #include "gtest/gtest.h" using ::testing::ElementsAre; using namespace llvm; bool operator==(const llvm::RISCVExtensionInfo &A, const llvm::RISCVExtensionInfo &B) { return A.MajorVersion == B.MajorVersion && A.MinorVersion == B.MinorVersion; } TEST(ParseNormalizedArchString, RejectsUpperCase) { for (StringRef Input : {"RV32", "rV64", "rv32i2P0", "rv64i2p0_A2p0"}) { EXPECT_EQ( toString(RISCVISAInfo::parseNormalizedArchString(Input).takeError()), "string must be lowercase"); } } TEST(ParseNormalizedArchString, RejectsInvalidBaseISA) { for (StringRef Input : {"rv32", "rv64", "rv32j", "rv65i"}) { EXPECT_EQ( toString(RISCVISAInfo::parseNormalizedArchString(Input).takeError()), "arch string must begin with valid base ISA"); } } TEST(ParseNormalizedArchString, RejectsMalformedInputs) { for (StringRef Input : {"rv64i2p0_", "rv32i2p0__a2p0", "rv32e2.0", "rv64e2p", "rv32i", "rv64ip1"}) { EXPECT_EQ( toString(RISCVISAInfo::parseNormalizedArchString(Input).takeError()), "extension lacks version in expected format"); } } TEST(ParseNormalizedArchString, AcceptsValidBaseISAsAndSetsXLen) { auto MaybeRV32I = RISCVISAInfo::parseNormalizedArchString("rv32i2p0"); ASSERT_THAT_EXPECTED(MaybeRV32I, Succeeded()); RISCVISAInfo &InfoRV32I = **MaybeRV32I; EXPECT_EQ(InfoRV32I.getExtensions().size(), 1UL); EXPECT_TRUE(InfoRV32I.getExtensions().at("i") == (RISCVExtensionInfo{2, 0})); EXPECT_EQ(InfoRV32I.getXLen(), 32U); auto MaybeRV32E = RISCVISAInfo::parseNormalizedArchString("rv32e2p0"); ASSERT_THAT_EXPECTED(MaybeRV32E, Succeeded()); RISCVISAInfo &InfoRV32E = **MaybeRV32E; EXPECT_EQ(InfoRV32E.getExtensions().size(), 1UL); EXPECT_TRUE(InfoRV32E.getExtensions().at("e") == (RISCVExtensionInfo{2, 0})); EXPECT_EQ(InfoRV32E.getXLen(), 32U); auto MaybeRV64I = RISCVISAInfo::parseNormalizedArchString("rv64i2p0"); ASSERT_THAT_EXPECTED(MaybeRV64I, Succeeded()); RISCVISAInfo &InfoRV64I = **MaybeRV64I; EXPECT_EQ(InfoRV64I.getExtensions().size(), 1UL); EXPECT_TRUE(InfoRV64I.getExtensions().at("i") == (RISCVExtensionInfo{2, 0})); EXPECT_EQ(InfoRV64I.getXLen(), 64U); auto MaybeRV64E = RISCVISAInfo::parseNormalizedArchString("rv64e2p0"); ASSERT_THAT_EXPECTED(MaybeRV64E, Succeeded()); RISCVISAInfo &InfoRV64E = **MaybeRV64E; EXPECT_EQ(InfoRV64E.getExtensions().size(), 1UL); EXPECT_TRUE(InfoRV64E.getExtensions().at("e") == (RISCVExtensionInfo{2, 0})); EXPECT_EQ(InfoRV64E.getXLen(), 64U); } TEST(ParseNormalizedArchString, AcceptsArbitraryExtensionsAndVersions) { auto MaybeISAInfo = RISCVISAInfo::parseNormalizedArchString( "rv64i5p1_m3p2_zmadeup11p12_sfoo2p0_xbar3p0"); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo &Info = **MaybeISAInfo; EXPECT_EQ(Info.getExtensions().size(), 5UL); EXPECT_TRUE(Info.getExtensions().at("i") == (RISCVExtensionInfo{5, 1})); EXPECT_TRUE(Info.getExtensions().at("m") == (RISCVExtensionInfo{3, 2})); EXPECT_TRUE(Info.getExtensions().at("zmadeup") == (RISCVExtensionInfo{11, 12})); EXPECT_TRUE(Info.getExtensions().at("sfoo") == (RISCVExtensionInfo{2, 0})); EXPECT_TRUE(Info.getExtensions().at("xbar") == (RISCVExtensionInfo{3, 0})); } TEST(ParseNormalizedArchString, UpdatesFLenMinVLenMaxELen) { auto MaybeISAInfo = RISCVISAInfo::parseNormalizedArchString( "rv64i2p0_d2p0_zvl64b1p0_zve64d1p0"); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo &Info = **MaybeISAInfo; EXPECT_EQ(Info.getXLen(), 64U); EXPECT_EQ(Info.getFLen(), 64U); EXPECT_EQ(Info.getMinVLen(), 64U); EXPECT_EQ(Info.getMaxELen(), 64U); } TEST(ParseArchString, RejectsUpperCase) { for (StringRef Input : {"RV32", "rV64", "rv32i2P0", "rv64i2p0_A2p0"}) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString(Input, true).takeError()), "string must be lowercase"); } } TEST(ParseArchString, RejectsInvalidBaseISA) { for (StringRef Input : {"rv32", "rv64", "rv65i"}) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString(Input, true).takeError()), "string must begin with rv32{i,e,g} or rv64{i,e,g}"); } for (StringRef Input : {"rv32j", "rv64k", "rv32_i"}) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString(Input, true).takeError()), "first letter should be 'e', 'i' or 'g'"); } } TEST(ParseArchString, RejectsUnsupportedBaseISA) { for (StringRef Input : {"rv128i", "rv128g"}) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString(Input, true).takeError()), "string must begin with rv32{i,e,g} or rv64{i,e,g}"); } } TEST(ParseArchString, AcceptsSupportedBaseISAsAndSetsXLenAndFLen) { auto MaybeRV32I = RISCVISAInfo::parseArchString("rv32i", true); ASSERT_THAT_EXPECTED(MaybeRV32I, Succeeded()); RISCVISAInfo &InfoRV32I = **MaybeRV32I; RISCVISAInfo::OrderedExtensionMap ExtsRV32I = InfoRV32I.getExtensions(); EXPECT_EQ(ExtsRV32I.size(), 1UL); EXPECT_TRUE(ExtsRV32I.at("i") == (RISCVExtensionInfo{2, 1})); EXPECT_EQ(InfoRV32I.getXLen(), 32U); EXPECT_EQ(InfoRV32I.getFLen(), 0U); auto MaybeRV32E = RISCVISAInfo::parseArchString("rv32e", true); ASSERT_THAT_EXPECTED(MaybeRV32E, Succeeded()); RISCVISAInfo &InfoRV32E = **MaybeRV32E; RISCVISAInfo::OrderedExtensionMap ExtsRV32E = InfoRV32E.getExtensions(); EXPECT_EQ(ExtsRV32E.size(), 1UL); EXPECT_TRUE(ExtsRV32E.at("e") == (RISCVExtensionInfo{2, 0})); EXPECT_EQ(InfoRV32E.getXLen(), 32U); EXPECT_EQ(InfoRV32E.getFLen(), 0U); auto MaybeRV32G = RISCVISAInfo::parseArchString("rv32g", true); ASSERT_THAT_EXPECTED(MaybeRV32G, Succeeded()); RISCVISAInfo &InfoRV32G = **MaybeRV32G; RISCVISAInfo::OrderedExtensionMap ExtsRV32G = InfoRV32G.getExtensions(); EXPECT_EQ(ExtsRV32G.size(), 7UL); EXPECT_TRUE(ExtsRV32G.at("i") == (RISCVExtensionInfo{2, 1})); EXPECT_TRUE(ExtsRV32G.at("m") == (RISCVExtensionInfo{2, 0})); EXPECT_TRUE(ExtsRV32G.at("a") == (RISCVExtensionInfo{2, 1})); EXPECT_TRUE(ExtsRV32G.at("f") == (RISCVExtensionInfo{2, 2})); EXPECT_TRUE(ExtsRV32G.at("d") == (RISCVExtensionInfo{2, 2})); EXPECT_TRUE(ExtsRV32G.at("zicsr") == (RISCVExtensionInfo{2, 0})); EXPECT_TRUE(ExtsRV32G.at("zifencei") == (RISCVExtensionInfo{2, 0})); EXPECT_EQ(InfoRV32G.getXLen(), 32U); EXPECT_EQ(InfoRV32G.getFLen(), 64U); auto MaybeRV64I = RISCVISAInfo::parseArchString("rv64i", true); ASSERT_THAT_EXPECTED(MaybeRV64I, Succeeded()); RISCVISAInfo &InfoRV64I = **MaybeRV64I; RISCVISAInfo::OrderedExtensionMap ExtsRV64I = InfoRV64I.getExtensions(); EXPECT_EQ(ExtsRV64I.size(), 1UL); EXPECT_TRUE(ExtsRV64I.at("i") == (RISCVExtensionInfo{2, 1})); EXPECT_EQ(InfoRV64I.getXLen(), 64U); EXPECT_EQ(InfoRV64I.getFLen(), 0U); auto MaybeRV64E = RISCVISAInfo::parseArchString("rv64e", true); ASSERT_THAT_EXPECTED(MaybeRV64E, Succeeded()); RISCVISAInfo &InfoRV64E = **MaybeRV64E; RISCVISAInfo::OrderedExtensionMap ExtsRV64E = InfoRV64E.getExtensions(); EXPECT_EQ(ExtsRV64E.size(), 1UL); EXPECT_TRUE(ExtsRV64E.at("e") == (RISCVExtensionInfo{2, 0})); EXPECT_EQ(InfoRV64E.getXLen(), 64U); EXPECT_EQ(InfoRV64E.getFLen(), 0U); auto MaybeRV64G = RISCVISAInfo::parseArchString("rv64g", true); ASSERT_THAT_EXPECTED(MaybeRV64G, Succeeded()); RISCVISAInfo &InfoRV64G = **MaybeRV64G; RISCVISAInfo::OrderedExtensionMap ExtsRV64G = InfoRV64G.getExtensions(); EXPECT_EQ(ExtsRV64G.size(), 7UL); EXPECT_TRUE(ExtsRV64G.at("i") == (RISCVExtensionInfo{2, 1})); EXPECT_TRUE(ExtsRV64G.at("m") == (RISCVExtensionInfo{2, 0})); EXPECT_TRUE(ExtsRV64G.at("a") == (RISCVExtensionInfo{2, 1})); EXPECT_TRUE(ExtsRV64G.at("f") == (RISCVExtensionInfo{2, 2})); EXPECT_TRUE(ExtsRV64G.at("d") == (RISCVExtensionInfo{2, 2})); EXPECT_TRUE(ExtsRV64G.at("zicsr") == (RISCVExtensionInfo{2, 0})); EXPECT_TRUE(ExtsRV64G.at("zifencei") == (RISCVExtensionInfo{2, 0})); EXPECT_EQ(InfoRV64G.getXLen(), 64U); EXPECT_EQ(InfoRV64G.getFLen(), 64U); } TEST(ParseArchString, RequiresCanonicalOrderForExtensions) { EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv64idf", true).takeError()), "standard user-level extension not given in canonical order 'f'"); EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv32iam", true).takeError()), "standard user-level extension not given in canonical order 'm'"); EXPECT_EQ( toString( RISCVISAInfo::parseArchString("rv32i_zfinx_a", true).takeError()), "invalid extension prefix 'a'"); EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv64i_svnapot_zicsr", true) .takeError()), "standard user-level extension not given in canonical order 'zicsr'"); EXPECT_THAT_EXPECTED( RISCVISAInfo::parseArchString("rv64imafdc_zicsr_svnapot", true), Succeeded()); } TEST(ParseArchString, RejectsUnrecognizedExtensionNamesByDefault) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString("rv64ib", true).takeError()), "unsupported standard user-level extension 'b'"); EXPECT_EQ( toString( RISCVISAInfo::parseArchString("rv32i_zmadeup", true).takeError()), "unsupported standard user-level extension 'zmadeup'"); EXPECT_EQ( toString( RISCVISAInfo::parseArchString("rv64g_smadeup", true).takeError()), "unsupported standard supervisor-level extension 'smadeup'"); EXPECT_EQ( toString( RISCVISAInfo::parseArchString("rv64g_xmadeup", true).takeError()), "unsupported non-standard user-level extension 'xmadeup'"); } TEST(ParseArchString, IgnoresUnrecognizedExtensionNamesWithIgnoreUnknown) { for (StringRef Input : {"rv32ib", "rv32i_zmadeup", "rv64i_smadeup", "rv64i_xmadeup"}) { auto MaybeISAInfo = RISCVISAInfo::parseArchString(Input, true, false, true); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo &Info = **MaybeISAInfo; RISCVISAInfo::OrderedExtensionMap Exts = Info.getExtensions(); EXPECT_EQ(Exts.size(), 1UL); EXPECT_TRUE(Exts.at("i") == (RISCVExtensionInfo{2, 1})); } // Checks that supported extensions aren't incorrectly ignored when a // version is present (an early version of the patch had this mistake). auto MaybeISAInfo = RISCVISAInfo::parseArchString("rv32i_zbc1p0_xmadeup", true, false, true); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_TRUE(Exts.at("zbc") == (RISCVExtensionInfo{1, 0})); } TEST(ParseArchString, AcceptsVersionInLongOrShortForm) { for (StringRef Input : {"rv64i2p1"}) { auto MaybeISAInfo = RISCVISAInfo::parseArchString(Input, true); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_TRUE(Exts.at("i") == (RISCVExtensionInfo{2, 1})); } for (StringRef Input : {"rv32i_zfinx1", "rv32i_zfinx1p0"}) { auto MaybeISAInfo = RISCVISAInfo::parseArchString(Input, true); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_TRUE(Exts.at("zfinx") == (RISCVExtensionInfo{1, 0})); } } TEST(ParseArchString, RejectsUnrecognizedExtensionVersionsByDefault) { EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv64i2p", true).takeError()), "minor version number missing after 'p' for extension 'i'"); EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv64i1p0", true).takeError()), "unsupported version number 1.0 for extension 'i'"); EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv64i9p9", true).takeError()), "unsupported version number 9.9 for extension 'i'"); EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv32im0p1", true).takeError()), "unsupported version number 0.1 for extension 'm'"); EXPECT_EQ(toString(RISCVISAInfo::parseArchString("rv32izifencei10p10", true) .takeError()), "unsupported version number 10.10 for extension 'zifencei'"); } TEST(ParseArchString, UsesDefaultVersionForUnrecognisedBaseISAVersionWithIgnoreUnknown) { for (StringRef Input : {"rv32i0p1", "rv32i99p99", "rv64i0p1", "rv64i99p99"}) { auto MaybeISAInfo = RISCVISAInfo::parseArchString(Input, true, false, true); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_EQ(Exts.size(), 1UL); EXPECT_TRUE(Exts.at("i") == (RISCVExtensionInfo{2, 1})); } for (StringRef Input : {"rv32e0p1", "rv32e99p99", "rv64e0p1", "rv64e99p99"}) { auto MaybeISAInfo = RISCVISAInfo::parseArchString(Input, true, false, true); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_EQ(Exts.size(), 1UL); EXPECT_TRUE(Exts.at("e") == (RISCVExtensionInfo{2, 0})); } } TEST(ParseArchString, IgnoresExtensionsWithUnrecognizedVersionsWithIgnoreUnknown) { for (StringRef Input : {"rv32im1p1", "rv64i_svnapot10p9", "rv32i_zicsr0p5"}) { auto MaybeISAInfo = RISCVISAInfo::parseArchString(Input, true, false, true); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_EQ(Exts.size(), 1UL); EXPECT_TRUE(Exts.at("i") == (RISCVExtensionInfo{2, 1})); } } TEST(ParseArchString, AcceptsUnderscoreSplittingExtensions) { for (StringRef Input : {"rv32imafdczifencei", "rv32i_m_a_f_d_c_zifencei"}) { auto MaybeISAInfo = RISCVISAInfo::parseArchString(Input, true); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_EQ(Exts.size(), 8UL); EXPECT_EQ(Exts.count("i"), 1U); EXPECT_EQ(Exts.count("m"), 1U); EXPECT_EQ(Exts.count("a"), 1U); EXPECT_EQ(Exts.count("f"), 1U); EXPECT_EQ(Exts.count("d"), 1U); EXPECT_EQ(Exts.count("c"), 1U); EXPECT_EQ(Exts.count("zicsr"), 1U); EXPECT_EQ(Exts.count("zifencei"), 1U); } } TEST(ParseArchString, RejectsDoubleOrTrailingUnderscore) { EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv64i__m", true).takeError()), "invalid standard user-level extension '_'"); for (StringRef Input : {"rv32ezicsr__zifencei", "rv32i_", "rv32izicsr_", "rv64im_"}) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString(Input, true).takeError()), "extension name missing after separator '_'"); } } TEST(ParseArchString, RejectsDuplicateExtensionNames) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString("rv64ii", true).takeError()), "invalid standard user-level extension 'i'"); EXPECT_EQ(toString(RISCVISAInfo::parseArchString("rv32ee", true).takeError()), "invalid standard user-level extension 'e'"); EXPECT_EQ( toString(RISCVISAInfo::parseArchString("rv64imm", true).takeError()), "standard user-level extension not given in canonical order 'm'"); EXPECT_EQ( toString( RISCVISAInfo::parseArchString("rv32i_zicsr_zicsr", true).takeError()), "duplicated standard user-level extension 'zicsr'"); } TEST(ParseArchString, RejectsExperimentalExtensionsIfNotEnableExperimentalExtension) { EXPECT_EQ( toString( RISCVISAInfo::parseArchString("rv64izihintntl", false).takeError()), "requires '-menable-experimental-extensions' for experimental extension " "'zihintntl'"); } TEST(ParseArchString, AcceptsExperimentalExtensionsIfEnableExperimentalExtension) { // Note: If zihintntl becomes none-experimental, this test will need // updating (and unfortunately, it will still pass). The failure of // RejectsExperimentalExtensionsIfNotEnableExperimentalExtension will // hopefully serve as a reminder to update. auto MaybeISAInfo = RISCVISAInfo::parseArchString("rv64izihintntl", true, false); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_EQ(Exts.size(), 2UL); EXPECT_EQ(Exts.count("zihintntl"), 1U); auto MaybeISAInfo2 = RISCVISAInfo::parseArchString("rv64izihintntl0p2", true); ASSERT_THAT_EXPECTED(MaybeISAInfo2, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts2 = (*MaybeISAInfo2)->getExtensions(); EXPECT_EQ(Exts2.size(), 2UL); EXPECT_EQ(Exts2.count("zihintntl"), 1U); } TEST(ParseArchString, RequiresExplicitVersionNumberForExperimentalExtensionByDefault) { EXPECT_EQ( toString( RISCVISAInfo::parseArchString("rv64izihintntl", true).takeError()), "experimental extension requires explicit version number `zihintntl`"); } TEST(ParseArchString, AcceptsUnrecognizedVersionIfNotExperimentalExtensionVersionCheck) { auto MaybeISAInfo = RISCVISAInfo::parseArchString("rv64izihintntl9p9", true, false); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); RISCVISAInfo::OrderedExtensionMap Exts = (*MaybeISAInfo)->getExtensions(); EXPECT_EQ(Exts.size(), 2UL); EXPECT_TRUE(Exts.at("zihintntl") == (RISCVExtensionInfo{9, 9})); } TEST(ParseArchString, RejectsUnrecognizedVersionForExperimentalExtension) { EXPECT_EQ( toString( RISCVISAInfo::parseArchString("rv64izihintntl9p9", true).takeError()), "unsupported version number 9.9 for experimental extension 'zihintntl' " "(this compiler supports 0.2)"); } TEST(ParseArchString, RejectsExtensionVersionForG) { for (StringRef Input : {"rv32g1c", "rv64g2p0"}) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString(Input, true).takeError()), "version not supported for 'g'"); } } TEST(ParseArchString, AddsImpliedExtensions) { // Does not attempt to exhaustively test all implications. auto MaybeRV64ID = RISCVISAInfo::parseArchString("rv64id", true); ASSERT_THAT_EXPECTED(MaybeRV64ID, Succeeded()); RISCVISAInfo::OrderedExtensionMap ExtsRV64ID = (*MaybeRV64ID)->getExtensions(); EXPECT_EQ(ExtsRV64ID.size(), 4UL); EXPECT_EQ(ExtsRV64ID.count("i"), 1U); EXPECT_EQ(ExtsRV64ID.count("f"), 1U); EXPECT_EQ(ExtsRV64ID.count("d"), 1U); EXPECT_EQ(ExtsRV64ID.count("zicsr"), 1U); auto MaybeRV32IZKN = RISCVISAInfo::parseArchString("rv64izkn", true); ASSERT_THAT_EXPECTED(MaybeRV32IZKN, Succeeded()); RISCVISAInfo::OrderedExtensionMap ExtsRV32IZKN = (*MaybeRV32IZKN)->getExtensions(); EXPECT_EQ(ExtsRV32IZKN.size(), 8UL); EXPECT_EQ(ExtsRV32IZKN.count("i"), 1U); EXPECT_EQ(ExtsRV32IZKN.count("zbkb"), 1U); EXPECT_EQ(ExtsRV32IZKN.count("zbkc"), 1U); EXPECT_EQ(ExtsRV32IZKN.count("zbkx"), 1U); EXPECT_EQ(ExtsRV32IZKN.count("zkne"), 1U); EXPECT_EQ(ExtsRV32IZKN.count("zknd"), 1U); EXPECT_EQ(ExtsRV32IZKN.count("zknh"), 1U); EXPECT_EQ(ExtsRV32IZKN.count("zkn"), 1U); } TEST(ParseArchString, RejectsConflictingExtensions) { for (StringRef Input : {"rv32ifzfinx", "rv64gzdinx"}) { EXPECT_EQ(toString(RISCVISAInfo::parseArchString(Input, true).takeError()), "'f' and 'zfinx' extensions are incompatible"); } } TEST(ToFeatureVector, IIsDroppedAndExperimentalExtensionsArePrefixed) { auto MaybeISAInfo1 = RISCVISAInfo::parseArchString("rv64im_zihintntl", true, false); ASSERT_THAT_EXPECTED(MaybeISAInfo1, Succeeded()); EXPECT_THAT((*MaybeISAInfo1)->toFeatureVector(), ElementsAre("+m", "+experimental-zihintntl")); auto MaybeISAInfo2 = RISCVISAInfo::parseArchString( "rv32e_zihintntl_xventanacondops", true, false); ASSERT_THAT_EXPECTED(MaybeISAInfo2, Succeeded()); EXPECT_THAT((*MaybeISAInfo2)->toFeatureVector(), ElementsAre("+e", "+experimental-zihintntl", "+xventanacondops")); } TEST(ToFeatureVector, UnsupportedExtensionsAreDropped) { auto MaybeISAInfo = RISCVISAInfo::parseNormalizedArchString("rv64i2p0_m2p0_xmadeup1p0"); ASSERT_THAT_EXPECTED(MaybeISAInfo, Succeeded()); EXPECT_THAT((*MaybeISAInfo)->toFeatureVector(), ElementsAre("+m")); } TEST(OrderedExtensionMap, ExtensionsAreCorrectlyOrdered) { RISCVISAInfo::OrderedExtensionMap Exts; for (auto ExtName : {"y", "l", "m", "c", "i", "xfoo", "xbar", "sfoo", "sbar", "zmfoo", "zzfoo", "zfinx", "zicsr"}) Exts[ExtName] = {1, 0}; std::vector ExtNames; for (const auto &Ext : Exts) ExtNames.push_back(Ext.first); // FIXME: 'l' and 'y' should be ordered after 'i', 'm', 'c'. EXPECT_THAT(ExtNames, ElementsAre("i", "m", "l", "c", "y", "zicsr", "zmfoo", "zfinx", "zzfoo", "sbar", "sfoo", "xbar", "xfoo")); }