//===- unittests/Driver/MultilibTest.cpp --- Multilib tests ---------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Unit tests for Multilib and MultilibSet // //===----------------------------------------------------------------------===// #include "clang/Driver/Multilib.h" #include "clang/Basic/LLVM.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/StringSwitch.h" #include "gtest/gtest.h" using namespace clang::driver; using namespace clang; TEST(MultilibTest, MultilibValidity) { ASSERT_TRUE(Multilib().isValid()) << "Empty multilib is not valid"; ASSERT_TRUE(Multilib().flag("+foo").isValid()) << "Single indicative flag is not valid"; ASSERT_TRUE(Multilib().flag("-foo").isValid()) << "Single contraindicative flag is not valid"; ASSERT_FALSE(Multilib().flag("+foo").flag("-foo").isValid()) << "Conflicting flags should invalidate the Multilib"; ASSERT_TRUE(Multilib().flag("+foo").flag("+foo").isValid()) << "Multilib should be valid even if it has the same flag twice"; ASSERT_TRUE(Multilib().flag("+foo").flag("-foobar").isValid()) << "Seemingly conflicting prefixes shouldn't actually conflict"; } TEST(MultilibTest, OpEqReflexivity1) { Multilib M; ASSERT_TRUE(M == M) << "Multilib::operator==() is not reflexive"; } TEST(MultilibTest, OpEqReflexivity2) { ASSERT_TRUE(Multilib() == Multilib()) << "Separately constructed default multilibs are not equal"; } TEST(MultilibTest, OpEqReflexivity3) { Multilib M1, M2; M1.flag("+foo"); M2.flag("+foo"); ASSERT_TRUE(M1 == M2) << "Multilibs with the same flag should be the same"; } TEST(MultilibTest, OpEqInequivalence1) { Multilib M1, M2; M1.flag("+foo"); M2.flag("-foo"); ASSERT_FALSE(M1 == M2) << "Multilibs with conflicting flags are not the same"; ASSERT_FALSE(M2 == M1) << "Multilibs with conflicting flags are not the same (commuted)"; } TEST(MultilibTest, OpEqInequivalence2) { Multilib M1, M2; M2.flag("+foo"); ASSERT_FALSE(M1 == M2) << "Flags make Multilibs different"; } TEST(MultilibTest, OpEqEquivalence1) { Multilib M1, M2; M1.flag("+foo"); M2.flag("+foo").flag("+foo"); ASSERT_TRUE(M1 == M2) << "Flag duplication shouldn't affect equivalence"; ASSERT_TRUE(M2 == M1) << "Flag duplication shouldn't affect equivalence (commuted)"; } TEST(MultilibTest, OpEqEquivalence2) { Multilib M1("64"); Multilib M2; M2.gccSuffix("/64"); ASSERT_TRUE(M1 == M2) << "Constructor argument must match Multilib::gccSuffix()"; ASSERT_TRUE(M2 == M1) << "Constructor argument must match Multilib::gccSuffix() (commuted)"; } TEST(MultilibTest, OpEqEquivalence3) { Multilib M1("", "32"); Multilib M2; M2.osSuffix("/32"); ASSERT_TRUE(M1 == M2) << "Constructor argument must match Multilib::osSuffix()"; ASSERT_TRUE(M2 == M1) << "Constructor argument must match Multilib::osSuffix() (commuted)"; } TEST(MultilibTest, OpEqEquivalence4) { Multilib M1("", "", "16"); Multilib M2; M2.includeSuffix("/16"); ASSERT_TRUE(M1 == M2) << "Constructor argument must match Multilib::includeSuffix()"; ASSERT_TRUE(M2 == M1) << "Constructor argument must match Multilib::includeSuffix() (commuted)"; } TEST(MultilibTest, OpEqInequivalence3) { Multilib M1("foo"); Multilib M2("bar"); ASSERT_FALSE(M1 == M2) << "Differing gccSuffixes should be different"; ASSERT_FALSE(M2 == M1) << "Differing gccSuffixes should be different (commuted)"; } TEST(MultilibTest, OpEqInequivalence4) { Multilib M1("", "foo"); Multilib M2("", "bar"); ASSERT_FALSE(M1 == M2) << "Differing osSuffixes should be different"; ASSERT_FALSE(M2 == M1) << "Differing osSuffixes should be different (commuted)"; } TEST(MultilibTest, OpEqInequivalence5) { Multilib M1("", "", "foo"); Multilib M2("", "", "bar"); ASSERT_FALSE(M1 == M2) << "Differing includeSuffixes should be different"; ASSERT_FALSE(M2 == M1) << "Differing includeSuffixes should be different (commuted)"; } TEST(MultilibTest, Construction1) { Multilib M("gcc64", "os64", "inc64"); ASSERT_TRUE(M.gccSuffix() == "/gcc64"); ASSERT_TRUE(M.osSuffix() == "/os64"); ASSERT_TRUE(M.includeSuffix() == "/inc64"); } TEST(MultilibTest, Construction2) { Multilib M1; Multilib M2(""); Multilib M3("", ""); Multilib M4("", "", ""); ASSERT_TRUE(M1 == M2) << "Default arguments to Multilib constructor broken (first argument)"; ASSERT_TRUE(M1 == M3) << "Default arguments to Multilib constructor broken (second argument)"; ASSERT_TRUE(M1 == M4) << "Default arguments to Multilib constructor broken (third argument)"; } TEST(MultilibTest, Construction3) { Multilib M = Multilib().flag("+f1").flag("+f2").flag("-f3"); for (Multilib::flags_list::const_iterator I = M.flags().begin(), E = M.flags().end(); I != E; ++I) { ASSERT_TRUE(llvm::StringSwitch<bool>(*I) .Cases("+f1", "+f2", "-f3", true) .Default(false)); } } static bool hasFlag(const Multilib &M, StringRef Flag) { for (Multilib::flags_list::const_iterator I = M.flags().begin(), E = M.flags().end(); I != E; ++I) { if (*I == Flag) return true; else if (StringRef(*I).substr(1) == Flag.substr(1)) return false; } return false; } TEST(MultilibTest, SetConstruction1) { // Single maybe MultilibSet MS; ASSERT_TRUE(MS.size() == 0); MS.Maybe(Multilib("64").flag("+m64")); ASSERT_TRUE(MS.size() == 2); for (MultilibSet::const_iterator I = MS.begin(), E = MS.end(); I != E; ++I) { if (I->gccSuffix() == "/64") ASSERT_TRUE(I->flags()[0] == "+m64"); else if (I->gccSuffix() == "") ASSERT_TRUE(I->flags()[0] == "-m64"); else FAIL() << "Unrecognized gccSufix: " << I->gccSuffix(); } } TEST(MultilibTest, SetConstruction2) { // Double maybe MultilibSet MS; MS.Maybe(Multilib("sof").flag("+sof")); MS.Maybe(Multilib("el").flag("+EL")); ASSERT_TRUE(MS.size() == 4); for (MultilibSet::const_iterator I = MS.begin(), E = MS.end(); I != E; ++I) { ASSERT_TRUE(I->isValid()) << "Multilb " << *I << " should be valid"; ASSERT_TRUE(llvm::StringSwitch<bool>(I->gccSuffix()) .Cases("", "/sof", "/el", "/sof/el", true) .Default(false)) << "Multilib " << *I << " wasn't expected"; ASSERT_TRUE(llvm::StringSwitch<bool>(I->gccSuffix()) .Case("", hasFlag(*I, "-sof")) .Case("/sof", hasFlag(*I, "+sof")) .Case("/el", hasFlag(*I, "-sof")) .Case("/sof/el", hasFlag(*I, "+sof")) .Default(false)) << "Multilib " << *I << " didn't have the appropriate {+,-}sof flag"; ASSERT_TRUE(llvm::StringSwitch<bool>(I->gccSuffix()) .Case("", hasFlag(*I, "-EL")) .Case("/sof", hasFlag(*I, "-EL")) .Case("/el", hasFlag(*I, "+EL")) .Case("/sof/el", hasFlag(*I, "+EL")) .Default(false)) << "Multilib " << *I << " didn't have the appropriate {+,-}EL flag"; } } TEST(MultilibTest, SetPushback) { MultilibSet MS; MS.push_back(Multilib("one")); MS.push_back(Multilib("two")); ASSERT_TRUE(MS.size() == 2); for (MultilibSet::const_iterator I = MS.begin(), E = MS.end(); I != E; ++I) { ASSERT_TRUE(llvm::StringSwitch<bool>(I->gccSuffix()) .Cases("/one", "/two", true) .Default(false)); } MS.clear(); ASSERT_TRUE(MS.size() == 0); } TEST(MultilibTest, SetRegexFilter) { MultilibSet MS; MS.Maybe(Multilib("one")); MS.Maybe(Multilib("two")); MS.Maybe(Multilib("three")); ASSERT_EQ(MS.size(), (unsigned)2 * 2 * 2) << "Size before filter was incorrect. Contents:\n" << MS; MS.FilterOut("/one/two/three"); ASSERT_EQ(MS.size(), (unsigned)2 * 2 * 2 - 1) << "Size after filter was incorrect. Contents:\n" << MS; for (MultilibSet::const_iterator I = MS.begin(), E = MS.end(); I != E; ++I) { ASSERT_TRUE(I->gccSuffix() != "/one/two/three") << "The filter should have removed " << *I; } } TEST(MultilibTest, SetFilterObject) { MultilibSet MS; MS.Maybe(Multilib("orange")); MS.Maybe(Multilib("pear")); MS.Maybe(Multilib("plum")); ASSERT_EQ((int)MS.size(), 1 /* Default */ + 1 /* pear */ + 1 /* plum */ + 1 /* pear/plum */ + 1 /* orange */ + 1 /* orange/pear */ + 1 /* orange/plum */ + 1 /* orange/pear/plum */ ) << "Size before filter was incorrect. Contents:\n" << MS; MS.FilterOut([](const Multilib &M) { return StringRef(M.gccSuffix()).startswith("/p"); }); ASSERT_EQ((int)MS.size(), 1 /* Default */ + 1 /* orange */ + 1 /* orange/pear */ + 1 /* orange/plum */ + 1 /* orange/pear/plum */ ) << "Size after filter was incorrect. Contents:\n" << MS; for (MultilibSet::const_iterator I = MS.begin(), E = MS.end(); I != E; ++I) { ASSERT_FALSE(StringRef(I->gccSuffix()).startswith("/p")) << "The filter should have removed " << *I; } } TEST(MultilibTest, SetSelection1) { MultilibSet MS1 = MultilibSet() .Maybe(Multilib("64").flag("+m64")); Multilib::flags_list FlagM64; FlagM64.push_back("+m64"); Multilib SelectionM64; ASSERT_TRUE(MS1.select(FlagM64, SelectionM64)) << "Flag set was {\"+m64\"}, but selection not found"; ASSERT_TRUE(SelectionM64.gccSuffix() == "/64") << "Selection picked " << SelectionM64 << " which was not expected"; Multilib::flags_list FlagNoM64; FlagNoM64.push_back("-m64"); Multilib SelectionNoM64; ASSERT_TRUE(MS1.select(FlagNoM64, SelectionNoM64)) << "Flag set was {\"-m64\"}, but selection not found"; ASSERT_TRUE(SelectionNoM64.gccSuffix() == "") << "Selection picked " << SelectionNoM64 << " which was not expected"; } TEST(MultilibTest, SetSelection2) { MultilibSet MS2 = MultilibSet() .Maybe(Multilib("el").flag("+EL")) .Maybe(Multilib("sf").flag("+SF")); for (unsigned I = 0; I < 4; ++I) { bool IsEL = I & 0x1; bool IsSF = I & 0x2; Multilib::flags_list Flags; if (IsEL) Flags.push_back("+EL"); else Flags.push_back("-EL"); if (IsSF) Flags.push_back("+SF"); else Flags.push_back("-SF"); Multilib Selection; ASSERT_TRUE(MS2.select(Flags, Selection)) << "Selection failed for " << (IsEL ? "+EL" : "-EL") << " " << (IsSF ? "+SF" : "-SF"); std::string Suffix; if (IsEL) Suffix += "/el"; if (IsSF) Suffix += "/sf"; ASSERT_EQ(Selection.gccSuffix(), Suffix) << "Selection picked " << Selection << " which was not expected "; } } TEST(MultilibTest, SetCombineWith) { MultilibSet Coffee; Coffee.push_back(Multilib("coffee")); MultilibSet Milk; Milk.push_back(Multilib("milk")); MultilibSet Latte; ASSERT_EQ(Latte.size(), (unsigned)0); Latte.combineWith(Coffee); ASSERT_EQ(Latte.size(), (unsigned)1); Latte.combineWith(Milk); ASSERT_EQ(Latte.size(), (unsigned)2); }