//=== - llvm/unittest/Support/TrailingObjectsTest.cpp ---------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/Support/TrailingObjects.h" #include "gtest/gtest.h" using namespace llvm; namespace { // This class, beyond being used by the test case, a nice // demonstration of the intended usage of TrailingObjects, with a // single trailing array. class Class1 final : protected TrailingObjects { friend TrailingObjects; unsigned NumShorts; protected: size_t numTrailingObjects(OverloadToken) const { return NumShorts; } Class1(int *ShortArray, unsigned NumShorts) : NumShorts(NumShorts) { std::uninitialized_copy(ShortArray, ShortArray + NumShorts, getTrailingObjects()); } public: static Class1 *create(int *ShortArray, unsigned NumShorts) { void *Mem = ::operator new(totalSizeToAlloc(NumShorts)); return new (Mem) Class1(ShortArray, NumShorts); } short get(unsigned Num) const { return getTrailingObjects()[Num]; } unsigned numShorts() const { return NumShorts; } // Pull some protected members in as public, for testability. using TrailingObjects::totalSizeToAlloc; using TrailingObjects::additionalSizeToAlloc; using TrailingObjects::getTrailingObjects; }; // Here, there are two singular optional object types appended. Note // that the alignment of Class2 is automatically increased to account // for the alignment requirements of the trailing objects. class Class2 final : protected TrailingObjects { friend TrailingObjects; bool HasShort, HasDouble; protected: size_t numTrailingObjects(OverloadToken) const { return HasShort ? 1 : 0; } size_t numTrailingObjects(OverloadToken) const { return HasDouble ? 1 : 0; } Class2(bool HasShort, bool HasDouble) : HasShort(HasShort), HasDouble(HasDouble) {} public: static Class2 *create(short S = 0, double D = 0.0) { bool HasShort = S != 0; bool HasDouble = D != 0.0; void *Mem = ::operator new(totalSizeToAlloc(HasDouble, HasShort)); Class2 *C = new (Mem) Class2(HasShort, HasDouble); if (HasShort) *C->getTrailingObjects() = S; if (HasDouble) *C->getTrailingObjects() = D; return C; } short getShort() const { if (!HasShort) return 0; return *getTrailingObjects(); } double getDouble() const { if (!HasDouble) return 0.0; return *getTrailingObjects(); } // Pull some protected members in as public, for testability. using TrailingObjects::totalSizeToAlloc; using TrailingObjects::additionalSizeToAlloc; using TrailingObjects::getTrailingObjects; }; TEST(TrailingObjects, OneArg) { int arr[] = {1, 2, 3}; Class1 *C = Class1::create(arr, 3); EXPECT_EQ(sizeof(Class1), sizeof(unsigned)); EXPECT_EQ(Class1::additionalSizeToAlloc(1), sizeof(short)); EXPECT_EQ(Class1::additionalSizeToAlloc(3), sizeof(short) * 3); EXPECT_EQ(Class1::totalSizeToAlloc(1), sizeof(Class1) + sizeof(short)); EXPECT_EQ(Class1::totalSizeToAlloc(3), sizeof(Class1) + sizeof(short) * 3); EXPECT_EQ(C->getTrailingObjects(), reinterpret_cast(C + 1)); EXPECT_EQ(C->get(0), 1); EXPECT_EQ(C->get(2), 3); delete C; } TEST(TrailingObjects, TwoArg) { Class2 *C1 = Class2::create(4); Class2 *C2 = Class2::create(0, 4.2); EXPECT_EQ(sizeof(Class2), llvm::RoundUpToAlignment(sizeof(bool) * 2, llvm::alignOf())); EXPECT_EQ(llvm::alignOf(), llvm::alignOf()); EXPECT_EQ((Class2::additionalSizeToAlloc(1, 0)), sizeof(double)); EXPECT_EQ((Class2::additionalSizeToAlloc(0, 1)), sizeof(short)); EXPECT_EQ((Class2::additionalSizeToAlloc(3, 1)), sizeof(double) * 3 + sizeof(short)); EXPECT_EQ((Class2::totalSizeToAlloc(1, 1)), sizeof(Class2) + sizeof(double) + sizeof(short)); EXPECT_EQ(C1->getDouble(), 0); EXPECT_EQ(C1->getShort(), 4); EXPECT_EQ(C1->getTrailingObjects(), reinterpret_cast(C1 + 1)); EXPECT_EQ(C1->getTrailingObjects(), reinterpret_cast(C1 + 1)); EXPECT_EQ(C2->getDouble(), 4.2); EXPECT_EQ(C2->getShort(), 0); EXPECT_EQ(C2->getTrailingObjects(), reinterpret_cast(C2 + 1)); EXPECT_EQ(C2->getTrailingObjects(), reinterpret_cast(reinterpret_cast(C2 + 1) + 1)); delete C1; delete C2; } // This test class is not trying to be a usage demo, just asserting // that three args does actually work too (it's the same code as // handles the second arg, so it's basically covered by the above, but // just in case..) class Class3 final : public TrailingObjects { friend TrailingObjects; size_t numTrailingObjects(OverloadToken) const { return 1; } size_t numTrailingObjects(OverloadToken) const { return 1; } }; TEST(TrailingObjects, ThreeArg) { EXPECT_EQ((Class3::additionalSizeToAlloc(1, 1, 3)), sizeof(double) + sizeof(short) + 3 * sizeof(bool)); EXPECT_EQ(sizeof(Class3), llvm::RoundUpToAlignment(1, llvm::alignOf())); std::unique_ptr P(new char[1000]); Class3 *C = reinterpret_cast(P.get()); EXPECT_EQ(C->getTrailingObjects(), reinterpret_cast(C + 1)); EXPECT_EQ(C->getTrailingObjects(), reinterpret_cast(reinterpret_cast(C + 1) + 1)); EXPECT_EQ( C->getTrailingObjects(), reinterpret_cast( reinterpret_cast(reinterpret_cast(C + 1) + 1) + 1)); } class Class4 final : public TrailingObjects { friend TrailingObjects; size_t numTrailingObjects(OverloadToken) const { return 1; } }; TEST(TrailingObjects, Realignment) { EXPECT_EQ((Class4::additionalSizeToAlloc(1, 1)), llvm::RoundUpToAlignment(sizeof(long) + 1, llvm::alignOf())); EXPECT_EQ(sizeof(Class4), llvm::RoundUpToAlignment(1, llvm::alignOf())); std::unique_ptr P(new char[1000]); Class4 *C = reinterpret_cast(P.get()); EXPECT_EQ(C->getTrailingObjects(), reinterpret_cast(C + 1)); EXPECT_EQ(C->getTrailingObjects(), reinterpret_cast(llvm::alignAddr( reinterpret_cast(C + 1) + 1, llvm::alignOf()))); } }