//===- llvm/unittest/ADT/PointerUnionTest.cpp - Optional unit tests -------===// // // 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/ADT/PointerUnion.h" #include "gtest/gtest.h" using namespace llvm; namespace { typedef PointerUnion PU; typedef PointerUnion PU3; typedef PointerUnion PU4; struct PointerUnionTest : public testing::Test { float f; int i; double d; long long l; PU a, b, c, n; PU3 i3, f3, l3; PU4 i4, f4, l4, d4; PU4 i4null, f4null, l4null, d4null; PointerUnionTest() : f(3.14f), i(42), d(3.14), l(42), a(&f), b(&i), c(&i), n(), i3(&i), f3(&f), l3(&l), i4(&i), f4(&f), l4(&l), d4(&d), i4null((int *)nullptr), f4null((float *)nullptr), l4null((long long *)nullptr), d4null((double *)nullptr) {} }; TEST_F(PointerUnionTest, Comparison) { EXPECT_TRUE(a == a); EXPECT_FALSE(a != a); EXPECT_TRUE(a != b); EXPECT_FALSE(a == b); EXPECT_TRUE(b == c); EXPECT_FALSE(b != c); EXPECT_TRUE(b != n); EXPECT_FALSE(b == n); EXPECT_TRUE(i3 == i3); EXPECT_FALSE(i3 != i3); EXPECT_TRUE(i3 != f3); EXPECT_TRUE(f3 != l3); EXPECT_TRUE(i4 == i4); EXPECT_FALSE(i4 != i4); EXPECT_TRUE(i4 != f4); EXPECT_TRUE(i4 != l4); EXPECT_TRUE(f4 != l4); EXPECT_TRUE(l4 != d4); EXPECT_TRUE(i4null != f4null); EXPECT_TRUE(i4null != l4null); EXPECT_TRUE(i4null != d4null); } TEST_F(PointerUnionTest, Null) { EXPECT_FALSE(a.isNull()); EXPECT_FALSE(b.isNull()); EXPECT_TRUE(n.isNull()); EXPECT_FALSE(!a); EXPECT_FALSE(!b); EXPECT_TRUE(!n); // workaround an issue with EXPECT macros and explicit bool EXPECT_TRUE((bool)a); EXPECT_TRUE((bool)b); EXPECT_FALSE(n); EXPECT_NE(n, b); EXPECT_EQ(b, c); b = nullptr; EXPECT_EQ(n, b); EXPECT_NE(b, c); EXPECT_FALSE(i3.isNull()); EXPECT_FALSE(f3.isNull()); EXPECT_FALSE(l3.isNull()); EXPECT_FALSE(i4.isNull()); EXPECT_FALSE(f4.isNull()); EXPECT_FALSE(l4.isNull()); EXPECT_FALSE(d4.isNull()); EXPECT_TRUE(i4null.isNull()); EXPECT_TRUE(f4null.isNull()); EXPECT_TRUE(l4null.isNull()); EXPECT_TRUE(d4null.isNull()); } TEST_F(PointerUnionTest, Is) { EXPECT_FALSE(a.is()); EXPECT_TRUE(a.is()); EXPECT_TRUE(b.is()); EXPECT_FALSE(b.is()); EXPECT_TRUE(n.is()); EXPECT_FALSE(n.is()); EXPECT_TRUE(i3.is()); EXPECT_TRUE(f3.is()); EXPECT_TRUE(l3.is()); EXPECT_TRUE(i4.is()); EXPECT_TRUE(f4.is()); EXPECT_TRUE(l4.is()); EXPECT_TRUE(d4.is()); EXPECT_TRUE(i4null.is()); EXPECT_TRUE(f4null.is()); EXPECT_TRUE(l4null.is()); EXPECT_TRUE(d4null.is()); } TEST_F(PointerUnionTest, Get) { EXPECT_EQ(a.get(), &f); EXPECT_EQ(b.get(), &i); EXPECT_EQ(n.get(), (int *)nullptr); } template struct alignas(8) Aligned {}; typedef PointerUnion *, Aligned<1> *, Aligned<2> *, Aligned<3> *, Aligned<4> *, Aligned<5> *, Aligned<6> *, Aligned<7> *> PU8; TEST_F(PointerUnionTest, ManyElements) { Aligned<0> a0; Aligned<7> a7; PU8 a = &a0; EXPECT_TRUE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_EQ(a.dyn_cast*>(), &a0); EXPECT_EQ(*a.getAddrOfPtr1(), &a0); a = &a7; EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_FALSE(a.is*>()); EXPECT_TRUE(a.is*>()); EXPECT_EQ(a.dyn_cast*>(), &a7); EXPECT_TRUE(a == PU8(&a7)); EXPECT_TRUE(a != PU8(&a0)); } TEST_F(PointerUnionTest, GetAddrOfPtr1) { EXPECT_TRUE((void *)b.getAddrOfPtr1() == (void *)&b); EXPECT_TRUE((void *)n.getAddrOfPtr1() == (void *)&n); } } // end anonymous namespace