llvm-project/llvm/unittests/Support/AlignOfTest.cpp

358 lines
15 KiB
C++

//=== - llvm/unittest/Support/AlignOfTest.cpp - Alignment utility tests ---===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifdef _MSC_VER
// Disable warnings about alignment-based structure padding.
// This must be above the includes to suppress warnings in included templates.
#pragma warning(disable:4324)
#endif
#include "llvm/Support/AlignOf.h"
#include "llvm/Support/Compiler.h"
#include "gtest/gtest.h"
using namespace llvm;
namespace {
// Disable warnings about questionable type definitions.
// We're testing that even questionable types work with the alignment utilities.
#ifdef _MSC_VER
#pragma warning(disable:4584)
#endif
// Suppress direct base '{anonymous}::S1' inaccessible in '{anonymous}::D9'
// due to ambiguity warning.
#ifdef __clang__
#pragma clang diagnostic ignored "-Wunknown-pragmas"
#pragma clang diagnostic ignored "-Winaccessible-base"
#elif ((__GNUC__ * 100) + __GNUC_MINOR__) >= 402
// Pragma based warning suppression was introduced in GGC 4.2. Additionally
// this warning is "enabled by default". The warning still appears if -Wall is
// suppressed. Apparently GCC suppresses it when -w is specifed, which is odd.
#pragma GCC diagnostic warning "-w"
#endif
// Define some fixed alignment types to use in these tests.
struct LLVM_ALIGNAS(1) A1 {};
struct LLVM_ALIGNAS(2) A2 {};
struct LLVM_ALIGNAS(4) A4 {};
struct LLVM_ALIGNAS(8) A8 {};
struct S1 {};
struct S2 { char a; };
struct S3 { int x; };
struct S4 { double y; };
struct S5 { A1 a1; A2 a2; A4 a4; A8 a8; };
struct S6 { double f(); };
struct D1 : S1 {};
struct D2 : S6 { float g(); };
struct D3 : S2 {};
struct D4 : S2 { int x; };
struct D5 : S3 { char c; };
struct D6 : S2, S3 {};
struct D7 : S1, S3 {};
struct D8 : S1, D4, D5 { double x[2]; };
struct D9 : S1, D1 { S1 s1; };
struct V1 { virtual ~V1(); };
struct V2 { int x; virtual ~V2(); };
struct V3 : V1 {
~V3() override;
};
struct V4 : virtual V2 { int y;
~V4() override;
};
struct V5 : V4, V3 { double z;
~V5() override;
};
struct V6 : S1 { virtual ~V6(); };
struct V7 : virtual V2, virtual V6 {
~V7() override;
};
struct V8 : V5, virtual V6, V7 { double zz;
~V8() override;
};
double S6::f() { return 0.0; }
float D2::g() { return 0.0f; }
V1::~V1() {}
V2::~V2() {}
V3::~V3() {}
V4::~V4() {}
V5::~V5() {}
V6::~V6() {}
V7::~V7() {}
V8::~V8() {}
struct Abstract1 {
virtual ~Abstract1() = default;
virtual void method() = 0;
char c;
};
struct Abstract2 : Abstract1 {
~Abstract2() override = default;
double d;
};
struct Final final : Abstract2 {
void method() override {}
};
// Ensure alignment is a compile-time constant.
char LLVM_ATTRIBUTE_UNUSED test_arr1
[AlignOf<char>::Alignment > 0]
[AlignOf<short>::Alignment > 0]
[AlignOf<int>::Alignment > 0]
[AlignOf<long>::Alignment > 0]
[AlignOf<long long>::Alignment > 0]
[AlignOf<float>::Alignment > 0]
[AlignOf<double>::Alignment > 0]
[AlignOf<long double>::Alignment > 0]
[AlignOf<void *>::Alignment > 0]
[AlignOf<int *>::Alignment > 0]
[AlignOf<double (*)(double)>::Alignment > 0]
[AlignOf<double (S6::*)()>::Alignment > 0];
char LLVM_ATTRIBUTE_UNUSED test_arr2
[AlignOf<A1>::Alignment > 0]
[AlignOf<A2>::Alignment > 0]
[AlignOf<A4>::Alignment > 0]
[AlignOf<A8>::Alignment > 0];
char LLVM_ATTRIBUTE_UNUSED test_arr3
[AlignOf<S1>::Alignment > 0]
[AlignOf<S2>::Alignment > 0]
[AlignOf<S3>::Alignment > 0]
[AlignOf<S4>::Alignment > 0]
[AlignOf<S5>::Alignment > 0]
[AlignOf<S6>::Alignment > 0];
char LLVM_ATTRIBUTE_UNUSED test_arr4
[AlignOf<D1>::Alignment > 0]
[AlignOf<D2>::Alignment > 0]
[AlignOf<D3>::Alignment > 0]
[AlignOf<D4>::Alignment > 0]
[AlignOf<D5>::Alignment > 0]
[AlignOf<D6>::Alignment > 0]
[AlignOf<D7>::Alignment > 0]
[AlignOf<D8>::Alignment > 0]
[AlignOf<D9>::Alignment > 0];
char LLVM_ATTRIBUTE_UNUSED test_arr5
[AlignOf<V1>::Alignment > 0]
[AlignOf<V2>::Alignment > 0]
[AlignOf<V3>::Alignment > 0]
[AlignOf<V4>::Alignment > 0]
[AlignOf<V5>::Alignment > 0]
[AlignOf<V6>::Alignment > 0]
[AlignOf<V7>::Alignment > 0]
[AlignOf<V8>::Alignment > 0];
TEST(AlignOfTest, BasicAlignmentInvariants) {
EXPECT_LE(1u, alignOf<A1>());
EXPECT_LE(2u, alignOf<A2>());
EXPECT_LE(4u, alignOf<A4>());
EXPECT_LE(8u, alignOf<A8>());
EXPECT_EQ(1u, alignOf<char>());
EXPECT_LE(alignOf<char>(), alignOf<short>());
EXPECT_LE(alignOf<short>(), alignOf<int>());
EXPECT_LE(alignOf<int>(), alignOf<long>());
EXPECT_LE(alignOf<long>(), alignOf<long long>());
EXPECT_LE(alignOf<char>(), alignOf<float>());
EXPECT_LE(alignOf<float>(), alignOf<double>());
EXPECT_LE(alignOf<char>(), alignOf<long double>());
EXPECT_LE(alignOf<char>(), alignOf<void *>());
EXPECT_EQ(alignOf<void *>(), alignOf<int *>());
EXPECT_LE(alignOf<char>(), alignOf<S1>());
EXPECT_LE(alignOf<S1>(), alignOf<S2>());
EXPECT_LE(alignOf<S1>(), alignOf<S3>());
EXPECT_LE(alignOf<S1>(), alignOf<S4>());
EXPECT_LE(alignOf<S1>(), alignOf<S5>());
EXPECT_LE(alignOf<S1>(), alignOf<S6>());
EXPECT_LE(alignOf<S1>(), alignOf<D1>());
EXPECT_LE(alignOf<S1>(), alignOf<D2>());
EXPECT_LE(alignOf<S1>(), alignOf<D3>());
EXPECT_LE(alignOf<S1>(), alignOf<D4>());
EXPECT_LE(alignOf<S1>(), alignOf<D5>());
EXPECT_LE(alignOf<S1>(), alignOf<D6>());
EXPECT_LE(alignOf<S1>(), alignOf<D7>());
EXPECT_LE(alignOf<S1>(), alignOf<D8>());
EXPECT_LE(alignOf<S1>(), alignOf<D9>());
EXPECT_LE(alignOf<S1>(), alignOf<V1>());
EXPECT_LE(alignOf<V1>(), alignOf<V2>());
EXPECT_LE(alignOf<V1>(), alignOf<V3>());
EXPECT_LE(alignOf<V1>(), alignOf<V4>());
EXPECT_LE(alignOf<V1>(), alignOf<V5>());
EXPECT_LE(alignOf<V1>(), alignOf<V6>());
EXPECT_LE(alignOf<V1>(), alignOf<V7>());
EXPECT_LE(alignOf<V1>(), alignOf<V8>());
EXPECT_LE(alignOf<char>(), alignOf<Abstract1>());
EXPECT_LE(alignOf<double>(), alignOf<Abstract2>());
EXPECT_LE(alignOf<Abstract2>(), alignOf<Final>());
}
TEST(AlignOfTest, BasicAlignedArray) {
EXPECT_LE(1u, alignOf<AlignedCharArrayUnion<A1> >());
EXPECT_LE(2u, alignOf<AlignedCharArrayUnion<A2> >());
EXPECT_LE(4u, alignOf<AlignedCharArrayUnion<A4> >());
EXPECT_LE(8u, alignOf<AlignedCharArrayUnion<A8> >());
EXPECT_LE(1u, sizeof(AlignedCharArrayUnion<A1>));
EXPECT_LE(2u, sizeof(AlignedCharArrayUnion<A2>));
EXPECT_LE(4u, sizeof(AlignedCharArrayUnion<A4>));
EXPECT_LE(8u, sizeof(AlignedCharArrayUnion<A8>));
EXPECT_EQ(1u, (alignOf<AlignedCharArrayUnion<A1> >()));
EXPECT_EQ(2u, (alignOf<AlignedCharArrayUnion<A1, A2> >()));
EXPECT_EQ(4u, (alignOf<AlignedCharArrayUnion<A1, A2, A4> >()));
EXPECT_EQ(8u, (alignOf<AlignedCharArrayUnion<A1, A2, A4, A8> >()));
EXPECT_EQ(1u, sizeof(AlignedCharArrayUnion<A1>));
EXPECT_EQ(2u, sizeof(AlignedCharArrayUnion<A1, A2>));
EXPECT_EQ(4u, sizeof(AlignedCharArrayUnion<A1, A2, A4>));
EXPECT_EQ(8u, sizeof(AlignedCharArrayUnion<A1, A2, A4, A8>));
EXPECT_EQ(1u, (alignOf<AlignedCharArrayUnion<A1[1]> >()));
EXPECT_EQ(2u, (alignOf<AlignedCharArrayUnion<A1[2], A2[1]> >()));
EXPECT_EQ(4u, (alignOf<AlignedCharArrayUnion<A1[42], A2[55],
A4[13]> >()));
EXPECT_EQ(8u, (alignOf<AlignedCharArrayUnion<A1[2], A2[1],
A4, A8> >()));
EXPECT_EQ(1u, sizeof(AlignedCharArrayUnion<A1[1]>));
EXPECT_EQ(2u, sizeof(AlignedCharArrayUnion<A1[2], A2[1]>));
EXPECT_EQ(4u, sizeof(AlignedCharArrayUnion<A1[3], A2[2], A4>));
EXPECT_EQ(16u, sizeof(AlignedCharArrayUnion<A1, A2[3],
A4[3], A8>));
// For other tests we simply assert that the alignment of the union mathes
// that of the fundamental type and hope that we have any weird type
// productions that would trigger bugs.
EXPECT_EQ(alignOf<char>(), alignOf<AlignedCharArrayUnion<char> >());
EXPECT_EQ(alignOf<short>(), alignOf<AlignedCharArrayUnion<short> >());
EXPECT_EQ(alignOf<int>(), alignOf<AlignedCharArrayUnion<int> >());
EXPECT_EQ(alignOf<long>(), alignOf<AlignedCharArrayUnion<long> >());
EXPECT_EQ(alignOf<long long>(),
alignOf<AlignedCharArrayUnion<long long> >());
EXPECT_EQ(alignOf<float>(), alignOf<AlignedCharArrayUnion<float> >());
EXPECT_EQ(alignOf<double>(), alignOf<AlignedCharArrayUnion<double> >());
EXPECT_EQ(alignOf<long double>(),
alignOf<AlignedCharArrayUnion<long double> >());
EXPECT_EQ(alignOf<void *>(), alignOf<AlignedCharArrayUnion<void *> >());
EXPECT_EQ(alignOf<int *>(), alignOf<AlignedCharArrayUnion<int *> >());
EXPECT_EQ(alignOf<double (*)(double)>(),
alignOf<AlignedCharArrayUnion<double (*)(double)> >());
EXPECT_EQ(alignOf<double (S6::*)()>(),
alignOf<AlignedCharArrayUnion<double (S6::*)()> >());
EXPECT_EQ(alignOf<S1>(), alignOf<AlignedCharArrayUnion<S1> >());
EXPECT_EQ(alignOf<S2>(), alignOf<AlignedCharArrayUnion<S2> >());
EXPECT_EQ(alignOf<S3>(), alignOf<AlignedCharArrayUnion<S3> >());
EXPECT_EQ(alignOf<S4>(), alignOf<AlignedCharArrayUnion<S4> >());
EXPECT_EQ(alignOf<S5>(), alignOf<AlignedCharArrayUnion<S5> >());
EXPECT_EQ(alignOf<S6>(), alignOf<AlignedCharArrayUnion<S6> >());
EXPECT_EQ(alignOf<D1>(), alignOf<AlignedCharArrayUnion<D1> >());
EXPECT_EQ(alignOf<D2>(), alignOf<AlignedCharArrayUnion<D2> >());
EXPECT_EQ(alignOf<D3>(), alignOf<AlignedCharArrayUnion<D3> >());
EXPECT_EQ(alignOf<D4>(), alignOf<AlignedCharArrayUnion<D4> >());
EXPECT_EQ(alignOf<D5>(), alignOf<AlignedCharArrayUnion<D5> >());
EXPECT_EQ(alignOf<D6>(), alignOf<AlignedCharArrayUnion<D6> >());
EXPECT_EQ(alignOf<D7>(), alignOf<AlignedCharArrayUnion<D7> >());
EXPECT_EQ(alignOf<D8>(), alignOf<AlignedCharArrayUnion<D8> >());
EXPECT_EQ(alignOf<D9>(), alignOf<AlignedCharArrayUnion<D9> >());
EXPECT_EQ(alignOf<V1>(), alignOf<AlignedCharArrayUnion<V1> >());
EXPECT_EQ(alignOf<V2>(), alignOf<AlignedCharArrayUnion<V2> >());
EXPECT_EQ(alignOf<V3>(), alignOf<AlignedCharArrayUnion<V3> >());
EXPECT_EQ(alignOf<V4>(), alignOf<AlignedCharArrayUnion<V4> >());
EXPECT_EQ(alignOf<V5>(), alignOf<AlignedCharArrayUnion<V5> >());
EXPECT_EQ(alignOf<V6>(), alignOf<AlignedCharArrayUnion<V6> >());
EXPECT_EQ(alignOf<V7>(), alignOf<AlignedCharArrayUnion<V7> >());
// Some versions of MSVC get this wrong somewhat disturbingly. The failure
// appears to be benign: alignOf<V8>() produces a preposterous value: 12
#ifndef _MSC_VER
EXPECT_EQ(alignOf<V8>(), alignOf<AlignedCharArrayUnion<V8> >());
#endif
EXPECT_EQ(sizeof(char), sizeof(AlignedCharArrayUnion<char>));
EXPECT_EQ(sizeof(char[1]), sizeof(AlignedCharArrayUnion<char[1]>));
EXPECT_EQ(sizeof(char[2]), sizeof(AlignedCharArrayUnion<char[2]>));
EXPECT_EQ(sizeof(char[3]), sizeof(AlignedCharArrayUnion<char[3]>));
EXPECT_EQ(sizeof(char[4]), sizeof(AlignedCharArrayUnion<char[4]>));
EXPECT_EQ(sizeof(char[5]), sizeof(AlignedCharArrayUnion<char[5]>));
EXPECT_EQ(sizeof(char[8]), sizeof(AlignedCharArrayUnion<char[8]>));
EXPECT_EQ(sizeof(char[13]), sizeof(AlignedCharArrayUnion<char[13]>));
EXPECT_EQ(sizeof(char[16]), sizeof(AlignedCharArrayUnion<char[16]>));
EXPECT_EQ(sizeof(char[21]), sizeof(AlignedCharArrayUnion<char[21]>));
EXPECT_EQ(sizeof(char[32]), sizeof(AlignedCharArrayUnion<char[32]>));
EXPECT_EQ(sizeof(short), sizeof(AlignedCharArrayUnion<short>));
EXPECT_EQ(sizeof(int), sizeof(AlignedCharArrayUnion<int>));
EXPECT_EQ(sizeof(long), sizeof(AlignedCharArrayUnion<long>));
EXPECT_EQ(sizeof(long long),
sizeof(AlignedCharArrayUnion<long long>));
EXPECT_EQ(sizeof(float), sizeof(AlignedCharArrayUnion<float>));
EXPECT_EQ(sizeof(double), sizeof(AlignedCharArrayUnion<double>));
EXPECT_EQ(sizeof(long double),
sizeof(AlignedCharArrayUnion<long double>));
EXPECT_EQ(sizeof(void *), sizeof(AlignedCharArrayUnion<void *>));
EXPECT_EQ(sizeof(int *), sizeof(AlignedCharArrayUnion<int *>));
EXPECT_EQ(sizeof(double (*)(double)),
sizeof(AlignedCharArrayUnion<double (*)(double)>));
EXPECT_EQ(sizeof(double (S6::*)()),
sizeof(AlignedCharArrayUnion<double (S6::*)()>));
EXPECT_EQ(sizeof(S1), sizeof(AlignedCharArrayUnion<S1>));
EXPECT_EQ(sizeof(S2), sizeof(AlignedCharArrayUnion<S2>));
EXPECT_EQ(sizeof(S3), sizeof(AlignedCharArrayUnion<S3>));
EXPECT_EQ(sizeof(S4), sizeof(AlignedCharArrayUnion<S4>));
EXPECT_EQ(sizeof(S5), sizeof(AlignedCharArrayUnion<S5>));
EXPECT_EQ(sizeof(S6), sizeof(AlignedCharArrayUnion<S6>));
EXPECT_EQ(sizeof(D1), sizeof(AlignedCharArrayUnion<D1>));
EXPECT_EQ(sizeof(D2), sizeof(AlignedCharArrayUnion<D2>));
EXPECT_EQ(sizeof(D3), sizeof(AlignedCharArrayUnion<D3>));
EXPECT_EQ(sizeof(D4), sizeof(AlignedCharArrayUnion<D4>));
EXPECT_EQ(sizeof(D5), sizeof(AlignedCharArrayUnion<D5>));
EXPECT_EQ(sizeof(D6), sizeof(AlignedCharArrayUnion<D6>));
EXPECT_EQ(sizeof(D7), sizeof(AlignedCharArrayUnion<D7>));
EXPECT_EQ(sizeof(D8), sizeof(AlignedCharArrayUnion<D8>));
EXPECT_EQ(sizeof(D9), sizeof(AlignedCharArrayUnion<D9>));
EXPECT_EQ(sizeof(D9[1]), sizeof(AlignedCharArrayUnion<D9[1]>));
EXPECT_EQ(sizeof(D9[2]), sizeof(AlignedCharArrayUnion<D9[2]>));
EXPECT_EQ(sizeof(D9[3]), sizeof(AlignedCharArrayUnion<D9[3]>));
EXPECT_EQ(sizeof(D9[4]), sizeof(AlignedCharArrayUnion<D9[4]>));
EXPECT_EQ(sizeof(D9[5]), sizeof(AlignedCharArrayUnion<D9[5]>));
EXPECT_EQ(sizeof(D9[8]), sizeof(AlignedCharArrayUnion<D9[8]>));
EXPECT_EQ(sizeof(D9[13]), sizeof(AlignedCharArrayUnion<D9[13]>));
EXPECT_EQ(sizeof(D9[16]), sizeof(AlignedCharArrayUnion<D9[16]>));
EXPECT_EQ(sizeof(D9[21]), sizeof(AlignedCharArrayUnion<D9[21]>));
EXPECT_EQ(sizeof(D9[32]), sizeof(AlignedCharArrayUnion<D9[32]>));
EXPECT_EQ(sizeof(V1), sizeof(AlignedCharArrayUnion<V1>));
EXPECT_EQ(sizeof(V2), sizeof(AlignedCharArrayUnion<V2>));
EXPECT_EQ(sizeof(V3), sizeof(AlignedCharArrayUnion<V3>));
EXPECT_EQ(sizeof(V4), sizeof(AlignedCharArrayUnion<V4>));
EXPECT_EQ(sizeof(V5), sizeof(AlignedCharArrayUnion<V5>));
EXPECT_EQ(sizeof(V6), sizeof(AlignedCharArrayUnion<V6>));
EXPECT_EQ(sizeof(V7), sizeof(AlignedCharArrayUnion<V7>));
// Some versions of MSVC also get this wrong. The failure again appears to be
// benign: sizeof(V8) is only 52 bytes, but our array reserves 56.
#ifndef _MSC_VER
EXPECT_EQ(sizeof(V8), sizeof(AlignedCharArrayUnion<V8>));
#endif
EXPECT_EQ(1u, (alignOf<AlignedCharArray<1, 1> >()));
EXPECT_EQ(2u, (alignOf<AlignedCharArray<2, 1> >()));
EXPECT_EQ(4u, (alignOf<AlignedCharArray<4, 1> >()));
EXPECT_EQ(8u, (alignOf<AlignedCharArray<8, 1> >()));
EXPECT_EQ(16u, (alignOf<AlignedCharArray<16, 1> >()));
EXPECT_EQ(1u, sizeof(AlignedCharArray<1, 1>));
EXPECT_EQ(7u, sizeof(AlignedCharArray<1, 7>));
EXPECT_EQ(2u, sizeof(AlignedCharArray<2, 2>));
EXPECT_EQ(16u, sizeof(AlignedCharArray<2, 16>));
}
} // end anonymous namespace