From 6aaedb813fa11ba0679c3051bc2eb28646b9506c Mon Sep 17 00:00:00 2001 From: 3gg <3gg@shellblade.net> Date: Sat, 30 Aug 2025 16:53:58 -0700 Subject: Update to SDL3 --- .../SDL-3.2.20/test/testautomation_intrinsics.c | 702 +++++++++++++++++++++ 1 file changed, 702 insertions(+) create mode 100644 src/contrib/SDL-3.2.20/test/testautomation_intrinsics.c (limited to 'src/contrib/SDL-3.2.20/test/testautomation_intrinsics.c') diff --git a/src/contrib/SDL-3.2.20/test/testautomation_intrinsics.c b/src/contrib/SDL-3.2.20/test/testautomation_intrinsics.c new file mode 100644 index 0000000..8338d33 --- /dev/null +++ b/src/contrib/SDL-3.2.20/test/testautomation_intrinsics.c @@ -0,0 +1,702 @@ +/** + * Intrinsics test suite + */ + +#ifdef HAVE_BUILD_CONFIG +/* Disable intrinsics that are unsupported by the current compiler */ +#include "SDL_build_config.h" +#endif + +#include +#include +#include +#include "testautomation_suites.h" + +// FIXME: missing tests for loongarch lsx/lasx +// FIXME: missing tests for powerpc altivec + +/* ================= Test Case Implementation ================== */ + +/* Helper functions */ + +static int allocate_random_uint_arrays(Uint32 **dest, Uint32 **a, Uint32 **b, size_t *size) { + size_t i; + + *size = (size_t)SDLTest_RandomIntegerInRange(127, 999); + *dest = SDL_malloc(sizeof(Uint32) * *size); + *a = SDL_malloc(sizeof(Uint32) * *size); + *b = SDL_malloc(sizeof(Uint32) * *size); + + if (!*dest || !*a || !*b) { + SDLTest_AssertCheck(false, "SDL_malloc failed"); + return -1; + } + + for (i = 0; i < *size; ++i) { + (*a)[i] = SDLTest_RandomUint32(); + (*b)[i] = SDLTest_RandomUint32(); + } + return 0; +} + +static int allocate_random_float_arrays(float **dest, float **a, float **b, size_t *size) { + size_t i; + + *size = (size_t)SDLTest_RandomIntegerInRange(127, 999); + *dest = SDL_malloc(sizeof(float) * *size); + *a = SDL_malloc(sizeof(float) * *size); + *b = SDL_malloc(sizeof(float) * *size); + + if (!*dest || !*a || !*b) { + SDLTest_AssertCheck(false, "SDL_malloc failed"); + return -1; + } + + for (i = 0; i < *size; ++i) { + (*a)[i] = SDLTest_RandomUnitFloat(); + (*b)[i] = SDLTest_RandomUnitFloat(); + } + + return 0; +} + +static int allocate_random_double_arrays(double **dest, double **a, double **b, size_t *size) { + size_t i; + + *size = (size_t)SDLTest_RandomIntegerInRange(127, 999); + *dest = SDL_malloc(sizeof(double) * *size); + *a = SDL_malloc(sizeof(double) * *size); + *b = SDL_malloc(sizeof(double) * *size); + + if (!*dest || !*a || !*b) { + SDLTest_AssertCheck(false, "SDL_malloc failed"); + return -1; + } + + for (i = 0; i < *size; ++i) { + (*a)[i] = SDLTest_RandomUnitDouble(); + (*b)[i] = SDLTest_RandomUnitDouble(); + } + + return 0; +} + +static void free_arrays(void *dest, void *a, void *b) { + SDL_free(dest); + SDL_free(a); + SDL_free(b); +} + +/** + * Verify element-wise addition of 2 int arrays. + */ +static void verify_uints_addition(const Uint32 *dest, const Uint32 *a, const Uint32 *b, size_t size, const char *desc) { + size_t i; + int all_good = 1; + + for (i = 0; i < size; ++i) { + Uint32 expected = a[i] + b[i]; + if (dest[i] != expected) { + SDLTest_AssertCheck(false, "%" SDL_PRIs32 " + %" SDL_PRIs32 " = %" SDL_PRIs32 ", expected %" SDL_PRIs32 " ([%" SDL_PRIu32 "/%" SDL_PRIu32 "] %s)", + a[i], b[i], dest[i], expected, (Uint32)i, (Uint32)size, desc); + all_good = 0; + } + } + if (all_good) { + SDLTest_AssertCheck(true, "All int additions were correct (%s)", desc); + } +} + +/** + * Verify element-wise multiplication of 2 uint arrays. + */ +static void verify_uints_multiplication(const Uint32 *dest, const Uint32 *a, const Uint32 *b, size_t size, const char *desc) { + size_t i; + int all_good = 1; + + for (i = 0; i < size; ++i) { + Uint32 expected = a[i] * b[i]; + if (dest[i] != expected) { + SDLTest_AssertCheck(false, "%" SDL_PRIu32 " * %" SDL_PRIu32 " = %" SDL_PRIu32 ", expected %" SDL_PRIu32 " ([%" SDL_PRIu32 "/%" SDL_PRIu32 "] %s)", + a[i], b[i], dest[i], expected, (Uint32)i, (Uint32)size, desc); + all_good = 0; + } + } + if (all_good) { + SDLTest_AssertCheck(true, "All int multiplication were correct (%s)", desc); + } +} + +/** + * Verify element-wise addition of 2 float arrays. + */ +static void verify_floats_addition(const float *dest, const float *a, const float *b, size_t size, const char *desc) { + size_t i; + int all_good = 1; + + for (i = 0; i < size; ++i) { + float expected = a[i] + b[i]; + float abs_error = SDL_fabsf(dest[i] - expected); + if (abs_error > 1.0e-5f) { + SDLTest_AssertCheck(false, "%g + %g = %g, expected %g (error = %g) ([%" SDL_PRIu32 "/%" SDL_PRIu32 "] %s)", + a[i], b[i], dest[i], expected, abs_error, (Uint32) i, (Uint32) size, desc); + all_good = 0; + } + } + if (all_good) { + SDLTest_AssertCheck(true, "All float additions were correct (%s)", desc); + } +} + +/** + * Verify element-wise addition of 2 double arrays. + */ +static void verify_doubles_addition(const double *dest, const double *a, const double *b, size_t size, const char *desc) { + size_t i; + int all_good = 1; + + for (i = 0; i < size; ++i) { + double expected = a[i] + b[i]; + double abs_error = SDL_fabs(dest[i] - expected); + if (abs_error > 1.0e-5) { + SDLTest_AssertCheck(abs_error < 1.0e-5f, "%g + %g = %g, expected %g (error = %g) ([%" SDL_PRIu32 "/%" SDL_PRIu32 "] %s)", + a[i], b[i], dest[i], expected, abs_error, (Uint32) i, (Uint32) size, desc); + all_good = false; + } + } + if (all_good) { + SDLTest_AssertCheck(true, "All double additions were correct (%s)", desc); + } +} + +/* Intrinsic kernels */ + +static void kernel_uints_add_cpu(Uint32 *dest, const Uint32 *a, const Uint32 *b, size_t size) { + for (; size; --size, ++dest, ++a, ++b) { + *dest = *a + *b; + } +} + +static void kernel_uints_mul_cpu(Uint32 *dest, const Uint32 *a, const Uint32 *b, size_t size) { + for (; size; --size, ++dest, ++a, ++b) { + *dest = *a * *b; + } +} + +static void kernel_floats_add_cpu(float *dest, const float *a, const float *b, size_t size) { + for (; size; --size, ++dest, ++a, ++b) { + *dest = *a + *b; + } +} + +static void kernel_doubles_add_cpu(double *dest, const double *a, const double *b, size_t size) { + for (; size; --size, ++dest, ++a, ++b) { + *dest = *a + *b; + } +} + +#ifdef SDL_MMX_INTRINSICS +SDL_TARGETING("mmx") static void kernel_uints_add_mmx(Uint32 *dest, const Uint32 *a, const Uint32 *b, size_t size) { + for (; size >= 2; size -= 2, dest += 2, a += 2, b += 2) { + *(__m64*)dest = _mm_add_pi32(*(__m64*)a, *(__m64*)b); + } + if (size) { + *dest = *a + *b; + } + _mm_empty(); +} +#endif + +#ifdef SDL_SSE_INTRINSICS +SDL_TARGETING("sse") static void kernel_floats_add_sse(float *dest, const float *a, const float *b, size_t size) { + for (; size >= 4; size -= 4, dest += 4, a += 4, b += 4) { + _mm_storeu_ps(dest, _mm_add_ps(_mm_loadu_ps(a), _mm_loadu_ps (b))); + } + for (; size; size--, ++dest, ++a, ++b) { + *dest = *a + *b; + } +} +#endif + +#ifdef SDL_SSE2_INTRINSICS +SDL_TARGETING("sse2") static void kernel_doubles_add_sse2(double *dest, const double *a, const double *b, size_t size) { + for (; size >= 2; size -= 2, dest += 2, a += 2, b += 2) { + _mm_storeu_pd(dest, _mm_add_pd(_mm_loadu_pd(a), _mm_loadu_pd(b))); + } + if (size) { + *dest = *a + *b; + } +} +#endif + +#ifdef SDL_SSE3_INTRINSICS +SDL_TARGETING("sse3") static void kernel_uints_add_sse3(Uint32 *dest, const Uint32 *a, const Uint32 *b, size_t size) { + for (; size >= 4; size -= 4, dest += 4, a += 4, b += 4) { + _mm_storeu_si128((__m128i*)dest, _mm_add_epi32(_mm_lddqu_si128((__m128i*)a), _mm_lddqu_si128((__m128i*)b))); + } + for (;size; --size, ++dest, ++a, ++b) { + *dest = *a + *b; + } +} +#endif + +#ifdef SDL_SSE4_1_INTRINSICS +SDL_TARGETING("sse4.1") static void kernel_uints_mul_sse4_1(Uint32 *dest, const Uint32 *a, const Uint32 *b, size_t size) { + for (; size >= 4; size -= 4, dest += 4, a += 4, b += 4) { + _mm_storeu_si128((__m128i*)dest, _mm_mullo_epi32(_mm_lddqu_si128((__m128i*)a), _mm_lddqu_si128((__m128i*)b))); + } + for (;size; --size, ++dest, ++a, ++b) { + *dest = *a * *b; + } +} +#endif + +#ifdef SDL_SSE4_2_INTRINSICS +SDL_TARGETING("sse4.2") static Uint32 calculate_crc32c_sse4_2(const char *text) { + Uint32 crc32c = ~0u; + size_t len = SDL_strlen(text); + +#if defined(__x86_64__) || defined(_M_X64) + for (; len >= 8; len -= 8, text += 8) { + crc32c = (Uint32)_mm_crc32_u64(crc32c, *(Sint64*)text); + } + if (len >= 4) { + crc32c = (Uint32)_mm_crc32_u32(crc32c, *(Sint32*)text); + len -= 4; + text += 4; + } +#else + for (; len >= 4; len -= 4, text += 4) { + crc32c = (Uint32)_mm_crc32_u32(crc32c, *(Sint32*)text); + } +#endif + if (len >= 2) { + crc32c = (Uint32)_mm_crc32_u16(crc32c, *(Sint16*)text); + len -= 2; + text += 2; + } + if (len) { + crc32c = (Uint32)_mm_crc32_u8(crc32c, *text); + } + return ~crc32c; +} +#endif + +#ifdef SDL_AVX_INTRINSICS +SDL_TARGETING("avx") static void kernel_floats_add_avx(float *dest, const float *a, const float *b, size_t size) { + for (; size >= 8; size -= 8, dest += 8, a += 8, b += 8) { + _mm256_storeu_ps(dest, _mm256_add_ps(_mm256_loadu_ps(a), _mm256_loadu_ps(b))); + } + for (; size; size--, ++dest, ++a, ++b) { + *dest = *a + *b; + } +} +#endif + +#ifdef SDL_AVX2_INTRINSICS +SDL_TARGETING("avx2") static void kernel_uints_add_avx2(Uint32 *dest, const Uint32 *a, const Uint32 *b, size_t size) { + for (; size >= 8; size -= 8, dest += 8, a += 8, b += 8) { + _mm256_storeu_si256((__m256i*)dest, _mm256_add_epi32(_mm256_loadu_si256((__m256i*)a), _mm256_loadu_si256((__m256i*)b))); + } + for (; size; size--, ++dest, ++a, ++b) { + *dest = *a + *b; + } +} +#endif + +#ifdef SDL_AVX512F_INTRINSICS +SDL_TARGETING("avx512f") static void kernel_floats_add_avx512f(float *dest, const float *a, const float *b, size_t size) { + for (; size >= 16; size -= 16, dest += 16, a += 16, b += 16) { + _mm512_storeu_ps(dest, _mm512_add_ps(_mm512_loadu_ps(a), _mm512_loadu_ps(b))); + } + for (; size; --size) { + *dest++ = *a++ + *b++; + } +} +#endif + +/* Test case functions */ + +static int SDLCALL intrinsics_selftest(void *arg) +{ + { + size_t size; + Uint32 *dest, *a, *b; + if (allocate_random_uint_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_uints_mul_cpu(dest, a, b, size); + verify_uints_multiplication(dest, a, b, size, "CPU"); + free_arrays(dest, a, b); + } + { + size_t size; + Uint32 *dest, *a, *b; + if (allocate_random_uint_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_uints_add_cpu(dest, a, b, size); + verify_uints_addition(dest, a, b, size, "CPU"); + free_arrays(dest, a, b); + } + { + size_t size; + float *dest, *a, *b; + if (allocate_random_float_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_floats_add_cpu(dest, a, b, size); + verify_floats_addition(dest, a, b, size, "CPU"); + free_arrays(dest, a, b); + } + { + size_t size; + double *dest, *a, *b; + if (allocate_random_double_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_doubles_add_cpu(dest, a, b, size); + verify_doubles_addition(dest, a, b, size, "CPU"); + free_arrays(dest, a, b); + } + return TEST_COMPLETED; +} + +static int SDLCALL intrinsics_testMMX(void *arg) +{ + if (SDL_HasMMX()) { + SDLTest_AssertCheck(true, "CPU of test machine has MMX support."); +#ifdef SDL_MMX_INTRINSICS + { + size_t size; + Uint32 *dest, *a, *b; + + SDLTest_AssertCheck(true, "Test executable uses MMX intrinsics."); + if (allocate_random_uint_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_uints_add_mmx(dest, a, b, size); + verify_uints_addition(dest, a, b, size, "MMX"); + free_arrays(dest, a, b); + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use MMX intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO MMX support."); + } + return TEST_SKIPPED; +} + +static int SDLCALL intrinsics_testSSE(void *arg) +{ + if (SDL_HasSSE()) { + SDLTest_AssertCheck(true, "CPU of test machine has SSE support."); +#ifdef SDL_SSE_INTRINSICS + { + size_t size; + float *dest, *a, *b; + + SDLTest_AssertCheck(true, "Test executable uses SSE intrinsics."); + if (allocate_random_float_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_floats_add_sse(dest, a, b, size); + verify_floats_addition(dest, a, b, size, "SSE"); + free_arrays(dest, a, b); + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use SSE intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO SSE support."); + } + return TEST_SKIPPED; +} + +static int SDLCALL intrinsics_testSSE2(void *arg) +{ + if (SDL_HasSSE2()) { + SDLTest_AssertCheck(true, "CPU of test machine has SSE2 support."); +#ifdef SDL_SSE2_INTRINSICS + { + size_t size; + double *dest, *a, *b; + + SDLTest_AssertCheck(true, "Test executable uses SSE2 intrinsics."); + if (allocate_random_double_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_doubles_add_sse2(dest, a, b, size); + verify_doubles_addition(dest, a, b, size, "SSE2"); + free_arrays(dest, a, b); + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use SSE2 intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO SSE2 support."); + } + return TEST_SKIPPED; +} + +static int SDLCALL intrinsics_testSSE3(void *arg) +{ + if (SDL_HasSSE3()) { + SDLTest_AssertCheck(true, "CPU of test machine has SSE3 support."); +#ifdef SDL_SSE3_INTRINSICS + { + size_t size; + Uint32 *dest, *a, *b; + + SDLTest_AssertCheck(true, "Test executable uses SSE3 intrinsics."); + if (allocate_random_uint_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_uints_add_sse3(dest, a, b, size); + verify_uints_addition(dest, a, b, size, "SSE3"); + free_arrays(dest, a, b); + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use SSE3 intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO SSE3 support."); + } + return TEST_SKIPPED; +} + +static int SDLCALL intrinsics_testSSE4_1(void *arg) +{ + if (SDL_HasSSE41()) { + SDLTest_AssertCheck(true, "CPU of test machine has SSE4.1 support."); +#ifdef SDL_SSE4_1_INTRINSICS + { + size_t size; + Uint32 *dest, *a, *b; + + SDLTest_AssertCheck(true, "Test executable uses SSE4.1 intrinsics."); + if (allocate_random_uint_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_uints_mul_sse4_1(dest, a, b, size); + verify_uints_multiplication(dest, a, b, size, "SSE4.1"); + free_arrays(dest, a, b); + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use SSE4.1 intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO SSE4.1 support."); + } + return TEST_SKIPPED; +} + +static int SDLCALL intrinsics_testSSE4_2(void *arg) +{ + if (SDL_HasSSE42()) { + SDLTest_AssertCheck(true, "CPU of test machine has SSE4.2 support."); +#ifdef SDL_SSE4_2_INTRINSICS + { + struct { + const char *input; + Uint32 crc32c; + } references[] = { + {"", 0x00000000}, + {"Hello world", 0x72b51f78}, + {"Simple DirectMedia Layer", 0x56f85341, }, + }; + size_t i; + + SDLTest_AssertCheck(true, "Test executable uses SSE4.2 intrinsics."); + + for (i = 0; i < SDL_arraysize(references); ++i) { + Uint32 actual = calculate_crc32c_sse4_2(references[i].input); + SDLTest_AssertCheck(actual == references[i].crc32c, "CRC32-C(\"%s\")=0x%08x, got 0x%08x", + references[i].input, references[i].crc32c, actual); + } + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use SSE4.2 intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO SSE4.2 support."); + } + return TEST_SKIPPED; +} + +static int SDLCALL intrinsics_testAVX(void *arg) +{ + if (SDL_HasAVX()) { + SDLTest_AssertCheck(true, "CPU of test machine has AVX support."); +#ifdef SDL_AVX_INTRINSICS + { + size_t size; + float *dest, *a, *b; + + SDLTest_AssertCheck(true, "Test executable uses AVX intrinsics."); + if (allocate_random_float_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_floats_add_avx(dest, a, b, size); + verify_floats_addition(dest, a, b, size, "AVX"); + free_arrays(dest, a, b); + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use AVX intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO AVX support."); + } + return TEST_SKIPPED; +} + +static int SDLCALL intrinsics_testAVX2(void *arg) +{ + if (SDL_HasAVX2()) { + SDLTest_AssertCheck(true, "CPU of test machine has AVX2 support."); +#ifdef SDL_AVX2_INTRINSICS + { + size_t size; + Uint32 *dest, *a, *b; + + SDLTest_AssertCheck(true, "Test executable uses AVX2 intrinsics."); + if (allocate_random_uint_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_uints_add_avx2(dest, a, b, size); + verify_uints_addition(dest, a, b, size, "AVX2"); + free_arrays(dest, a, b); + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use AVX2 intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO AVX2 support."); + } + return TEST_SKIPPED; +} + +static int SDLCALL intrinsics_testAVX512F(void *arg) +{ + if (SDL_HasAVX512F()) { + SDLTest_AssertCheck(true, "CPU of test machine has AVX512F support."); +#ifdef SDL_AVX512F_INTRINSICS + { + size_t size; + float *dest, *a, *b; + + SDLTest_AssertCheck(true, "Test executable uses AVX512F intrinsics."); + if (allocate_random_float_arrays(&dest, &a, &b, &size) < 0) { + free_arrays(dest, a, b); + return TEST_ABORTED; + } + kernel_floats_add_avx512f(dest, a, b, size); + verify_floats_addition(dest, a, b, size, "AVX512F"); + free_arrays(dest, a, b); + + return TEST_COMPLETED; + } +#else + SDLTest_AssertCheck(true, "Test executable does NOT use AVX512F intrinsics."); +#endif + } else { + SDLTest_AssertCheck(true, "CPU of test machine has NO AVX512F support."); + } + + return TEST_SKIPPED; +} + +/* ================= Test References ================== */ + +/* Intrinsics test cases */ + +static const SDLTest_TestCaseReference intrinsicsTest1 = { + intrinsics_selftest, "intrinsics_selftest", "Intrinsics testautomation selftest", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest2 = { + intrinsics_testMMX, "intrinsics_testMMX", "Tests MMX intrinsics", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest3 = { + intrinsics_testSSE, "intrinsics_testSSE", "Tests SSE intrinsics", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest4 = { + intrinsics_testSSE2, "intrinsics_testSSE2", "Tests SSE2 intrinsics", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest5 = { + intrinsics_testSSE3, "intrinsics_testSSE3", "Tests SSE3 intrinsics", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest6 = { + intrinsics_testSSE4_1, "intrinsics_testSSE4.1", "Tests SSE4.1 intrinsics", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest7 = { + intrinsics_testSSE4_2, "intrinsics_testSSE4.2", "Tests SSE4.2 intrinsics", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest8 = { + intrinsics_testAVX, "intrinsics_testAVX", "Tests AVX intrinsics", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest9 = { + intrinsics_testAVX2, "intrinsics_testAVX2", "Tests AVX2 intrinsics", TEST_ENABLED +}; + +static const SDLTest_TestCaseReference intrinsicsTest10 = { + intrinsics_testAVX512F, "intrinsics_testAVX512F", "Tests AVX512F intrinsics", TEST_ENABLED +}; + +/* Sequence of Platform test cases */ +static const SDLTest_TestCaseReference *platformTests[] = { + &intrinsicsTest1, + &intrinsicsTest2, + &intrinsicsTest3, + &intrinsicsTest4, + &intrinsicsTest5, + &intrinsicsTest6, + &intrinsicsTest7, + &intrinsicsTest8, + &intrinsicsTest9, + &intrinsicsTest10, + NULL +}; + +/* Platform test suite (global) */ +SDLTest_TestSuiteReference intrinsicsTestSuite = { + "Intrinsics", + NULL, + platformTests, + NULL +}; -- cgit v1.2.3