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Neither the name of the copyright holder nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * **************************************************************************************************/ /*! \file \brief Unit tests for conversion operators. */ #include "../common/cutlass_unit_test.h" #include "cutlass/numeric_conversion.h" #include "cutlass/layout/matrix.h" #include "cutlass/util/host_tensor.h" ///////////////////////////////////////////////////////////////////////////////////////////////// namespace test { namespace core { namespace kernel { ///////////////////////////////////////////////////////////////////////////////////////////////// /// Simple conversion function template __global__ void convert( cutlass::Array *destination, cutlass::Array const *source) { cutlass::NumericArrayConverter convert; *destination = convert(*source); } ///////////////////////////////////////////////////////////////////////////////////////////////// template void run_test(const char dest_name[], const char source_name[], const int range = 4, const int offset = 0) { const int kN = Count; dim3 grid(1, 1); dim3 block(1, 1); cutlass::HostTensor destination({1, kN}); cutlass::HostTensor source({1, kN}); auto source_ref = source.host_ref(); auto destination_ref = destination.host_ref(); for (int i = 0; i < kN; ++i) { source_ref.at({0, i}) = Source(i % range + offset); } source.sync_device(); convert<<< grid, block >>>( reinterpret_cast *>(destination.device_data()), reinterpret_cast const *>(source.device_data()) ); destination.sync_host(); for (int i = 0; i < kN; ++i) { EXPECT_TRUE(float(destination_ref.at({0, i})) == float(source_ref.at({0, i}))) << "Destination type: " << dest_name << " "<< float(destination_ref.at({0, i})) << ", Source type: " << source_name << " " << float(source_ref.at({0, i})) << ", Count: " << Count; } } ///////////////////////////////////////////////////////////////////////////////////////////////// template __global__ void convert_with_scale_factor( cutlass::Array *destination, cutlass::Array const *source, cutlass::Array const *scale_factor) { cutlass::NumericArrayConverter convert; *destination = convert(*source, *scale_factor); } ///////////////////////////////////////////////////////////////////////////////////////////////// template void run_test_with_scalefactor(const char dest_name[], const char source_name[], const char scale_factor_name[], const int range = 4, const int offset = 0) { const int kN = Count; dim3 grid(1, 1); dim3 block(1, 1); cutlass::HostTensor destination({1, kN}); cutlass::HostTensor source({1, kN}); cutlass::HostTensor scale_factor({1, kN}); auto source_ref = source.host_ref(); auto destination_ref = destination.host_ref(); auto scale_factor_ref = scale_factor.host_ref(); for (int i = 0; i < kN; ++i) { source_ref.at({0, i}) = Source(i % range + offset); } for (int i = 0; i < kN; ++i) { scale_factor_ref.at({0, i}) = ScaleFactor(1 + i % 8); } source.sync_device(); scale_factor.sync_device(); convert_with_scale_factor<<< grid, block >>>( reinterpret_cast *>(destination.device_data()), reinterpret_cast const *>(source.device_data()), reinterpret_cast const *>(scale_factor.device_data()) ); destination.sync_host(); for (int i = 0; i < kN; ++i) { float ref = float(source_ref.at({0, i})) / float(scale_factor_ref.at({0, i})); bool pass = float(destination_ref.at({0, i})) == ref; EXPECT_TRUE(pass) << "Destination type: " << dest_name << " "<< float(destination_ref.at({0, i})) << std::endl << ", Source type: " << source_name << " " << float(source_ref.at({0, i})) << std::endl << ", Scalefactor type: " << source_name << " " << float(scale_factor_ref.at({0, i})) << std::endl << ", idx: " << i << std::endl; } } } // namespace kernel } // namespace core } // namespace test ///////////////////////////////////////////////////////////////////////////////////////////////// TEST(NumericConversion, f32_to_f16_rn) { constexpr int kN = 1; using Source = float; const char source_name[] = "float"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f32x2_to_f16x2_rn) { constexpr int kN = 2; using Source = float; const char source_name[] = "float"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f32x8_to_f16x8_rn) { constexpr int kN = 8; using Source = float; const char source_name[] = "float"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } ///////////////////////////////////////////////////////////////////////////////////////////////// TEST(NumericConversion, f16_to_f32_rn) { int const kN = 1; using Source = cutlass::half_t; const char source_name[] = "half_t"; using Destination = float; const char dest_name[] = "float"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f16x8_to_f32x8_rn) { int const kN = 8; using Source = cutlass::half_t; const char source_name[] = "half_t"; using Destination = float; const char dest_name[] = "float"; test::core::kernel::run_test(dest_name, source_name); } ///////////////////////////////////////////////////////////////////////////////////////////////// TEST(NumericConversion, f32_to_fe4m3_rn) { int const kN = 1; using Source = float; const char source_name[] = "float"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f32_to_fe4m3_rn_2_elements) { int const kN = 2; using Source = float; const char source_name[] = "float"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f32_to_fe4m3_rn_array) { int const kN = 27; using Source = float; const char source_name[] = "float"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f32_to_fe5m2_rn) { int const kN = 1; using Source = float; const char source_name[] = "float"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f32_to_fe5m2_rn_2_elements) { int const kN = 2; using Source = float; const char source_name[] = "float"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f32_to_fe5m2_rn_array) { int const kN = 27; using Source = float; const char source_name[] = "float"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f16_to_fe4m3_rn) { int const kN = 1; using Source = cutlass::half_t; const char source_name[] = "half_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f16_to_fe4m3_rn_2_elements) { int const kN = 2; using Source = cutlass::half_t; const char source_name[] = "half_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f16_to_fe4m3_rn_array) { int const kN = 27; using Source = cutlass::half_t; const char source_name[] = "half_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f16_to_fe5m2_rn) { int const kN = 1; using Source = cutlass::half_t; const char source_name[] = "half_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f16_to_fe5m2_rn_2_elements) { int const kN = 27; using Source = cutlass::half_t; const char source_name[] = "half_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, f16_to_fe5m2_rn_array) { int const kN = 27; using Source = cutlass::half_t; const char source_name[] = "half_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, bf16_to_fe4m3_rn) { int const kN = 1; using Source = cutlass::bfloat16_t; const char source_name[] = "bfloat16_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, bf16_to_fe4m3_rn_2_elements) { int const kN = 27; using Source = cutlass::bfloat16_t; const char source_name[] = "bfloat16_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, bf16_to_fe4m3_rn_array) { int const kN = 27; using Source = cutlass::bfloat16_t; const char source_name[] = "bfloat16_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, bf16_to_fe5m2_rn) { int const kN = 1; using Source = cutlass::bfloat16_t; const char source_name[] = "bfloat16_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, bf16_to_fe5m2_rn_2_elements) { int const kN = 27; using Source = cutlass::bfloat16_t; const char source_name[] = "bfloat16_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, bf16_to_fe5m2_rn_array) { int const kN = 27; using Source = cutlass::bfloat16_t; const char source_name[] = "bfloat16_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } ///////////////////////////////////////////////////////////////////////////////////////////////// TEST(NumericConversion, fe4m3_to_fe5m2_rn) { int const kN = 1; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_fe5m2_2_elements) { int const kN = 27; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_fe5m2_array) { int const kN = 27; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_fe4m3_rn) { int const kN = 1; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_fe4m3_2_elements) { int const kN = 27; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_fe4m3_array) { int const kN = 27; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_f32_rn) { int const kN = 1; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = float; const char dest_name[] = "float"; test::core::kernel::run_test(dest_name, source_name); } ///////////////////////////////////////////////////////////////////////////////////////////////// TEST(NumericConversion, f32x8_to_s8x8_rn) { int const kN = 8; using Source = float; const char source_name[] = "float"; using Destination = int8_t; const char dest_name[] = "int8_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_f32_2_elements) { int const kN = 2; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = float; const char dest_name[] = "float"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_f32_array) { int const kN = 27; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = float; const char dest_name[] = "float"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_f32_2_elements) { int const kN = 2; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = float; const char dest_name[] = "float"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_f32_array) { int const kN = 27; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = float; const char dest_name[] = "float"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_f16_rn) { int const kN = 1; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_f16_2_elements) { int const kN = 2; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_f16_array) { int const kN = 27; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_f16_rn) { int const kN = 1; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_f16_2_elements) { int const kN = 2; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_f16_array) { int const kN = 27; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::half_t; const char dest_name[] = "half_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_bf16_rn) { int const kN = 1; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::bfloat16_t; const char dest_name[] = "bfloat16_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_bf16_2_elements) { int const kN = 2; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::bfloat16_t; const char dest_name[] = "bfloat16_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe4m3_to_bf16_array) { int const kN = 27; using Source = cutlass::float_e4m3_t; const char source_name[] = "float_e4m3_t"; using Destination = cutlass::bfloat16_t; const char dest_name[] = "bfloat16_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_bf16_rn) { int const kN = 1; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::bfloat16_t; const char dest_name[] = "bfloat16_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_bf16_2_elements) { int const kN = 2; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::bfloat16_t; const char dest_name[] = "bfloat16_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_to_bf16_array) { int const kN = 27; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = cutlass::bfloat16_t; const char dest_name[] = "bfloat16_t"; test::core::kernel::run_test(dest_name, source_name); } // These are included as regression tests for a special case when N = 4. TEST(NumericConversion, int4b_t_to_fe5m2_t_array_4) { int const kN = 4; using Source = cutlass::int4b_t; const char source_name[] = "int4b_t"; using Destination = cutlass::float_e5m2_t; const char dest_name[] = "float_e5m2_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, int_to_fe4m3_t_array_4) { int const kN = 4; using Source = int; const char source_name[] = "int"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, int2b_t_to_fe4m3_t_array_4) { int const kN = 4; using Source = cutlass::int2b_t; const char source_name[] = "int2b_t"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, fe5m2_t_to_double_array_4) { int const kN = 4; using Source = cutlass::float_e5m2_t; const char source_name[] = "float_e5m2_t"; using Destination = double; const char dest_name[] = "double"; test::core::kernel::run_test(dest_name, source_name); } TEST(NumericConversion, int_to_fe4m3_t_array_32) { int const kN = 32; using Source = int; const char source_name[] = "int"; using Destination = cutlass::float_e4m3_t; const char dest_name[] = "float_e4m3_t"; test::core::kernel::run_test(dest_name, source_name); } ///////////////////////////////////////////////////////////////////////////////////////////////// template struct GetName { static constexpr char name[] = "UNSUPPORTED"; }; template <> struct GetName { static constexpr char name[] = "int2b_t"; }; template <> struct GetName { static constexpr char name[] = "uint2b_t"; }; template <> struct GetName { static constexpr char name[] = "int4b_t"; }; template <> struct GetName { static constexpr char name[] = "uint4b_t"; }; template <> struct GetName { static constexpr char name[] = "uint8_t"; }; template <> struct GetName { static constexpr char name[] = "int8_t"; }; template <> struct GetName { static constexpr char name[] = "float_e4m3_t"; }; template <> struct GetName { static constexpr char name[] = "float_e5m2_t"; }; template <> struct GetName { static constexpr char name[] = "half_t"; }; template <> struct GetName { static constexpr char name[] = "bfloat16_t"; }; template <> struct GetName { static constexpr char name[] = "float"; }; template struct ResultSourcePair { using Result = Result_; using Source = Source_; }; template class VectorArrayConverterTest : public testing::Test { public: using Result = typename ResultSourcePair::Result; using Source = typename ResultSourcePair::Source; template static void emit_test() { const int range = 1 << cutlass::sizeof_bits::value; const int offset = cutlass::platform::numeric_limits::lowest(); test::core::kernel::run_test(GetName::name, GetName::name, range, offset); } }; using VectorConvertTypes = ::testing::Types< ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair, ResultSourcePair >; TYPED_TEST_SUITE(VectorArrayConverterTest, VectorConvertTypes); TYPED_TEST(VectorArrayConverterTest, array_1) { TestFixture::template emit_test<1>(); } TYPED_TEST(VectorArrayConverterTest, array_2) { TestFixture::template emit_test<2>(); } TYPED_TEST(VectorArrayConverterTest, array_3) { TestFixture::template emit_test<3>(); } TYPED_TEST(VectorArrayConverterTest, array_4) { TestFixture::template emit_test<4>(); } TYPED_TEST(VectorArrayConverterTest, array_5) { TestFixture::template emit_test<5>(); } TYPED_TEST(VectorArrayConverterTest, array_8) { TestFixture::template emit_test<8>(); } TYPED_TEST(VectorArrayConverterTest, array_10) { // N > 8 and N is not a multiple of 4 TestFixture::template emit_test<10>(); } TYPED_TEST(VectorArrayConverterTest, array_12) { // N > 8 and N is a multiple of 4 TestFixture::template emit_test<12>(); } TYPED_TEST(VectorArrayConverterTest, array_16) { // N > 8 and N is a multiple of 8 TestFixture::template emit_test<16>(); } TYPED_TEST(VectorArrayConverterTest, array_17) { // N > 8 and N is not a multiple of 8 TestFixture::template emit_test<17>(); } TYPED_TEST(VectorArrayConverterTest, array_27) { // Test entire conversion range with residue (for int4) TestFixture::template emit_test<27>(); } TYPED_TEST(VectorArrayConverterTest, array_31) { // Force use of converters for 16, 8, 4, 2 and scalar // if max width is 16 TestFixture::template emit_test<31>(); } TYPED_TEST(VectorArrayConverterTest, array_63) { // Force use of converters for 32, 16, 8, 4, 2 and scalar // if max width is 32 TestFixture::template emit_test<63>(); } TYPED_TEST(VectorArrayConverterTest, array_256) { // Test entire conversion range (for int8) TestFixture::template emit_test<256>(); } TYPED_TEST(VectorArrayConverterTest, array_259) { // Force use of 4, 2 and scalar converter (if max width is 4) TestFixture::template emit_test<259>(); } TYPED_TEST(VectorArrayConverterTest, array_263) { // Force use of 8, 4, 2 and scalar converter (if max width is 8) TestFixture::template emit_test<263>(); } ///////////////////////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////////////////////////