// // Copyright (c) 2020 The Khronos Group Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // #include #include #include "CL/cl_half.h" union FI { float f; uint32_t i; }; int test_half_to_float(cl_half h, cl_float ref) { cl_float f = cl_half_to_float(h); if (f != ref) { union FI f_i, ref_i; f_i.f = f; ref_i.f = ref; printf("\nERROR: converting 0x%04x to float: expected 0x%08x, got 0x%08x\n", h, ref_i.i, f_i.i); return 0; } return 1; } int test_half_from_float(cl_float f, cl_half ref, cl_half_rounding_mode mode, const char *mode_str) { cl_half h = cl_half_from_float(f, mode); if (h != ref) { union FI f_i; f_i.f = f; printf( "\nERROR: converting 0x%08x to half (%s): expected 0x%04x, got 0x%04x\n", f_i.i, mode_str, ref, h); return 0; } return 1; } int main(void) { printf("\nChecking conversion routines in cl_half.h\n"); #define CHECK_TO_FLOAT(h, ref) \ if (!test_half_to_float(h, ref)) { \ printf("Test failed on line %d.\n", __LINE__); \ return 1; \ } // Check a handful of values CHECK_TO_FLOAT(0x0000, 0.f); CHECK_TO_FLOAT(0x3c00, 1.f); CHECK_TO_FLOAT(0xbc00, -1.f); CHECK_TO_FLOAT(0x7c00, INFINITY); CHECK_TO_FLOAT(0xfc00, -INFINITY); #define CHECK_FROM_FLOAT(f, ref, mode) \ if (!test_half_from_float(f, ref, CL_HALF_##mode, #mode)) { \ printf("Test failed on line %d.\n", __LINE__); \ return 1; \ } // Check a handful of normal values CHECK_FROM_FLOAT(0.f, 0x0000, RTE); CHECK_FROM_FLOAT(1.f, 0x3c00, RTE); CHECK_FROM_FLOAT(-1.f, 0xbc00, RTE); CHECK_FROM_FLOAT(CL_HALF_MAX, 0x7bff, RTE); CHECK_FROM_FLOAT(CL_HALF_MIN, 0x0400, RTE); // Check huge positive (non-inf) values round properly CHECK_FROM_FLOAT(CL_HALF_MAX + 1000.f, 0x7c00, RTE); CHECK_FROM_FLOAT(CL_HALF_MAX + 1000.f, 0x7c00, RTP); CHECK_FROM_FLOAT(CL_HALF_MAX + 1000.f, 0x7bff, RTN); CHECK_FROM_FLOAT(CL_HALF_MAX + 1000.f, 0x7bff, RTZ); // Check huge negative (non-inf) values round properly CHECK_FROM_FLOAT(-(CL_HALF_MAX + 1000.f), 0xfc00, RTE); CHECK_FROM_FLOAT(-(CL_HALF_MAX + 1000.f), 0xfbff, RTP); CHECK_FROM_FLOAT(-(CL_HALF_MAX + 1000.f), 0xfc00, RTN); CHECK_FROM_FLOAT(-(CL_HALF_MAX + 1000.f), 0xfbff, RTZ); #if 0 // Hexadecimal float constant is C++17 // Check tiny positive values round properly CHECK_FROM_FLOAT(0x1.000000p-25, 0x0000, RTE); CHECK_FROM_FLOAT(0x1.000000p-25, 0x0001, RTP); CHECK_FROM_FLOAT(0x1.000000p-25, 0x0000, RTN); CHECK_FROM_FLOAT(0x1.000000p-25, 0x0000, RTZ); // Check tiny negative values round properly CHECK_FROM_FLOAT(-0x1.000000p-25, 0x8000, RTE); CHECK_FROM_FLOAT(-0x1.000000p-25, 0x8000, RTP); CHECK_FROM_FLOAT(-0x1.000000p-25, 0x8001, RTN); CHECK_FROM_FLOAT(-0x1.000000p-25, 0x8000, RTZ); #else // Check tiny positive values round properly CHECK_FROM_FLOAT(2.98023223876953125e-08, 0x0000, RTE); CHECK_FROM_FLOAT(2.98023223876953125e-08, 0x0001, RTP); CHECK_FROM_FLOAT(2.98023223876953125e-08, 0x0000, RTN); CHECK_FROM_FLOAT(2.98023223876953125e-08, 0x0000, RTZ); // Check tiny negative values round properly CHECK_FROM_FLOAT(-2.98023223876953125e-08, 0x8000, RTE); CHECK_FROM_FLOAT(-2.98023223876953125e-08, 0x8000, RTP); CHECK_FROM_FLOAT(-2.98023223876953125e-08, 0x8001, RTN); CHECK_FROM_FLOAT(-2.98023223876953125e-08, 0x8000, RTZ); #endif printf("\nAll tests passed!\n"); return 0; }