#include "./is_unit.h" #include "./../../helpers.h" // ==================== FP32 ==================== // static const int _TEST_FP32_UNIT_NUMBERS_AMOUNT = 3; static const int _TEST_FP32_NONUNIT_NUMBERS_AMOUNT = 4; static const float _TEST_FP32_UNIT_NUMBERS[] = { 1.0f, 1.0f + 0.75f * BGC_EPSYLON_FP32, 1.0f - 0.75f * BGC_EPSYLON_FP32 }; static const float _TEST_FP32_NONUNIT_NUMBERS[] = { 0.0f, -1.0f, 1.0f + 1.25f * BGC_EPSYLON_FP32, 1.0f - 1.25f * BGC_EPSYLON_FP32 }; void test_is_unit_fp32() { print_testing_name("bgc_is_unit_fp32"); // Testing unit values: for (int i = 0; i < _TEST_FP32_UNIT_NUMBERS_AMOUNT; i++) { if (!bgc_is_unit_fp32(_TEST_FP32_UNIT_NUMBERS[i])) { print_testing_failed("A unit value was not recognized"); return; } } // Testing non-unit values: for (int i = 0; i < _TEST_FP32_NONUNIT_NUMBERS_AMOUNT; i++) { if (bgc_is_unit_fp32(_TEST_FP32_NONUNIT_NUMBERS[i])) { print_testing_failed("A non-unit value was recognized as a unit value"); return; } } print_testing_success(); } // ==================== FP64 ==================== // static const int _TEST_FP64_UNIT_NUMBERS_AMOUNT = 3; static const int _TEST_FP64_NONUNIT_NUMBERS_AMOUNT = 4; static const double _TEST_FP64_UNIT_NUMBERS[] = { 1.0, 1.0 + 0.75 * BGC_EPSYLON_FP64, 1.0 - 0.75 * BGC_EPSYLON_FP64 }; static const double _TEST_FP64_NONUNIT_NUMBERS[] = { 0.0, -1.0, 1.0 + 1.25 * BGC_EPSYLON_FP64, 1.0 - 1.25 * BGC_EPSYLON_FP64 }; void test_is_unit_fp64() { print_testing_name("bgc_is_unit_fp64"); // Testing unit values: for (int i = 0; i < _TEST_FP64_UNIT_NUMBERS_AMOUNT; i++) { if (!bgc_is_unit_fp64(_TEST_FP64_UNIT_NUMBERS[i])) { print_testing_failed("A unit value was not recognized"); return; } } // Testing non-unit values: for (int i = 0; i < _TEST_FP64_NONUNIT_NUMBERS_AMOUNT; i++) { if (bgc_is_unit_fp64(_TEST_FP64_NONUNIT_NUMBERS[i])) { print_testing_failed("A non-unit value was recognized as a unit value"); return; } } print_testing_success(); } // ================ Square FP32 ================= // static const int _TEST_FP32_DATA_SQUARE_UNIT_AMOUNT = 3; static const int _TEST_FP32_DATA_SQUARE_NONUNIT_AMOUNT = 4; static const float _TEST_FP32_DATA_SQUARE_UNIT[] = { 1.0f, 1.0f + 1.75f * BGC_EPSYLON_FP32, 1.0f - 1.75f * BGC_EPSYLON_FP32 }; static const float _TEST_FP32_DATA_SQUARE_NONUNIT[] = { 0.0f, -1.0f, 1.0f + 2.25f * BGC_EPSYLON_FP32, 1.0f - 2.25f * BGC_EPSYLON_FP32 }; void test_is_sqare_unit_fp32() { print_testing_name("bgc_is_sqare_unit_fp32"); // Testing unit values: for (int i = 0; i < _TEST_FP32_DATA_SQUARE_UNIT_AMOUNT; i++) { if (!bgc_is_sqare_unit_fp32(_TEST_FP32_DATA_SQUARE_UNIT[i])) { print_testing_failed("A unit value was not recognized"); return; } } // Testing non-unit values: for (int i = 0; i < _TEST_FP32_DATA_SQUARE_NONUNIT_AMOUNT; i++) { if (bgc_is_sqare_unit_fp32(_TEST_FP32_DATA_SQUARE_NONUNIT[i])) { print_testing_failed("A non-unit value was recognized as a unit value"); return; } } print_testing_success(); } // ================ Square FP64 ================= // static const int _TEST_FP64_DATA_SQUARE_UNIT_AMOUNT = 3; static const int _TEST_FP64_DATA_SQUARE_NONUNIT_AMOUNT = 4; static const double _TEST_FP64_DATA_SQUARE_UNIT[] = { 1.0, 1.0 + 1.75 * BGC_EPSYLON_FP64, 1.0 - 1.75 * BGC_EPSYLON_FP64 }; static const double _TEST_FP64_DATA_SQUARE_NONUNIT[] = { 0.0, -1.0, 1.0 + 2.25 * BGC_EPSYLON_FP64, 1.0 - 2.25 * BGC_EPSYLON_FP64 }; void test_is_sqare_unit_fp64() { print_testing_name("bgc_is_sqare_unit_fp64"); // Testing unit values: for (int i = 0; i < _TEST_FP64_DATA_SQUARE_UNIT_AMOUNT; i++) { if (!bgc_is_sqare_unit_fp64(_TEST_FP64_DATA_SQUARE_UNIT[i])) { print_testing_failed(); return; } } // Testing non-unit values: for (int i = 0; i < _TEST_FP64_DATA_SQUARE_NONUNIT_AMOUNT; i++) { if (bgc_is_sqare_unit_fp64(_TEST_FP64_DATA_SQUARE_NONUNIT[i])) { print_testing_failed("A non-unit value was recognized as a unit value"); return; } } print_testing_success(); } void test_is_unit() { test_is_unit_fp32(); test_is_unit_fp64(); test_is_sqare_unit_fp32(); test_is_sqare_unit_fp64(); return TEST_SUCCESS; }