#include "fp32_vector2_test.h" const int TEST_FP32_VECTOR2_AMOUNT_1 = 5; const vector2_fp32_t TEST_FP32_VECTOR2_COMMON_1[] = { { 3.0f, 4.0f }, { -3.0f, -4.0f }, { 10000.0f, -20000.0f }, { 0.1f, -10.0f }, { -123.5f, 3.7283f } }; const vector2_fp32_t TEST_FP32_VECTOR2_COMMON_2[] = { { -3.0f, -4.0f }, { -3.0f, -4.0f }, { 0.002f, -0.05f }, { -0.2f, 12.0f }, { 1.5f, -23.35f } }; // =============== Square modulus =============== // const float FP32_VECTOR2_SQUARE_MODULUS_1[] = { 25.0f, 25.0f, 500000000.0f, 100.01f, 15266.150221f }; int test_vector2_fp32_square_modulus() { print_test_name("vector2_fp32_t square modulus"); float square_modulus; for (int i = 0; i < TEST_FP32_VECTOR2_AMOUNT_1; i++) { square_modulus = vector2_get_square_modulus_fp32(&TEST_FP32_VECTOR2_COMMON_1[i]); if (!test_are_equal_fp32(square_modulus, FP32_VECTOR2_SQUARE_MODULUS_1[i], TEST_FP32_TWO_EPSYLON)) { print_test_failed(); return TEST_RESULT_FAILED; } } print_test_success(); return TEST_RESULT_SUCCES; } // =================== Module =================== // const float FP32_VECTOR2_MODULUS_1[] = { 5.0f, 5.0f, 22360.68f, 10.0005f, 123.55626338f }; int test_vector2_fp32_modulus() { print_test_name("vector2_fp32_t modulus"); float square_modulus; for (int i = 0; i < TEST_FP32_VECTOR2_AMOUNT_1; i++) { square_modulus = vector2_get_modulus_fp32(&TEST_FP32_VECTOR2_COMMON_1[i]); if (!test_are_equal_fp32(square_modulus, FP32_VECTOR2_MODULUS_1[i], TEST_FP32_EPSYLON)) { print_test_failed(); return TEST_RESULT_FAILED; } } print_test_success(); return TEST_RESULT_SUCCES; } // ===================== Add ==================== // const vector2_fp32_t TEST_FP32_VECTOR2_COMMON_1_2_SUM[] = { { 0.0f, 0.0f }, { -6.0f, -8.0f }, { 10000.002f, -20000.05f }, { -0.1f, 2.0f }, { -122.0f, -19.6217f } }; int test_vector2_add_fp32() { print_test_name("vector2_fp32_t add"); vector2_fp32_t vector; for (int i = 0; i < TEST_FP32_VECTOR2_AMOUNT_1; i++) { vector2_add_fp32(&TEST_FP32_VECTOR2_COMMON_1[i], &TEST_FP32_VECTOR2_COMMON_2[i], &vector); if (!test_are_equal_fp32(vector.x1, TEST_FP32_VECTOR2_COMMON_1_2_SUM[i].x1, TEST_FP32_EPSYLON) || !test_are_equal_fp32(vector.x2, TEST_FP32_VECTOR2_COMMON_1_2_SUM[i].x2, TEST_FP32_EPSYLON)) { print_test_failed(); return TEST_RESULT_FAILED; } } print_test_success(); return TEST_RESULT_SUCCES; } // ================== Subtract ================== // const vector2_fp32_t TEST_FP32_VECTOR2_COMMON_1_2_DIFF[] = { { 6.0f, 8.0f }, { 0.0f, 0.0f }, { 9999.998f, -19999.95f }, { 0.3f, -22.0f }, { -125.0f, 27.0783f } }; int test_vector2_subtract_fp32() { print_test_name("vector2_fp32_t subtract"); vector2_fp32_t vector; for (int i = 0; i < TEST_FP32_VECTOR2_AMOUNT_1; i++) { vector2_subtract_fp32(&TEST_FP32_VECTOR2_COMMON_1[i], &TEST_FP32_VECTOR2_COMMON_2[i], &vector); if (!test_are_equal_fp32(vector.x1, TEST_FP32_VECTOR2_COMMON_1_2_DIFF[i].x1, TEST_FP32_EPSYLON) || !test_are_equal_fp32(vector.x2, TEST_FP32_VECTOR2_COMMON_1_2_DIFF[i].x2, TEST_FP32_EPSYLON)) { print_test_failed(); return TEST_RESULT_FAILED; } } print_test_success(); return TEST_RESULT_SUCCES; } // ==================== 1234 ==================== // int test_fp32_vector2() { print_test_section("vector2_fp32_t"); if (test_vector2_fp32_square_modulus() != TEST_RESULT_SUCCES) { return TEST_RESULT_FAILED; } if (test_vector2_fp32_modulus() != TEST_RESULT_SUCCES) { return TEST_RESULT_FAILED; } if (test_vector2_add_fp32() != TEST_RESULT_SUCCES) { return TEST_RESULT_FAILED; } if (test_vector2_subtract_fp32() != TEST_RESULT_SUCCES) { return TEST_RESULT_FAILED; } return TEST_RESULT_SUCCES; }