kc3-lang/SDL/test/testautomation_math.c
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Hash : 324b9615
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Date : 2022-05-06T13:57:02
Test: Add Trunc tests to math suite.
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test/testautomation_math.c
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/** * Math test suite */ #include <math.h> #include "SDL.h" #include "SDL_test.h" /* ================= Test Structs ================== */ /** * Stores a single input and the expected result */ typedef struct { double input; double expected; } d_to_d; /** * Stores a pair of inputs and the expected result */ typedef struct { double x_input, y_input; double expected; } dd_to_d; /* ================= Test Case Implementation ================== */ /* SDL_floor tests functions */ /** * \brief Checks edge cases (0 and infinity) for themselves. */ static int floor_edgeCases(void *args) { double result; result = SDL_floor(INFINITY); SDLTest_AssertCheck(INFINITY == result, "Floor(%f), expected %f, got %f", INFINITY, INFINITY, result); result = SDL_floor(-INFINITY); SDLTest_AssertCheck(-INFINITY == result, "Floor(%f), expected %f, got %f", -INFINITY, -INFINITY, result); result = SDL_floor(0.0); SDLTest_AssertCheck(0.0 == result, "Floor(%.1f), expected %.1f, got %.1f", 0.0, 0.0, result); result = SDL_floor(-0.0); SDLTest_AssertCheck(-0.0 == result, "Floor(%.1f), expected %.1f, got %.1f", -0.0, -0.0, result); return TEST_COMPLETED; } /** * \brief Checks the NaN case. */ static int floor_nanCase(void *args) { SDLTest_AssertCheck(isnan(SDL_floor(NAN)), "Floor(nan), expected nan"); return TEST_COMPLETED; } /** * \brief Checks round values (x.0) for themselves */ static int floor_roundNumbersCases(void *args) { Uint32 i; const double round_cases[] = { 1.0, -1.0, 15.0, -15.0, 125.0, -125.0, 1024.0, -1024.0 }; for (i = 0; i < SDL_arraysize(round_cases); i++) { const double result = SDL_floor(round_cases[i]); SDLTest_AssertCheck(result == round_cases[i], "Floor(%.1f), expected %.1f, got %.1f", round_cases[i], round_cases[i], result); } return TEST_COMPLETED; } /** * \brief Checks a set of fractions */ static int floor_fractionCases(void *args) { Uint32 i; const d_to_d frac_cases[] = { { 1.0 / 2.0, 0.0 }, { -1.0 / 2.0, -1.0 }, { 4.0 / 3.0, 1.0 }, { -4.0 / 3.0, -2.0 }, { 76.0 / 7.0, 10.0 }, { -76.0 / 7.0, -11.0 }, { 535.0 / 8.0, 66.0 }, { -535.0 / 8.0, -67.0 }, { 19357.0 / 53.0, 365.0 }, { -19357.0 / 53.0, -366.0 } }; for (i = 0; i < SDL_arraysize(frac_cases); i++) { const double result = SDL_floor(frac_cases[i].input); SDLTest_AssertCheck(result == frac_cases[i].expected, "Floor(%f), expected %.1f, got %f", frac_cases[i].input, frac_cases[i].expected, result); } return TEST_COMPLETED; } /** * \brief Checks a range of values between 0 and UINT32_MAX */ static int floor_rangeTest(void *args) { const Uint32 ITERATIONS = 10000000; const Uint32 STEP = SDL_MAX_UINT32 / ITERATIONS; Uint32 i; double test_value = 0.0; SDLTest_AssertPass("Floor: Testing a range of %u values with %u steps", ITERATIONS, STEP); for (i = 0; i < ITERATIONS; i++, test_value += STEP) { double result; /* These are tested elsewhere */ if (isnan(test_value) || isinf(test_value)) { continue; } result = SDL_floor(test_value); if (result != test_value) { /* Only log failures to save performances */ SDLTest_AssertPass("Floor(%.1f), expected %.1f, got %.1f", test_value, test_value, result); return TEST_ABORTED; } } return TEST_COMPLETED; } /* SDL_ceil tests functions */ /** * \brief Checks edge cases (0 and infinity) for themselves. */ static int ceil_edgeCases(void *args) { double result; result = SDL_ceil(INFINITY); SDLTest_AssertCheck(INFINITY == result, "Ceil(%f), expected %f, got %f", INFINITY, INFINITY, result); result = SDL_ceil(-INFINITY); SDLTest_AssertCheck(-INFINITY == result, "Ceil(%f), expected %f, got %f", -INFINITY, -INFINITY, result); result = SDL_ceil(0.0); SDLTest_AssertCheck(0.0 == result, "Ceil(%.1f), expected %.1f, got %.1f", 0.0, 0.0, result); result = SDL_ceil(-0.0); SDLTest_AssertCheck(-0.0 == result, "Ceil(%.1f), expected %.1f, got %.1f", -0.0, -0.0, result); return TEST_COMPLETED; } /** * \brief Checks the NaN case. */ static int ceil_nanCase(void *args) { SDLTest_AssertCheck(isnan(SDL_ceil(NAN)), "Ceil(nan), expected nan"); return TEST_COMPLETED; } /** * \brief Checks round values (x.0) for themselves */ static int ceil_roundNumbersCases(void *args) { Uint32 i; const double round_cases[] = { 1.0, -1.0, 15.0, -15.0, 125.0, -125.0, 1024.0, -1024.0 }; for (i = 0; i < SDL_arraysize(round_cases); i++) { const double result = SDL_ceil(round_cases[i]); SDLTest_AssertCheck(result == round_cases[i], "Ceil(%.1f), expected %.1f, got %.1f", round_cases[i], round_cases[i], result); } return TEST_COMPLETED; } /** * \brief Checks a set of fractions */ static int ceil_fractionCases(void *args) { Uint32 i; const d_to_d frac_cases[] = { { 1.0 / 2.0, 1.0 }, { -1.0 / 2.0, -0.0 }, { 4.0 / 3.0, 2.0 }, { -4.0 / 3.0, -1.0 }, { 76.0 / 7.0, 11.0 }, { -76.0 / 7.0, -10.0 }, { 535.0 / 8.0, 67.0 }, { -535.0 / 8.0, -66.0 }, { 19357.0 / 53.0, 366.0 }, { -19357.0 / 53.0, -365.0 } }; for (i = 0; i < SDL_arraysize(frac_cases); i++) { const double result = SDL_ceil(frac_cases[i].input); SDLTest_AssertCheck(result == frac_cases[i].expected, "Ceil(%f), expected %.1f, got %f", frac_cases[i].input, frac_cases[i].expected, result); } return TEST_COMPLETED; } /** * \brief Checks a range of values between 0 and UINT32_MAX */ static int ceil_rangeTest(void *args) { const Uint32 ITERATIONS = 10000000; const Uint32 STEP = SDL_MAX_UINT32 / ITERATIONS; Uint32 i; double test_value = 0.0; SDLTest_AssertPass("Ceil: Testing a range of %u values with %u steps", ITERATIONS, STEP); for (i = 0; i < ITERATIONS; i++, test_value += STEP) { double result; /* These are tested elsewhere */ if (isnan(test_value) || isinf(test_value)) { continue; } result = SDL_ceil(test_value); if (result != test_value) { /* Only log failures to save performances */ SDLTest_AssertPass("Ceil(%.1f), expected %.1f, got %.1f", test_value, test_value, result); return TEST_ABORTED; } } return TEST_COMPLETED; } /* SDL_trunc tests functions */ /** * \brief Checks edge cases (0 and infinity) for themselves. */ static int trunc_edgeCases(void *args) { double result; result = SDL_trunc(INFINITY); SDLTest_AssertCheck(INFINITY == result, "Trunc(%f), expected %f, got %f", INFINITY, INFINITY, result); result = SDL_trunc(-INFINITY); SDLTest_AssertCheck(-INFINITY == result, "Trunc(%f), expected %f, got %f", -INFINITY, -INFINITY, result); result = SDL_trunc(0.0); SDLTest_AssertCheck(0.0 == result, "Trunc(%.1f), expected %.1f, got %.1f", 0.0, 0.0, result); result = SDL_trunc(-0.0); SDLTest_AssertCheck(-0.0 == result, "Trunc(%.1f), expected %.1f, got %.1f", -0.0, -0.0, result); return TEST_COMPLETED; } /** * \brief Checks the NaN case. */ static int trunc_nanCase(void *args) { SDLTest_AssertCheck(isnan(SDL_trunc(NAN)), "Trunc(nan), expected nan"); return TEST_COMPLETED; } /** * \brief Checks round values (x.0) for themselves */ static int trunc_roundNumbersCases(void *args) { Uint32 i; const double round_cases[] = { 1.0, -1.0, 15.0, -15.0, 125.0, -125.0, 1024.0, -1024.0 }; for (i = 0; i < SDL_arraysize(round_cases); i++) { const double result = SDL_trunc(round_cases[i]); SDLTest_AssertCheck(result == round_cases[i], "Trunc(%.1f), expected %.1f, got %.1f", round_cases[i], round_cases[i], result); } return TEST_COMPLETED; } /** * \brief Checks a set of fractions */ static int trunc_fractionCases(void *args) { Uint32 i; const d_to_d frac_cases[] = { { 1.0 / 2.0, 0.0 }, { -1.0 / 2.0, -0.0 }, { 4.0 / 3.0, 1.0 }, { -4.0 / 3.0, -1.0 }, { 76.0 / 7.0, 10.0 }, { -76.0 / 7.0, -10.0 }, { 535.0 / 8.0, 66.0 }, { -535.0 / 8.0, -66.0 }, { 19357.0 / 53.0, 365.0 }, { -19357.0 / 53.0, -365.0 } }; for (i = 0; i < SDL_arraysize(frac_cases); i++) { const double result = SDL_trunc(frac_cases[i].input); SDLTest_AssertCheck(result == frac_cases[i].expected, "Trunc(%f), expected %.1f, got %f", frac_cases[i].input, frac_cases[i].expected, result); } return TEST_COMPLETED; } /** * \brief Checks a range of values between 0 and UINT32_MAX */ static int trunc_rangeTest(void *args) { const Uint32 ITERATIONS = 10000000; const Uint32 STEP = SDL_MAX_UINT32 / ITERATIONS; Uint32 i; double test_value = 0.0; SDLTest_AssertPass("Trunc: Testing a range of %u values with %u steps", ITERATIONS, STEP); for (i = 0; i < ITERATIONS; i++, test_value += STEP) { double result; /* These are tested elsewhere */ if (isnan(test_value) || isinf(test_value)) { continue; } result = SDL_trunc(test_value); if (result != test_value) { /* Only log failures to save performances */ SDLTest_AssertPass("Trunc(%.1f), expected %.1f, got %.1f", test_value, test_value, result); return TEST_ABORTED; } } return TEST_COMPLETED; } /* ================= Test References ================== */ /* SDL_floor test cases */ static const SDLTest_TestCaseReference floorTest1 = { (SDLTest_TestCaseFp) floor_edgeCases, "floor_edgeCases", "Check positive and negative infinity and 0", TEST_ENABLED }; static const SDLTest_TestCaseReference floorTest2 = { (SDLTest_TestCaseFp) floor_nanCase, "floor_nanCase", "Check the NaN special case", TEST_ENABLED }; static const SDLTest_TestCaseReference floorTest3 = { (SDLTest_TestCaseFp) floor_roundNumbersCases, "floor_roundNumberCases", "Check a set of round numbers", TEST_ENABLED }; static const SDLTest_TestCaseReference floorTest4 = { (SDLTest_TestCaseFp) floor_fractionCases, "floor_fractionCases", "Check a set of fractions", TEST_ENABLED }; static const SDLTest_TestCaseReference floorTest5 = { (SDLTest_TestCaseFp) floor_rangeTest, "floor_rangeTest", "Check a range of positive integer", TEST_ENABLED }; /* SDL_ceil test cases */ static const SDLTest_TestCaseReference ceilTest1 = { (SDLTest_TestCaseFp) ceil_edgeCases, "ceil_edgeCases", "Check positive and negative infinity and 0", TEST_ENABLED }; static const SDLTest_TestCaseReference ceilTest2 = { (SDLTest_TestCaseFp) ceil_nanCase, "ceil_nanCase", "Check the NaN special case", TEST_ENABLED }; static const SDLTest_TestCaseReference ceilTest3 = { (SDLTest_TestCaseFp) ceil_roundNumbersCases, "ceil_roundNumberCases", "Check a set of round numbers", TEST_ENABLED }; static const SDLTest_TestCaseReference ceilTest4 = { (SDLTest_TestCaseFp) ceil_fractionCases, "ceil_fractionCases", "Check a set of fractions", TEST_ENABLED }; static const SDLTest_TestCaseReference ceilTest5 = { (SDLTest_TestCaseFp) ceil_rangeTest, "ceil_rangeTest", "Check a range of positive integer", TEST_ENABLED }; /* SDL_trunc test cases */ static const SDLTest_TestCaseReference truncTest1 = { (SDLTest_TestCaseFp) trunc_edgeCases, "trunc_edgeCases", "Check positive and negative infinity and 0", TEST_ENABLED }; static const SDLTest_TestCaseReference truncTest2 = { (SDLTest_TestCaseFp) trunc_nanCase, "trunc_nanCase", "Check the NaN special case", TEST_ENABLED }; static const SDLTest_TestCaseReference truncTest3 = { (SDLTest_TestCaseFp) trunc_roundNumbersCases, "trunc_roundNumberCases", "Check a set of round numbers", TEST_ENABLED }; static const SDLTest_TestCaseReference truncTest4 = { (SDLTest_TestCaseFp) trunc_fractionCases, "trunc_fractionCases", "Check a set of fractions", TEST_ENABLED }; static const SDLTest_TestCaseReference truncTest5 = { (SDLTest_TestCaseFp) trunc_rangeTest, "trunc_rangeTest", "Check a range of positive integer", TEST_ENABLED }; static const SDLTest_TestCaseReference *mathTests[] = { &floorTest1, &floorTest2, &floorTest3, &floorTest4, &floorTest5, &ceilTest1, &ceilTest2, &ceilTest3, &ceilTest4, &ceilTest5, &truncTest1, &truncTest2, &truncTest3, &truncTest4, &truncTest5, NULL }; SDLTest_TestSuiteReference mathTestSuite = { "Math", NULL, mathTests, NULL };