// // FILE: unit_test_001.cpp // AUTHOR: Rob Tillaart // DATE: 2021-01-01 // PURPOSE: unit tests for the temperature library // https://github.com/RobTillaart/Temperature // https://github.com/Arduino-CI/arduino_ci/blob/master/REFERENCE.md // // supported assertions // ---------------------------- // assertEqual(expected, actual); // a == b // assertNotEqual(unwanted, actual); // a != b // assertComparativeEquivalent(expected, actual); // abs(a - b) == 0 or (!(a > b) && !(a < b)) // assertComparativeNotEquivalent(unwanted, actual); // abs(a - b) > 0 or ((a > b) || (a < b)) // assertLess(upperBound, actual); // a < b // assertMore(lowerBound, actual); // a > b // assertLessOrEqual(upperBound, actual); // a <= b // assertMoreOrEqual(lowerBound, actual); // a >= b // assertTrue(actual); // assertFalse(actual); // assertNull(actual); // // special cases for floats // assertEqualFloat(expected, actual, epsilon); // fabs(a - b) <= epsilon // assertNotEqualFloat(unwanted, actual, epsilon); // fabs(a - b) >= epsilon // assertInfinity(actual); // isinf(a) // assertNotInfinity(actual); // !isinf(a) // assertNAN(arg); // isnan(a) // assertNotNAN(arg); // !isnan(a) #include #include "Arduino.h" #include "temperature.h" unittest_setup() { fprintf(stderr, "TEMPERATURE_VERSION: %s\n", (char *) TEMPERATURE_VERSION); } unittest_teardown() { } unittest(test_conversion) { assertEqualFloat(-40, Fahrenheit(-40), 0.001); assertEqualFloat(-40, Celsius(-40), 0.001); assertEqualFloat(273.15, Kelvin(0), 0.001); } unittest(test_dewpoint) { assertEqualFloat(9.27985, dewPoint(20, 50), 0.001); assertEqualFloat(9.25489, dewPointFast(20, 50), 0.001); assertEqualFloat(21.2829, humidex(20, 10), 0.001); } unittest(test_heatIndex) { // Fahrenheit assertEqualFloat(14.050, heatIndex(20, 50), 0.001); assertEqualFloat(66.850, heatIndex(68, 50), 0.001); // Celsius assertEqualFloat(20.000, heatIndexC(20, 50), 0.001); } unittest(test_heatIndex_2) { // Fahrenheit reference points assertEqualFloat( 77, heatIndex(80, 00), 1); assertEqualFloat( 78, heatIndex(80, 10), 1); assertEqualFloat( 80, heatIndex(80, 40), 1); assertEqualFloat( 82, heatIndex(80, 60), 1); assertEqualFloat( 86, heatIndex(80, 90), 1); assertEqualFloat( 89, heatIndex(80, 100), 1); fprintf(stderr, "\n"); assertEqualFloat( 84, heatIndex(90, 00), 1); assertEqualFloat( 85, heatIndex(90, 10), 1); assertEqualFloat( 91, heatIndex(90, 40), 1); assertEqualFloat(100, heatIndex(90, 60), 1); assertEqualFloat(122, heatIndex(90, 90), 1); assertEqualFloat(132, heatIndex(90, 100), 1); fprintf(stderr, "\n"); assertEqualFloat( 91, heatIndex(100, 00), 1); assertEqualFloat( 94, heatIndex(100, 10), 1); assertEqualFloat(109, heatIndex(100, 40), 1); assertEqualFloat(129, heatIndex(100, 60), 1); assertEqualFloat(176, heatIndex(100, 90), 1); assertEqualFloat(195, heatIndex(100, 100), 1); fprintf(stderr, "\n"); assertEqualFloat( 99, heatIndex(110, 00), 1); assertEqualFloat(104, heatIndex(110, 10), 1); assertEqualFloat(136, heatIndex(110, 40), 1); assertEqualFloat(171, heatIndex(110, 60), 1); assertEqualFloat(247, heatIndex(110, 90), 1); assertEqualFloat(278, heatIndex(110, 100), 1); } unittest(test_windChill) { fprintf(stderr, "\n Fahrenheit\n"); assertEqualFloat( -15.9, WindChill_F_mph (0, 10, true), 0.1); assertEqualFloat(-321.8, WindChill_F_mph (0, 10, false), 0.1); fprintf(stderr, "\n Celsius\n"); assertEqualFloat( -3.3, WindChill_C_kmph(0, 10, true), 0.1); assertEqualFloat( -7.1, WindChill_C_mps (0, 10, true), 0.1); assertEqualFloat( -24.3, WindChill_C_kmph(-20, 5, true), 0.1); assertEqualFloat(-100.5, WindChill_C_kmph(0, 10, false), 0.1); assertEqualFloat(-396.2, WindChill_C_mps (0, 10, false), 0.1); } unittest(test_converter) { temperatureConverter TC; fprintf(stderr, "\n 0°C\n"); TC.setCelsius(0); assertEqualFloat( 273.15, TC.getKelvin(), 0.01); assertEqualFloat( 0.00, TC.getCelsius(), 0.01); assertEqualFloat( 32.00, TC.getFahrenheit(), 0.01); assertEqualFloat( 0.00, TC.getReamur(), 0.01); assertEqualFloat( 491.67, TC.getRankine(), 0.01); assertEqualFloat(-100.00, TC.getDelisle(), 0.01); assertEqualFloat( 0.00, TC.getNewton(), 0.01); assertEqualFloat( 7.50, TC.getRomer(), 0.01); fprintf(stderr, "\n 100°C\n"); TC.setCelsius(100); assertEqualFloat( 373.15, TC.getKelvin(), 0.01); assertEqualFloat( 100.00, TC.getCelsius(), 0.01); assertEqualFloat( 212.00, TC.getFahrenheit(), 0.01); assertEqualFloat( 80.00, TC.getReamur(), 0.01); assertEqualFloat( 671.67, TC.getRankine(), 0.01); assertEqualFloat( 50.00, TC.getDelisle(), 0.01); assertEqualFloat( 33.00, TC.getNewton(), 0.01); assertEqualFloat( 60.00, TC.getRomer(), 0.01); } unittest(test_set_get) { temperatureConverter TC; fprintf(stderr, "\n 42°C\n"); TC.setKelvin(42); assertEqualFloat( 42.00, TC.getKelvin(), 0.01); TC.setCelsius(42); assertEqualFloat( 42.00, TC.getCelsius(), 0.01); TC.setFahrenheit(42); assertEqualFloat( 42.00, TC.getFahrenheit(), 0.01); TC.setReamur(42); assertEqualFloat( 42.00, TC.getReamur(), 0.01); TC.setRankine(42); assertEqualFloat( 42.00, TC.getRankine(), 0.01); TC.setDelisle(42); assertEqualFloat( 42.00, TC.getDelisle(), 0.01); TC.setNewton(42); assertEqualFloat( 42.00, TC.getNewton(), 0.01); TC.setRomer(42); assertEqualFloat( 42.00, TC.getRomer(), 0.01); } unittest_main() // --------