GY-63_MS5611/libraries/Temperature/test/unit_test_001.cpp

//
//    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 <ArduinoUnitTests.h>


#include "Arduino.h"
#include "temperature.h"


unittest_setup()
{
}

unittest_teardown()
{
}


unittest(test_conversion)
{
  fprintf(stderr, "VERSION: %s\n", TEMPERATURE_VERSION);
  
  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)
{
  assertEqualFloat(206.46,  heatIndex(20, 50), 0.001);
  assertEqualFloat(77.3509, heatIndex(68, 50), 0.001);
  assertEqualFloat(25.1949, heatIndexC(20, 50), 0.001);
}


unittest(test_windChill)
{
  assertEqualFloat(107.108, WindChill_F_mph (100, 10, true), 0.001);
  assertEqualFloat(40.8862, WindChill_C_kmph(37, 10, true),  0.001);
  assertEqualFloat(41.9713, WindChill_C_mps (37, 10, true),  0.001);
  assertEqualFloat(166.99,  WindChill_F_mph (100, 10, false), 0.001);
  assertEqualFloat(69.1205, WindChill_C_kmph(37, 10, false),  0.001);
  assertEqualFloat(154.934, WindChill_C_mps (37, 10, false),  0.001);
}


unittest_main()

// --------
2021-01-29 2021-01-29 06:31:58 -05:00			`//`
			`// 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 <ArduinoUnitTests.h>`


			`#include "Arduino.h"`
			`#include "temperature.h"`



			`unittest_setup()`
			`{`
			`}`

			`unittest_teardown()`
			`{`
			`}`


			`unittest(test_conversion)`
			`{`
			`fprintf(stderr, "VERSION: %s\n", TEMPERATURE_VERSION);`

			`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)`
			`{`
			`assertEqualFloat(206.46, heatIndex(20, 50), 0.001);`
			`assertEqualFloat(77.3509, heatIndex(68, 50), 0.001);`
			`assertEqualFloat(25.1949, heatIndexC(20, 50), 0.001);`
			`}`


			`unittest(test_windChill)`
			`{`
			`assertEqualFloat(107.108, WindChill_F_mph (100, 10, true), 0.001);`
			`assertEqualFloat(40.8862, WindChill_C_kmph(37, 10, true), 0.001);`
			`assertEqualFloat(41.9713, WindChill_C_mps (37, 10, true), 0.001);`
			`assertEqualFloat(166.99, WindChill_F_mph (100, 10, false), 0.001);`
			`assertEqualFloat(69.1205, WindChill_C_kmph(37, 10, false), 0.001);`
			`assertEqualFloat(154.934, WindChill_C_mps (37, 10, false), 0.001);`
			`}`


			`unittest_main()`

			`// --------`