/* See LICENSE file for copyright and license details. */ #ifndef LIBRED_H #define LIBRED_H /** * Approximate apparent size of the Sun in degrees */ #define LIBRED_SOLAR_APPARENT_RADIUS (32.0 / 60.0) /** * The Sun's elevation at sunset and sunrise, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_SUNSET_SUNRISE (-32.0 / 60.0) /** * The Sun's elevation at civil dusk and civil dawn, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_CIVIL_DUSK_DAWN (-6.0) /** * The Sun's elevation at nautical dusk and nautical dawn, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_NAUTICAL_DUSK_DAWN (-12.0) /** * The Sun's elevation at astronomical dusk and astronomical dawn, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_ASTRONOMICAL_DUSK_DAWN (-18.0) /** * The Sun's elevation at amateur astronomical dusk and amateur astronomical dawn, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_AMATEUR_ASTRONOMICAL_DUSK_DAWN (-15.0) /** * The Sun's lowest elevation during the golden hour, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_GOLDEN_HOUR_LOW (-4.0) /** * The Sun's highest elevation during the golden hour, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_GOLDEN_HOUR_HIGH (6.0) /** * The Sun's lowest elevation during the blue hour, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_BLUE_HOUR_LOW (-6.0) /** * The Sun's highest elevation during the blue hour, measured in degrees */ #define LIBRED_SOLAR_ELEVATION_BLUE_HOUR_HIGH (-4.0) /** * Test whether it is twilight * * @param ELEV:double The current elevation * @return 1 if is twilight, 0 otherwise */ #define LIBRED_IS_TWILIGHT(ELEV) ((-18.0 <= (ELEV)) && ((ELEV) <= -32.0 / 60.0)) /** * Test whether it is civil twilight * * @param ELEV:double The current elevation * @return 1 if is civil twilight, 0 otherwise */ #define LIBRED_IS_CIVIL_TWILIGHT(ELEV) ((-6.0 <= (ELEV)) && ((ELEV) <= -32.0 / 60.0)) /** * Test whether it is nautical twilight * * @param ELEV:double The current elevation * @return 1 if is nautical twilight, 0 otherwise */ #define LIBRED_IS_NAUTICAL_TWILIGHT(ELEV) ((-12.0 <= (ELEV)) && ((ELEV) <= -32.0 / 60.0)) /** * Test whether it is astronomical twilight * * @param ELEV:double The current elevation * @return 1 if is astronomical twilight, 0 otherwise */ #define LIBRED_IS_ASTRONOMICAL_TWILIGHT(ELEV) ((-18.0 <= (ELEV)) && ((ELEV) <= -32.0 / 60.0)) /** * Test whether it is amateur astronomical twilight * * @param ELEV:double The current elevation * @return 1 if is amatuer astronomical twilight, 0 otherwise */ #define LIBRED_IS_AMATEUR_ASTRONOMICAL_TWILIGHT(ELEV) ((-18.0 <= (ELEV)) && ((ELEV) <= -15.0)) /** * Test whether it is nighttime * * @param ELEV:double The current elevation * @return 1 if is nighttime, 0 otherwise */ #define LIBRED_IS_NIGHTTIME(ELEV) ((ELEV) < -18.0) /** * Test whether it is daytime * * @param ELEV:double The current elevation * @return 1 if is daytime, 0 otherwise */ #define LIBRED_IS_DAYTIME(ELEV) ((ELEV) > -32.0 / 60.0) /** * Test whether it is the golden hour * * @param ELEV:double The current elevation * @return 1 if is golden hour, 0 otherwise */ #define LIBRED_IS_GOLDEN_HOUR(ELEV) ((-4.0 <= (ELEV)) && ((ELEV) <= 6.0)) /** * Test whether it is the blue hour * * @param ELEV:double The current elevation * @return 1 if is blue hour, 0 otherwise */ #define LIBRED_IS_BLUE_HOUR(ELEV) ((-6.0 <= (ELEV)) && ((ELEV) <= -4.0)) /** * Calculates the Sun's elevation as apparent * from a geographical position * * @param latitude The latitude in degrees northwards from * the equator, negative for southwards * @param longitude The longitude in degrees eastwards from * Greenwich, negative for westwards * @param elevation Output parameter for the Sun's apparent elevation * as seen, right now, from the specified position, * measured in degrees * @return 0 on success, -1 on failure * @throws Any error specified for clock_gettime(3) on error */ double libred_solar_elevation(double, double, double *); /** * Exit if time the is before year 0 in J2000 * * @return 0 on success, -1 on error */ int libred_check_timetravel(void); /** * The highest colour temperature in the table */ #define LIBRED_HIGHEST_TEMPERATURE 40000 /** * The lowest colour temperature in the table */ #define LIBRED_LOWEST_TEMPERATURE 1000 /** * The temperature difference between the colours in the table. * Note, `libred_get_colour` will make interpolation for colours * that are not in the table */ #define LIBRED_DELTA_TEMPERATURE 100 /** * Get the [0, 1] sRGB values of a colour temperature * * libred has a table of colour temperature values, this * function interpolates values that are missing. If you * don't want any interpolation the `temp` parameter can * be specified in one of the following ways: * * - floor: * (temp - LIBRED_LOWEST_TEMPERATURE) / * LIBRED_DELTA_TEMPERATURE * * LIBRED_DELTA_TEMPERATURE + * LIBRED_LOWEST_TEMPERATURE * * - ceiling: * (temp - LIBRED_LOWEST_TEMPERATURE + * LIBRED_DELTA_TEMPERATURE - 1) / * LIBRED_DELTA_TEMPERATURE * * LIBRED_DELTA_TEMPERATURE + * LIBRED_LOWEST_TEMPERATURE * * - round to nearest: * (temp - LIBRED_LOWEST_TEMPERATURE + * LIBRED_DELTA_TEMPERATURE / 2) / * LIBRED_DELTA_TEMPERATURE * * LIBRED_DELTA_TEMPERATURE + * LIBRED_LOWEST_TEMPERATURE * * @param temp The desired colour temperature * @param r Output parameter for the “red” value * @param g Output parameter for the green value * @param b Output parameter for the blue value * @return 0 on succeess, -1 on error * * @throws EDOM The selected temperature is below 1000K */ int libred_get_colour(long int, double *, double *, double *); #endif