diff --git a/src/Makefile.am b/src/Makefile.am index f45bbf8..1b5962d 100644 --- a/src/Makefile.am +++ b/src/Makefile.am @@ -1,5 +1,5 @@ bin_PROGRAMS = gradix -gradix_SOURCES = gradix.c +gradix_SOURCES = gradix.c calculate.c gradix_LDADD = $(LIBSWE_LIBS) $(GTK_LIBS) $(CLUTTERX11_LIBS) $(PIXBUF_LIBS) gradix_CFLAGS = $(CFLAGS) $(GTK_CFLAGS) $(CLUTTERX11_CFLAGS) $(PIXBUF_CFLAGS) -Wall diff --git a/src/calculate.c b/src/calculate.c new file mode 100644 index 0000000..4fad545 --- /dev/null +++ b/src/calculate.c @@ -0,0 +1,167 @@ +#include + +#include "calculate.h" + +const signTypePair_t signType[] = { + { 0, 0, 0, 0, 0, 0, 0 }, +// Type Element Dominating planet Detriment planet Fall planet +// Domicile planet Exalted planet + { TYPE_CARDINAL, ELEMENT_FIRE, SE_MARS, SE_MARS, SE_VENUS, SE_SUN, SE_SATURN }, // Aries + { TYPE_FIX, ELEMENT_EARTH, SE_VENUS, SE_VENUS, SE_MARS, SE_MOON, 0 }, // Taurus + { TYPE_MUTABLE, ELEMENT_AIR, SE_MERCURY, SE_MERCURY, SE_JUPITER, 0, 0 }, // Gemini + { TYPE_CARDINAL, ELEMENT_WATER, SE_MOON, SE_MOON, SE_SATURN, SE_JUPITER, SE_MARS }, // Cancer + { TYPE_FIX, ELEMENT_FIRE, SE_SUN, SE_SUN, SE_SATURN, 0, 0 }, // Leo + { TYPE_MUTABLE, ELEMENT_EARTH, SE_MERCURY, SE_MERCURY, SE_JUPITER, SE_MERCURY, SE_VENUS }, // Virgo + { TYPE_CARDINAL, ELEMENT_AIR, SE_VENUS, SE_VENUS, SE_MARS, SE_SATURN, SE_SUN }, // Libra + { TYPE_FIX, ELEMENT_WATER, SE_PLUTO, SE_MARS, SE_VENUS, 0, SE_MOON }, // Scorpio + { TYPE_MUTABLE, ELEMENT_FIRE, SE_JUPITER, SE_JUPITER, SE_MERCURY, 0, 0 }, // Saggitarius + { TYPE_CARDINAL, ELEMENT_EARTH, SE_SATURN, SE_SATURN, SE_MOON, SE_MARS, SE_JUPITER }, // Capricorn + { TYPE_FIX, ELEMENT_AIR, SE_URANUS, SE_SATURN, SE_SUN, 0, 0 }, // Aquarius + { TYPE_MUTABLE, ELEMENT_WATER, SE_NEPTUNE, SE_JUPITER, SE_MERCURY, SE_VENUS, SE_MERCURY }, // Pisces +}; + +planetInfo_t * +get_planet_info(int32 planetNo, double date, double cusps[]) +{ + int32 iflgret, + iflag = SEFLG_SPEED | SEFLG_TOPOCTR; + double x2[6]; + char serr[AS_MAXCH]; + planetInfo_t *ret = g_new0(planetInfo_t, 1); + int i; + + iflgret = swe_calc(date, planetNo, iflag, x2, serr); + + if (iflgret < 0) { + printf("error: %s\n", serr); + + return NULL; + } else if (iflgret != iflag) { + printf("warning: iflgret != iflag. %s\n", serr); + } + + ret->house = 0; + + for (i = 1; i < 13; i++) { + int j = (i < 12) ? i + 1 : 1; + + if (cusps[j] < cusps[i]) { + if ((x2[0] >= cusps[i]) || (x2[0] < cusps[j])) { + ret->house = i; + + break; + } + } else { + if ((x2[0] >= cusps[i]) && (x2[0] < cusps[j])) { + ret->house = i; + + break; + } + } + } + + ret->position = x2[0]; + ret->sign = (int)ceilf(x2[0] / 30.0); + ret->retrograde = x2[3] < 0; + ret->type = signType[ret->sign].type; + ret->element = signType[ret->sign].element; + + return ret; +} + +int +set_location_and_time(double lon, double lat, double alt, int year, int month, int day, int hour, int min, double sec, double d_timezone, double *jd) +{ + int utc_year, + utc_month, + utc_day, + utc_hour, + utc_min; + double utc_sec, + retval, + dret[2]; + char serr[AS_MAXCH]; + + swe_set_topo(lon, lat, alt); + swe_utc_time_zone(year, month, day, hour, min, sec, d_timezone, &utc_year, &utc_month, &utc_day, &utc_hour, &utc_min, &utc_sec); + + if ((retval = swe_utc_to_jd(utc_year, utc_month, utc_day, utc_hour, utc_min, utc_sec, SE_GREG_CAL, dret, serr)) == ERR) { + printf("error: %s\n", serr); + + return 0; + } + + *jd = dret[0]; + + return 1; +} + +long int +get_sign(double pos) +{ + return (int)ceilf(pos / 30.0); +} + +moonPhase * +get_moon_phase(gint year, gint month, gint day, gint hour, gint min, gint sec) +{ + GDateTime *baseDate, + *gds; + GTimeSpan diff; + gdouble phasePercent, + realPercent; + moonState state; + moonPhase *ret; + + baseDate = g_date_time_new_utc(2005, 5, 8, 8, 48, 0); + // TODO: this should use the time zone used at the birth place + gds = g_date_time_new_local(year, month, day, 0, 0, 0); + diff = g_date_time_difference(gds, baseDate) / 1000; + + g_date_time_unref(gds); + g_date_time_unref(baseDate); + + // The current phase of the moon, between 0 and 100 (both 0 and 100 are new moon, 50 is full moon) + phasePercent = fmod((diff * 100) / (SYNODIC * MSPERDAY), 100); + + if (phasePercent < 0) { + phasePercent += 100.0; + } + + if ((phasePercent < 0) || (phasePercent > 100)) { + fprintf(stderr, "Error during moon phase calculation!\n"); + + return NULL; + } + + // The real percentage is a number around the illumination percentage of the moon + realPercent = (50.0 - fabs(phasePercent - 50.0)) * 2; + + // Uuuugly! + if (phasePercent == 0) { + state = MOON_STATE_NEW; + } else if (phasePercent < 25) { + state = MOON_STATE_WAXING_CRESCENT; + } else if (phasePercent == 25) { + state = MOON_STATE_WAXING_HALF; + } else if (phasePercent < 50) { + state = MOON_STATE_WAXING_GIBBOUS; + } else if (phasePercent == 50) { + state = MOON_STATE_FULL; + } else if (phasePercent < 75) { + state = MOON_STATE_WANING_GIBBOUS; + } else if (phasePercent == 75) { + state = MOON_STATE_WANING_HALF; + } else if (phasePercent < 100) { + state = MOON_STATE_WANING_CRESCENT; + } else { + state = MOON_STATE_DARK; + } + + ret = g_new0(moonPhase, 1); + ret->phase = state; + ret->visiblePercentage = realPercent; + + return ret; +} + diff --git a/src/calculate.h b/src/calculate.h new file mode 100644 index 0000000..22349dd --- /dev/null +++ b/src/calculate.h @@ -0,0 +1,73 @@ +#include "../swe/src/swephexp.h" + +#define SYNODIC 29.53058867 +#define MSPERDAY 86400000 + +typedef enum { + SIGN_ARIES = 1, + SIGN_TAURUS, + SIGN_GEMINI, + SIGN_CANCER, + SIGN_LEO, + SIGN_VIRGO, + SIGN_LIBRA, + SIGN_SCORPIO, + SIGN_SAGGITARIUS, + SIGN_CAPRICORN, + SIGN_AQUARIUS, + SIGN_PISCES +} zodiacSign; + +typedef enum { + TYPE_CARDINAL = 1, + TYPE_FIX, + TYPE_MUTABLE +} signType_t; + +typedef enum { + ELEMENT_FIRE = 1, + ELEMENT_EARTH, + ELEMENT_AIR, + ELEMENT_WATER +} signElement_t; + +typedef struct { + signType_t type; + signElement_t element; + int rulingPlanet; + int domicilePlanet; + int detrimentPlanet; + int exaltedPlanet; + int fallingPlanet; +} signTypePair_t; + +typedef enum { + MOON_STATE_NEW, + MOON_STATE_WAXING_CRESCENT, + MOON_STATE_WAXING_HALF, + MOON_STATE_WAXING_GIBBOUS, + MOON_STATE_FULL, + MOON_STATE_WANING_GIBBOUS, + MOON_STATE_WANING_HALF, + MOON_STATE_WANING_CRESCENT, + MOON_STATE_DARK +} moonState; + +typedef struct { + moonState phase; + double visiblePercentage; +} moonPhase; + +typedef struct { + double position; + zodiacSign sign; + int house; + short int retrograde; + signType_t type; + signElement_t element; +} planetInfo_t; + +planetInfo_t *get_planet_info(int32 planetNo, double date, double cusps[]); +int set_location_and_time(double lon, double lat, double alt, int year, int month, int day, int hour, int min, double sec, double d_timezone, double *jd); +long int get_sign(double pos); +moonPhase *get_moon_phase(gint year, gint month, gint day, gint hour, gint min, gint sec); diff --git a/src/gradix.c b/src/gradix.c index 1c5df2b..a17fff6 100644 --- a/src/gradix.c +++ b/src/gradix.c @@ -3,35 +3,13 @@ #include #include +#include "calculate.h" + #include "../swe/src/swephexp.h" #define IMAGEDIR "/home/polesz/Projektek/c/gradix/images" #define EPHEDIR "/home/polesz/Projektek/c/gradix/swe/data" -#define SYNODIC 29.53058867 -#define MSPERDAY 86400000 - -typedef enum { - SIGN_ARIES = 1, - SIGN_TAURUS, - SIGN_GEMINI, - SIGN_CANCER, - SIGN_LEO, - SIGN_VIRGO, - SIGN_LIBRA, - SIGN_SCORPIO, - SIGN_SAGGITARIUS, - SIGN_CAPRICORN, - SIGN_AQUARIUS, - SIGN_PISCES -} zodiacSign; - -typedef enum { - TYPE_CARDINAL = 1, - TYPE_FIX, - TYPE_MUTABLE -} signType_t; - const char *signTypeName[] = { NULL, "Cardinal", @@ -39,13 +17,6 @@ const char *signTypeName[] = { "Mutable" }; -typedef enum { - ELEMENT_FIRE = 1, - ELEMENT_EARTH, - ELEMENT_AIR, - ELEMENT_WATER -} signElement_t; - const char *signElementName[] = { NULL, "Fire", @@ -54,37 +25,6 @@ const char *signElementName[] = { "Water" }; -typedef struct { - signType_t type; - signElement_t element; - int rulingPlanet; - int domicilePlanet; - int detrimentPlanet; - int exaltedPlanet; - int fallingPlanet; -} signTypePair_t; - -typedef struct { - double position; - zodiacSign sign; - int house; - short int retrograde; - signType_t type; - signElement_t element; -} planetInfo_t; - -typedef enum { - MOON_STATE_NEW, - MOON_STATE_WAXING_CRESCENT, - MOON_STATE_WAXING_HALF, - MOON_STATE_WAXING_GIBBOUS, - MOON_STATE_FULL, - MOON_STATE_WANING_GIBBOUS, - MOON_STATE_WANING_HALF, - MOON_STATE_WANING_CRESCENT, - MOON_STATE_DARK -} moonState; - const char *moonStateName[] = { "New Moon", "Waxing Crescent Moon", @@ -97,29 +37,6 @@ const char *moonStateName[] = { "Dark Moon" }; -typedef struct { - moonState phase; - double visiblePercentage; -} moonPhase; - -const signTypePair_t signType[] = { - { 0, 0, 0, 0, 0, 0, 0 }, -// Type Element Dominating planet Detriment planet Fall planet -// Domicile planet Exalted planet - { TYPE_CARDINAL, ELEMENT_FIRE, SE_MARS, SE_MARS, SE_VENUS, SE_SUN, SE_SATURN }, // Aries - { TYPE_FIX, ELEMENT_EARTH, SE_VENUS, SE_VENUS, SE_MARS, SE_MOON, 0 }, // Taurus - { TYPE_MUTABLE, ELEMENT_AIR, SE_MERCURY, SE_MERCURY, SE_JUPITER, 0, 0 }, // Gemini - { TYPE_CARDINAL, ELEMENT_WATER, SE_MOON, SE_MOON, SE_SATURN, SE_JUPITER, SE_MARS }, // Cancer - { TYPE_FIX, ELEMENT_FIRE, SE_SUN, SE_SUN, SE_SATURN, 0, 0 }, // Leo - { TYPE_MUTABLE, ELEMENT_EARTH, SE_MERCURY, SE_MERCURY, SE_JUPITER, SE_MERCURY, SE_VENUS }, // Virgo - { TYPE_CARDINAL, ELEMENT_AIR, SE_VENUS, SE_VENUS, SE_MARS, SE_SATURN, SE_SUN }, // Libra - { TYPE_FIX, ELEMENT_WATER, SE_PLUTO, SE_MARS, SE_VENUS, 0, SE_MOON }, // Scorpio - { TYPE_MUTABLE, ELEMENT_FIRE, SE_JUPITER, SE_JUPITER, SE_MERCURY, 0, 0 }, // Saggitarius - { TYPE_CARDINAL, ELEMENT_EARTH, SE_SATURN, SE_SATURN, SE_MOON, SE_MARS, SE_JUPITER }, // Capricorn - { TYPE_FIX, ELEMENT_AIR, SE_URANUS, SE_SATURN, SE_SUN, 0, 0 }, // Aquarius - { TYPE_MUTABLE, ELEMENT_WATER, SE_NEPTUNE, SE_JUPITER, SE_MERCURY, SE_VENUS, SE_MERCURY }, // Pisces -}; - const char *signName[] = { NULL, "Aries", @@ -188,151 +105,6 @@ init_graphics(void) return TRUE; } -planetInfo_t * -get_planet_info(int32 planetNo, double date, double cusps[]) -{ - int32 iflgret, - iflag = SEFLG_SPEED | SEFLG_TOPOCTR; - double x2[6]; - char serr[AS_MAXCH]; - planetInfo_t *ret = g_new0(planetInfo_t, 1); - int i; - - iflgret = swe_calc(date, planetNo, iflag, x2, serr); - - if (iflgret < 0) { - printf("error: %s\n", serr); - - return NULL; - } else if (iflgret != iflag) { - printf("warning: iflgret != iflag. %s\n", serr); - } - - ret->house = 0; - - for (i = 1; i < 13; i++) { - int j = (i < 12) ? i + 1 : 1; - - if (cusps[j] < cusps[i]) { - if ((x2[0] >= cusps[i]) || (x2[0] < cusps[j])) { - ret->house = i; - - break; - } - } else { - if ((x2[0] >= cusps[i]) && (x2[0] < cusps[j])) { - ret->house = i; - - break; - } - } - } - - ret->position = x2[0]; - ret->sign = (int)ceilf(x2[0] / 30.0); - ret->retrograde = x2[3] < 0; - ret->type = signType[ret->sign].type; - ret->element = signType[ret->sign].element; - - return ret; -} - -int -set_location_and_time(double lon, double lat, double alt, int year, int month, int day, int hour, int min, double sec, double d_timezone, double *jd) -{ - int utc_year, - utc_month, - utc_day, - utc_hour, - utc_min; - double utc_sec, - retval, - dret[2]; - char serr[AS_MAXCH]; - - swe_set_topo(lon, lat, alt); - swe_utc_time_zone(year, month, day, hour, min, sec, d_timezone, &utc_year, &utc_month, &utc_day, &utc_hour, &utc_min, &utc_sec); - - if ((retval = swe_utc_to_jd(utc_year, utc_month, utc_day, utc_hour, utc_min, utc_sec, SE_GREG_CAL, dret, serr)) == ERR) { - printf("error: %s\n", serr); - - return 0; - } - - *jd = dret[0]; - - return 1; -} - -long int -get_sign(double pos) -{ - return (int)ceilf(pos / 30.0); -} - -moonPhase * -get_moon_phase(gint year, gint month, gint day, gint hour, gint min, gint sec) -{ - GDateTime *baseDate, - *gds; - GTimeSpan diff; - gdouble phasePercent, - realPercent; - moonState state; - moonPhase *ret; - - baseDate = g_date_time_new_utc(2005, 5, 8, 8, 48, 0); - // TODO: this should use the time zone used at the birth place - gds = g_date_time_new_local(year, month, day, 0, 0, 0); - diff = g_date_time_difference(gds, baseDate) / 1000; - - g_date_time_unref(gds); - g_date_time_unref(baseDate); - - // The current phase of the moon, between 0 and 100 (both 0 and 100 are new moon, 50 is full moon) - phasePercent = fmod((diff * 100) / (SYNODIC * MSPERDAY), 100); - - if (phasePercent < 0) { - phasePercent += 100.0; - } - - if ((phasePercent < 0) || (phasePercent > 100)) { - fprintf(stderr, "Error during moon phase calculation!\n"); - - return NULL; - } - - // The real percentage is a number around the illumination percentage of the moon - realPercent = (50.0 - fabs(phasePercent - 50.0)) * 2; - - // Uuuugly! - if (phasePercent == 0) { - state = MOON_STATE_NEW; - } else if (phasePercent < 25) { - state = MOON_STATE_WAXING_CRESCENT; - } else if (phasePercent == 25) { - state = MOON_STATE_WAXING_HALF; - } else if (phasePercent < 50) { - state = MOON_STATE_WAXING_GIBBOUS; - } else if (phasePercent == 50) { - state = MOON_STATE_FULL; - } else if (phasePercent < 75) { - state = MOON_STATE_WANING_GIBBOUS; - } else if (phasePercent == 75) { - state = MOON_STATE_WANING_HALF; - } else if (phasePercent < 100) { - state = MOON_STATE_WANING_CRESCENT; - } else { - state = MOON_STATE_DARK; - } - - ret = g_new0(moonPhase, 1); - ret->phase = state; - ret->visiblePercentage = realPercent; - - return ret; -} - int main(int argc, char *argv[]) {