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astrognome/src/astrognome.c

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#include <glib.h>
#include "calculate.h"
#include "../swe/src/swephexp.h"
#define EPHEDIR "/home/polesz/Projektek/c/astragnome/swe/data"
typedef struct {
int signId;
signElement_t element;
signType_t type;
} signData_t;
typedef struct {
int planetId;
gchar *name;
gdouble orb;
zodiacSign domicile1,
domicile2,
exile1,
exile2,
exalted,
fall;
} planetData_t;
const char *signTypeName[] = {
NULL,
"Cardinal",
"Fix",
"Mutable"
};
const char *signElementName[] = {
NULL,
"Fire",
"Earth",
"Air",
"Water"
};
const char *moonStateName[] = {
"New Moon",
"Waxing Crescent Moon",
"Waxing Half Moon",
"Waxing Gibbous Moon",
"Full Moon",
"Waning Gibbous Moon",
"Waning Half Moon",
"Waning Crescent Moon",
"Dark Moon"
};
const char *signName[] = {
NULL,
"Aries",
"Taurus",
"Gemini",
"Cancer",
"Leo",
"Virgo",
"Libra",
"Scorpio",
"Sagittarius",
"Capricorn",
"Aquarius",
"Pisces"
};
typedef struct {
gchar *name;
guint size;
guint orbModifier;
gboolean harmonic;
gboolean major;
} aspectData_t;
/*
* conjuction - 0, 8
* sextile - 60, 4
* square - 90, 8
* trine - 120, 4
* opposition - 180, 8
*/
const aspectData_t aspectData[] = {
// Name Size Orb Harmonic Major
{ "Conjuction", 0, 0, TRUE, TRUE },
{ "Opposition", 180, 0, TRUE, TRUE },
{ "Trine", 120, 0, TRUE, TRUE },
{ "Square", 90, 0, FALSE, TRUE },
{ "Sextile", 60, 1, TRUE, TRUE },
{ "Quincunx", 150, 2, FALSE, FALSE },
{ "Semi-sextile", 30, 2, TRUE, FALSE },
{ "Semi-square", 45, 2, FALSE, FALSE },
{ "Sesqui-square", 135, 2, FALSE, FALSE },
{ "Quintile", 72, 3, TRUE, FALSE },
{ "Bi-quintile", 144, 3, TRUE, FALSE }
};
#define ADD_SIGN(ht, v, s, e, t) (v) = g_new0(signData_t, 1); \
(v)->signId = (s); \
(v)->element = (e); \
(v)->type = (t); \
g_hash_table_replace((ht), GINT_TO_POINTER(s), (v));
#define ADD_PLANET(ht, v, i, n, o, dom1, dom2, exi1, exi2, exa, fal) (v) = g_new0(planetData_t, 1); \
(v)->planetId = (i); \
(v)->name = g_strdup(n); \
(v)->orb = (o); \
(v)->domicile1 = (dom1); \
(v)->domicile2 = (dom2); \
(v)->exile1 = (exi1); \
(v)->exile2 = (exi2); \
(v)->exalted = (exa); \
(v)->fall = (fal); \
g_hash_table_replace((ht), GINT_TO_POINTER(i), (v));
#define INCREASE_POINTS(dts, dte, dtt, vsd, s, p, val) (vsd) = g_hash_table_lookup((dts), GINT_TO_POINTER(s)); \
g_assert((vsd) != NULL); \
\
if (((p) = g_hash_table_lookup((dte), GINT_TO_POINTER((vsd)->element))) == NULL) { \
(p) = g_new0(guint, 1); \
} \
\
*(p) += (val); \
g_hash_table_replace((dte), GINT_TO_POINTER((vsd)->element), (p)); \
\
if (((p) = g_hash_table_lookup((dtt), GINT_TO_POINTER((vsd)->type))) == NULL) { \
(p) = g_new0(guint, 1); \
} \
\
*(p) += (val); \
g_hash_table_replace((dtt), GINT_TO_POINTER((vsd)->type), (p));
struct aspect_check_data {
GList *planetIdList;
guint currentOuterPlanetId;
guint currentInnerPlanetId;
GHashTable *planetInfoTable;
GHashTable *planetDataTable;
};
void
check_aspects_inner_loop(gpointer data, gpointer user_data)
{
struct aspect_check_data *checkData = user_data;
gint outerPlanetId = GPOINTER_TO_INT(g_list_nth_data(checkData->planetIdList, checkData->currentOuterPlanetId));
gint innerPlanetId = GPOINTER_TO_INT(g_list_nth_data(checkData->planetIdList, checkData->currentInnerPlanetId));
planetInfo_t *outerPlanet,
*innerPlanet;
planetData_t *outerPlanetData,
*innerPlanetData;
gdouble planetOrb,
distance,
difference;
gint i;
const aspectData_t *aspect = NULL;
if (outerPlanetId == innerPlanetId) {
checkData->currentInnerPlanetId++;
return;
}
outerPlanet = g_hash_table_lookup(checkData->planetInfoTable, GINT_TO_POINTER(outerPlanetId));
innerPlanet = g_hash_table_lookup(checkData->planetInfoTable, GINT_TO_POINTER(innerPlanetId));
g_assert(outerPlanet != NULL);
g_assert(innerPlanet != NULL);
outerPlanetData = g_hash_table_lookup(checkData->planetDataTable, GINT_TO_POINTER(outerPlanetId));
innerPlanetData = g_hash_table_lookup(checkData->planetDataTable, GINT_TO_POINTER(innerPlanetId));
g_assert(outerPlanetData != NULL);
g_assert(innerPlanetData != NULL);
distance = fabs(outerPlanet->position - innerPlanet->position);
planetOrb = fmin(outerPlanetData->orb, innerPlanetData->orb);
if (distance > 180.0) {
distance = 360.0 - distance;
}
for (i = 0; i < sizeof(aspectData) / sizeof(aspectData_t); i++) {
gdouble diff = fabs(aspectData[i].size - distance);
gdouble aspectOrb = fmax(1.0, planetOrb - aspectData[i].orbModifier);
if (diff <= aspectOrb) {
printf("%f ", diff);
aspect = &(aspectData[i]);
if (aspectData[i].size == 0) {
difference = (1 - ((360.0 - diff) / 360.0)) * 100.0;
} else {
difference = (1 - ((aspectData[i].size - diff) / aspectData[i].size)) * 100.0;
}
break;
}
}
if (aspect != NULL) {
printf("%s vs. %s: %s (±%f%%)\n", outerPlanetData->name, innerPlanetData->name, aspect->name, difference);
}
checkData->currentInnerPlanetId++;
}
void
check_aspects_outer_loop(gpointer data, gpointer user_data)
{
struct aspect_check_data *checkData = user_data;
checkData->currentInnerPlanetId = checkData->currentOuterPlanetId;
printf("\n");
g_list_foreach(g_list_nth(checkData->planetIdList, checkData->currentOuterPlanetId), check_aspects_inner_loop, user_data);
checkData->currentOuterPlanetId++;
}
void
free_planet_data(gpointer data)
{
planetData_t *planetData = data;
g_free(planetData->name);
g_free(planetData);
}
int
main(int argc, char *argv[])
{
int year = 1981,
month = 3,
day = 11,
hour = 23,
min = 39,
sec = 34,
p;
guint *point;
double timezone = 1.0,
lon = 20.766666,
lat = 48.2,
alt = 200,
te,
cusps[13],
ascmc[10];
planetInfo_t *planetInfo;
moonPhase *phase;
GHashTable *signDataTable,
*planetDataTable,
*elementPointsTable,
*typePointsTable,
*planetInfoTable;
planetData_t *planetData;
signData_t *signData;
GList *planetIdList;
struct aspect_check_data aspectCheckData;
#if 1
year = 1983;
month = 3;
day = 7;
hour = 11;
min = 54;
sec = 47;
lon = 19.081599;
lat = 47.462485;
#endif
signDataTable = g_hash_table_new_full(g_direct_hash, g_direct_equal, NULL, g_free);
planetDataTable = g_hash_table_new_full(g_direct_hash, g_direct_equal, NULL, free_planet_data);
elementPointsTable = g_hash_table_new_full(g_direct_hash, g_direct_equal, NULL, NULL);
typePointsTable = g_hash_table_new_full(g_direct_hash, g_direct_equal, NULL, NULL);
planetInfoTable = g_hash_table_new_full(g_direct_hash, g_direct_equal, NULL, g_free);
// Initialize planet data table
ADD_PLANET(planetDataTable, planetData, SE_SUN, "Sun", 13.0, SIGN_LEO, SIGN_NONE, SIGN_AQUARIUS, SIGN_NONE, SIGN_ARIES, SIGN_LIBRA);
ADD_PLANET(planetDataTable, planetData, SE_MOON, "Moon", 9.0, SIGN_CANCER, SIGN_NONE, SIGN_CAPRICORN, SIGN_NONE, SIGN_TAURUS, SIGN_SCORPIO);
ADD_PLANET(planetDataTable, planetData, SE_MERCURY, "Mercury", 7.0, SIGN_GEMINI, SIGN_VIRGO, SIGN_SAGITTARIUS, SIGN_PISCES, SIGN_VIRGO, SIGN_PISCES);
ADD_PLANET(planetDataTable, planetData, SE_VENUS, "Venus", 7.0, SIGN_TAURUS, SIGN_LIBRA, SIGN_SCORPIO, SIGN_ARIES, SIGN_PISCES, SIGN_VIRGO);
ADD_PLANET(planetDataTable, planetData, SE_MARS, "Mars", 7.0, SIGN_ARIES, SIGN_SCORPIO, SIGN_LIBRA, SIGN_TAURUS, SIGN_CAPRICORN, SIGN_CANCER);
ADD_PLANET(planetDataTable, planetData, SE_JUPITER, "Jupiter", 9.0, SIGN_SAGITTARIUS, SIGN_PISCES, SIGN_GEMINI, SIGN_VIRGO, SIGN_CANCER, SIGN_CAPRICORN);
ADD_PLANET(planetDataTable, planetData, SE_SATURN, "Saturn", 7.0, SIGN_CAPRICORN, SIGN_AQUARIUS, SIGN_CANCER, SIGN_LEO, SIGN_LIBRA, SIGN_ARIES);
ADD_PLANET(planetDataTable, planetData, SE_URANUS, "Uranus", 5.0, SIGN_AQUARIUS, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_NEPTUNE, "Neptune", 5.0, SIGN_PISCES, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_PLUTO, "Pluto", 3.0, SIGN_SCORPIO, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_CHIRON, "Chiron", 2.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_MEAN_NODE, "Ascending Moon Node", 2.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_MEAN_APOG, "Dark Moon", 2.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_CERES, "Ceres", 2.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_PALLAS, "Pallas", 2.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_JUNO, "Juno", 2.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_VESTA, "Vesta", 2.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_NPLANETS + SE_ASC, "Ascendent", 9.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
ADD_PLANET(planetDataTable, planetData, SE_NPLANETS + SE_MC, "Midheaven", 5.0, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE, SIGN_NONE);
// Initialize sign data table
ADD_SIGN(signDataTable, signData, SIGN_ARIES, ELEMENT_FIRE, TYPE_CARDINAL);
ADD_SIGN(signDataTable, signData, SIGN_TAURUS, ELEMENT_EARTH, TYPE_FIX);
ADD_SIGN(signDataTable, signData, SIGN_GEMINI, ELEMENT_AIR, TYPE_MUTABLE);
ADD_SIGN(signDataTable, signData, SIGN_CANCER, ELEMENT_WATER, TYPE_CARDINAL);
ADD_SIGN(signDataTable, signData, SIGN_LEO, ELEMENT_FIRE, TYPE_FIX);
ADD_SIGN(signDataTable, signData, SIGN_VIRGO, ELEMENT_EARTH, TYPE_MUTABLE);
ADD_SIGN(signDataTable, signData, SIGN_LIBRA, ELEMENT_AIR, TYPE_CARDINAL);
ADD_SIGN(signDataTable, signData, SIGN_SCORPIO, ELEMENT_WATER, TYPE_FIX);
ADD_SIGN(signDataTable, signData, SIGN_SAGITTARIUS, ELEMENT_FIRE, TYPE_MUTABLE);
ADD_SIGN(signDataTable, signData, SIGN_CAPRICORN, ELEMENT_EARTH, TYPE_CARDINAL);
ADD_SIGN(signDataTable, signData, SIGN_AQUARIUS, ELEMENT_AIR, TYPE_FIX);
ADD_SIGN(signDataTable, signData, SIGN_PISCES, ELEMENT_WATER, TYPE_MUTABLE);
swe_set_ephe_path(EPHEDIR);
if (set_location_and_time(lon, lat, alt, year, month, day, hour, min, sec, timezone, &te) == 0) {
return 1;
}
printf("Date: %02d.%02d.%d at %02d:%02d:%02d, at %f, %f\n", year, month, day, hour, min, sec, lon, lat);
printf("\nHOUSES\n======\n\n");
swe_houses(te, lat, lon, 'P', cusps, ascmc);
for (p = 1; p < 13; p++) {
printf("House %2d..: %s (%f)\n", p, signName[get_sign(cusps[p])], cusps[p]);
}
printf("\nPLANETS AND POINTS\n==================\n\n");
planetInfo = g_new0(planetInfo_t, 1);
planetInfo->position = ascmc[0];
planetInfo->sign = get_sign(ascmc[0]);
planetInfo->house = 1;
planetInfo->retrograde = FALSE;
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_NPLANETS + SE_ASC), planetInfo);
printf("Asc.......: %s (%f)\n", signName[planetInfo->sign], planetInfo->position);
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 2);
planetInfo = g_new0(planetInfo_t, 1);
planetInfo->position = ascmc[1];
planetInfo->sign = get_sign(ascmc[1]);
planetInfo->house = 10;
planetInfo->retrograde = FALSE;
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_NPLANETS + SE_MC), planetInfo);
printf("MC........: %s (%f)\n", signName[planetInfo->sign], planetInfo->position);
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_SUN, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_SUN), planetInfo);
printf("Sun.......: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 2);
planetInfo = get_planet_info(SE_MOON, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_MOON), planetInfo);
phase = get_moon_phase(year, month, day, hour, min, sec);
printf("Moon......: %s (%.2f%% visibility), %s, House: %d (%f%s)\n", moonStateName[phase->phase], phase->visiblePercentage, signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 2);
g_free(phase);
planetInfo = get_planet_info(SE_MERCURY, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_MERCURY), planetInfo);
printf("Mercury...: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 2);
planetInfo = get_planet_info (SE_VENUS, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_VENUS), planetInfo);
printf("Venus.....: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_MARS, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_MARS), planetInfo);
printf("Mars......: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_JUPITER, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_JUPITER), planetInfo);
printf("Jupiter...: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_SATURN, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_SATURN), planetInfo);
printf("Saturn....: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_URANUS, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_URANUS), planetInfo);
printf("Uranus....: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_NEPTUNE, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_NEPTUNE), planetInfo);
printf("Neptune...: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_PLUTO, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_PLUTO), planetInfo);
printf("Pluto.....: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_CHIRON, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_CHIRON), planetInfo);
printf("Chiron....: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
planetInfo = get_planet_info(SE_MEAN_NODE, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_MEAN_NODE), planetInfo);
printf("North Node: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
INCREASE_POINTS(signDataTable, elementPointsTable, typePointsTable, signData, planetInfo->sign, point, 1);
planetInfo = get_planet_info(SE_MEAN_APOG, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_MEAN_APOG), planetInfo);
printf("Dark Moon.: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
planetInfo = get_planet_info(SE_CERES, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_CERES), planetInfo);
printf("Ceres.....: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
planetInfo = get_planet_info(SE_PALLAS, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_PALLAS), planetInfo);
printf("Pallas....: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
planetInfo = get_planet_info(SE_JUNO, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_JUNO), planetInfo);
printf("Juno......: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
planetInfo = get_planet_info(SE_VESTA, te, cusps);
g_hash_table_replace(planetInfoTable, GINT_TO_POINTER(SE_VESTA), planetInfo);
printf("Vesta.....: %s, House: %d (%f%s)\n", signName[planetInfo->sign], planetInfo->house, planetInfo->position, (planetInfo->retrograde) ? ", retrograde" : "");
printf("\nELEMENTS\n========\n\n");
point = g_hash_table_lookup(elementPointsTable, GINT_TO_POINTER(ELEMENT_FIRE));
printf("Fire.: %d\n", (point == NULL) ? 0 : *point);
point = g_hash_table_lookup(elementPointsTable, GINT_TO_POINTER(ELEMENT_EARTH));
printf("Earth: %d\n", (point == NULL) ? 0 : *point);
point = g_hash_table_lookup(elementPointsTable, GINT_TO_POINTER(ELEMENT_AIR));
printf("Air..: %d\n", (point == NULL) ? 0 : *point);
point = g_hash_table_lookup(elementPointsTable, GINT_TO_POINTER(ELEMENT_WATER));
printf("Water: %d\n", (point == NULL) ? 0 : *point);
printf("\nTYPES\n=====\n\n");
point = g_hash_table_lookup(typePointsTable, GINT_TO_POINTER(TYPE_CARDINAL));
printf("Cardinal: %d\n", (point == NULL) ? 0 : *point);
point = g_hash_table_lookup(typePointsTable, GINT_TO_POINTER(TYPE_FIX));
printf("Fix.....: %d\n", (point == NULL) ? 0 : *point);
point = g_hash_table_lookup(typePointsTable, GINT_TO_POINTER(TYPE_MUTABLE));
printf("Mutable.: %d\n", (point == NULL) ? 0 : *point);
printf("\nASPECTS\n=======\n\n");
planetIdList = g_hash_table_get_keys(planetInfoTable);
aspectCheckData.planetIdList = planetIdList;
aspectCheckData.currentOuterPlanetId = 0;
aspectCheckData.planetInfoTable = planetInfoTable;
aspectCheckData.planetDataTable = planetDataTable;
g_list_foreach(planetIdList, check_aspects_outer_loop, &aspectCheckData);
g_list_free(planetIdList);
g_hash_table_unref(planetInfoTable);
g_hash_table_unref(typePointsTable);
g_hash_table_unref(elementPointsTable);
g_hash_table_unref(planetDataTable);
g_hash_table_unref(signDataTable);
return OK;
}
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