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ci.py
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ci.py
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#!/usr/bin/python
import os
import sys
import math
import swisseph as swe
cibodies = []
cihouses = []
ciascmcs = []
ciaspects = []
ciresults = {}
bnames = ["Sun", "Moon", "Mercury", "Venus", "Mars", "Jupiter", "Saturn",
"Uranus", "Neptune", "Pluto", "MeanNode", "TrueNode", "MeanApogee",
"OscuApogee", "Earth", "Chiron", "Pholus", "Ceres", "Pallas", "Juno", "Vesta",
"InterpretedApogee", "InterpretedPerigee", "MeanSouthNode", "TrueSouthNode"]
hnames = ["I", "II", "III", "IV", "V", "VI", "VII", "VIII", "IX", "X", "XI",
"XII", "XIII", "XIV", "XV", "XVI", "XVII", "XVIII", "XIX", "XX", "XXI", "XXII",
"XXIII", "XXIV", "XXV", "XXVI", "XXVII", "XXVIII", "XXIX", "XXX", "XXXI",
"XXXII", "XXXIII", "XXXIV", "XXXV", "XXXVI"]
anames = ["Ascendant", "MC", "ARMC", "Vertex", "EquatorialAscendant",
"Co-Ascendant1", "Co-Ascendant2", "PolarAscendant", "NASCMC"]
snames = ["Aries", "Taurus", "Gemini", "Cancer", "Leo", "Virgo", "Libra",
"Scorpio", "Sagittarius", "Capricorn", "Aquarius", "Pisces"]
def sanitize(deg):
if deg > 360:
return deg - 360
elif deg < 0:
return deg + 360
else:
return deg
def cmp_bodies(b1, b2):
if b1["degree_ut"] > b2["degree_ut"]:
return 1
elif b1["degree_ut"] == b2["degree_ut"]:
return 0
else:
return -1
def test_aspect(body1, body2, deg1, deg2, delta, orb, type):
if ((deg1 > (deg2 + delta - orb) and deg1 < (deg2 + delta + orb)) or
(deg1 > (deg2 - delta - orb) and deg1 < (deg2 - delta + orb)) or
(deg1 > (deg2 + 360 + delta - orb) and deg1 < (deg2 + 360 + delta + orb)) or
(deg1 > (deg2 - 360 + delta - orb) and deg1 < (deg2 - 360 + delta + orb)) or
(deg1 > (deg2 + 360 - delta - orb) and deg1 < (deg2 + 360 - delta + orb)) or
(deg1 > (deg2 - 360 - delta - orb) and deg1 < (deg2 - 360 - delta + orb))):
if (deg1 > deg2):
aspect(body1, body2, deg1, deg2, type)
def aspect(body1, body2, deg1, deg2, type):
aspect = { "name" : type,
"body1" : body1['name'],
"body2" : body2['name'],
"degree1" : deg1,
"degree2" : deg2 }
ciaspects.append(aspect)
def getinfo(lat=0.0, lon=0.0, year=1970, month=1, day=1, time=0.0, hsys='E', display=range(23)):
swe.set_ephe_path('ephe')
julday = swe.julday(year, month, day, time)
geo = swe.set_topo(lon, lat, 0)
houses, ascmc = swe.houses(julday, lat, lon, hsys)
for body in range(25):
if str(body) in display:
if body == 23:
result = swe.calc_ut(julday, 10)
degree_ut = sanitize(result[0] + 180);
retrograde = bool(result[3] > 0)
elif body == 24:
result = swe.calc_ut(julday, 11)
degree_ut = sanitize(result[0] + 180);
retrograde = bool(result[3] > 0)
else:
result = swe.calc_ut(julday, body)
degree_ut = result[0];
retrograde = bool(result[3] < 0)
for sign in range(12):
deg_low = float(sign * 30)
deg_high = float((sign + 1) * 30)
if (degree_ut >= deg_low and degree_ut <= deg_high):
cibody = { "id" : body,
"name" : bnames[body],
"sign" : sign,
"sign_name" : snames[sign],
"degree" : degree_ut - deg_low,
"degree_ut" : degree_ut,
"retrograde" : retrograde }
cibodies.append(cibody)
for index, degree_ut in enumerate(houses):
for sign in range(12):
deg_low = float(sign * 30)
deg_high = float((sign + 1) * 30)
if (degree_ut >= deg_low and degree_ut <= deg_high):
cihouse = { "id" : index + 1,
"number" : hnames[index],
"name" : "House",
"sign" : sign,
"sign_name" : snames[sign],
"degree" : degree_ut - deg_low,
"degree_ut" : degree_ut }
cihouses.append(cihouse)
for index, degree_ut in enumerate(ascmc):
for sign in range(12):
deg_low = float(sign * 30)
deg_high = float((sign + 1) * 30)
if (degree_ut >= deg_low and degree_ut <= deg_high):
ciascmc = { "id" : index + 1,
"name" : anames[index],
"sign" : sign,
"sign_name" : snames[sign],
"degree" : degree_ut - deg_low,
"degree_ut" : degree_ut }
ciascmcs.append(ciascmc)
for body1 in cibodies:
deg1 = body1["degree_ut"] - ciascmcs[0]["degree_ut"] + 180
for body2 in cibodies:
deg2 = body2["degree_ut"] - ciascmcs[0]["degree_ut"] + 180
test_aspect(body1, body2, deg1, deg2, 180, 10, "Opposition")
test_aspect(body1, body2, deg1, deg2, 150, 2, "Quincunx")
test_aspect(body1, body2, deg1, deg2, 120, 8, "Trine")
test_aspect(body1, body2, deg1, deg2, 90, 6, "Square")
test_aspect(body1, body2, deg1, deg2, 60, 4, "Sextile")
test_aspect(body1, body2, deg1, deg2, 30, 1, "Semi-sextile")
test_aspect(body1, body2, deg1, deg2, 0, 10, "Conjunction")
swe.close()
cibodies.sort(cmp_bodies)
old_deg = -1000.
dist = 0
for body in cibodies:
deg = body["degree_ut"] - ciascmcs[0]["degree_ut"] + 180
dist = dist + 1 if math.fabs(old_deg - deg) < 5 else 0
body["dist"] = dist
old_deg = deg
ciresults = {
"bodies" : cibodies,
"houses" : cihouses,
"ascmcs" : ciascmcs,
"aspects" : ciaspects,
}
return ciresults