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annotate V4/synastry.py @ 13:b253748dbb11

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developing V4 - Class based structure, with self calcuation of all aspects
author DaveM
date Sun, 04 Mar 2018 14:51:43 +0000
parents
children 50a95089414d
rev   line source
DaveM@13 1 import random
DaveM@13 2
DaveM@13 3 class Person:
DaveM@13 4 url = 'https://horoscopes.astro-seek.com/calculate-love-compatibility/'
DaveM@13 5 def __init__(self,personDict):
DaveM@13 6 # self. = planetPositions()
DaveM@13 7 self.id = personDict['ID']
DaveM@13 8 self.dob = personDict['DOB']
DaveM@13 9 self.tob = personDict['TOB']
DaveM@13 10 self.cob = personDict['COB']
DaveM@13 11 self.p_dob = personDict['pDOB']
DaveM@13 12 self.p_tob = personDict['pTOB']
DaveM@13 13 self.p_cob = personDict['pCOB']
DaveM@13 14 self.horiscope = None
DaveM@13 15
DaveM@13 16 def makePayload(self):
DaveM@13 17 if type(self.cob) is str:
DaveM@13 18 cob_0 = float(self.cob.split(',')[0][1:])
DaveM@13 19 cob_1 = float(self.cob.split(',')[1])
DaveM@13 20 self.cob = (cob_0,cob_1)
DaveM@13 21 if type(self.p_cob) is str:
DaveM@13 22 pcob_0 = float(self.p_cob.split(',')[0][1:])
DaveM@13 23 pcob_1 = float(self.p_cob.split(',')[1])
DaveM@13 24 self.p_cob = (pcob_0,pcob_1)
DaveM@13 25 if type(self.dob) is str:
DaveM@13 26 self.dob = self.dob[1:-1].split(',')
DaveM@13 27 if type(self.p_dob) is str:
DaveM@13 28 self.p_dob = self.p_dob[1:-1].split(',')
DaveM@13 29 if type(self.tob) is str:
DaveM@13 30 self.tob = self.tob[1:-1].split(',')
DaveM@13 31 if type(self.p_tob) is str:
DaveM@13 32 self.p_tob = self.p_tob[1:-1].split(',')
DaveM@13 33 # pdb.set_trace()
DaveM@13 34
DaveM@13 35 # print dataDict['pDOB']
DaveM@13 36
DaveM@13 37 self.payload = {'send_calculation':'1', #Req
DaveM@13 38 'muz_narozeni_den':self.dob[0],
DaveM@13 39 'muz_narozeni_mesic':self.dob[1],
DaveM@13 40 'muz_narozeni_rok':self.dob[2],
DaveM@13 41 'muz_narozeni_hodina':self.tob[0],
DaveM@13 42 'muz_narozeni_minuta':self.tob[1],
DaveM@13 43 'muz_narozeni_city':'',
DaveM@13 44 'muz_narozeni_mesto_hidden':'Manually+place%3A+%C2%B0%27N%2C+%C2%B0%27E',#auto
DaveM@13 45 'muz_narozeni_stat_hidden':'XX',
DaveM@13 46 'muz_narozeni_podstat_kratky_hidden':'',
DaveM@13 47 'muz_narozeni_podstat_hidden':'',
DaveM@13 48 'muz_narozeni_podstat2_kratky_hidden':'',
DaveM@13 49 'muz_narozeni_podstat3_kratky_hidden':'',
DaveM@13 50 'muz_narozeni_input_hidden':'',
DaveM@13 51 'muz_narozeni_sirka_stupne':str(abs(self.cob[0])).split('.')[0],
DaveM@13 52 'muz_narozeni_sirka_minuty':str(float('0.'+str(self.cob[0]).split('.')[1])*60).split('.')[0],
DaveM@13 53 'muz_narozeni_sirka_smer': '1' if self.cob[0]<0 else '0', #address N Dir (0':'N',1':'S)
DaveM@13 54 'muz_narozeni_delka_stupne':str(abs(self.cob[1])).split('.')[0], #address E - Main
DaveM@13 55 'muz_narozeni_delka_minuty':str(float('0.'+str(self.cob[1]).split('.')[1])*60).split('.')[0],
DaveM@13 56 'muz_narozeni_delka_smer': '1' if self.cob[1]<0 else '0', #address E Dir (0':'E',1':'W)
DaveM@13 57 'muz_narozeni_timezone_form':'auto',
DaveM@13 58 'muz_narozeni_timezone_dst_form':'auto',
DaveM@13 59 'send_calculation':'1',
DaveM@13 60 'zena_narozeni_den':self.p_dob[0],
DaveM@13 61 'zena_narozeni_mesic':self.p_dob[1],
DaveM@13 62 'zena_narozeni_rok':self.p_dob[2],
DaveM@13 63 'zena_narozeni_hodina':self.p_tob[0],
DaveM@13 64 'zena_narozeni_minuta':self.p_tob[1],
DaveM@13 65 'zena_narozeni_city':'',
DaveM@13 66 'zena_narozeni_mesto_hidden':'Manually+place%3A+%C2%B0%27N%2C+%C2%B0%27E',
DaveM@13 67 'zena_narozeni_stat_hidden':'XX',
DaveM@13 68 'zena_narozeni_podstat_kratky_hidden':'',
DaveM@13 69 'zena_narozeni_podstat_hidden':'',
DaveM@13 70 'zena_narozeni_podstat2_kratky_hidden':'',
DaveM@13 71 'zena_narozeni_podstat3_kratky_hidden':'',
DaveM@13 72 'zena_narozeni_input_hidden':'',
DaveM@13 73 'zena_narozeni_sirka_stupne':str(abs(self.p_cob[0])).split('.')[0],
DaveM@13 74 'zena_narozeni_sirka_minuty':str(float('0.'+str(self.p_cob[0]).split('.')[1])*60).split('.')[0],
DaveM@13 75 'zena_narozeni_sirka_smer': '1' if self.p_cob[0]<0 else '0',
DaveM@13 76 'zena_narozeni_delka_stupne':str(abs(self.p_cob[1])).split('.')[0],
DaveM@13 77 'zena_narozeni_delka_minuty':str(float('0.'+str(self.p_cob[1]).split('.')[1])*60).split('.')[0],
DaveM@13 78 'zena_narozeni_delka_smer': '1' if self.p_cob[1]<0 else '0',
DaveM@13 79 'zena_narozeni_timezone_form':'auto',
DaveM@13 80 'zena_narozeni_timezone_dst_form':'auto',
DaveM@13 81 'switch_interpretations':'0',
DaveM@13 82 'house_system':'placidus',
DaveM@13 83 'uhel_orbis':'#tabs_redraw'}
DaveM@13 84 # return R
DaveM@13 85
DaveM@13 86
DaveM@13 87 class planetRelation:
DaveM@13 88 def __init__(self,planetName):
DaveM@13 89 self.name = planetName
DaveM@13 90 self.angleA = None
DaveM@13 91 self.angleB = None
DaveM@13 92
DaveM@13 93 def setLocation(self,A,B):
DaveM@13 94 self.angleA = '.'.join(A.encode('ascii','replace').split('?'))[:-1]
DaveM@13 95 self.angleB = '.'.join(B.encode('ascii','replace').split('?'))[:-1]
DaveM@13 96
DaveM@13 97
DaveM@13 98 def test_random(self):
DaveM@13 99 self.angleA = random.random()*360
DaveM@13 100 self.angleB = random.random()*360
DaveM@13 101
DaveM@13 102
DaveM@13 103 class planetPositions:
DaveM@13 104 aspectDict = {'conjunct':0,'semi-square':45,'sextile':60,'square':90,'trine':120,'opposite':180}
DaveM@13 105 planetNames = ['sun','moon','mercury','venus','mars','jupiter','saturn','uranus','neptune','pluto','node','lilith','chiron','asc','ic','dsc','mc','asc_mc','sun_moon']
DaveM@13 106 def __init__(self):
DaveM@13 107 self.planets = {}
DaveM@13 108 for i in range(len(planetPositions.planetNames)):
DaveM@13 109 self.planets[planetPositions.planetNames[i]] = planetRelation(planetPositions.planetNames[i])
DaveM@13 110 self.aspect = {}
DaveM@13 111
DaveM@13 112 def test_random(self):
DaveM@13 113 for planet in self.planets:
DaveM@13 114 self.planets[planet].test_random()
DaveM@13 115
DaveM@13 116 def calcAngle(self,componentA,componentB):
DaveM@13 117 self.angle = max(self.planets[componentA].angleA,self.planets[componentB].angleB) - min(self.planets[componentA].angleA,self.planets[componentB].angleB)
DaveM@13 118 self.angleRange = self.angle-10,self.angle+10
DaveM@13 119
DaveM@13 120 def calcAspect(self,componentA,componentB):
DaveM@13 121 self.calcAngle(componentA,componentB)
DaveM@13 122 for aspect in planetPositions.aspectDict:
DaveM@13 123 if self.angleRange[0] < planetPositions.aspectDict[aspect] and self.angleRange[1] > planetPositions.aspectDict[aspect]:
DaveM@13 124 self.aspect[componentA,componentB] = aspect
DaveM@13 125 return aspect
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