Exemple #1
0
 def cmp(self, x, y):
     t1 = swe.difdeg2n(x, self.center)
     t2 = swe.difdeg2n(y, self.center)
     if t1 > t2:
         return 1
     elif t1 < t2:
         return -1
     else:
         return 0
Exemple #2
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 def calc_center(self):
     tmp = 0
     for p1 in self[:-1]:
         for p2 in self[1:]:
             dist = abs(swe.difdeg2n(p1, p2))
             if dist >= tmp:
                 maxw = (p1, p2)
                 tmp = dist
     self.center = swe.deg_midp(*maxw)
    def synastry_aspect(self, user1, pl_us1, user2, pl_us2):
        """ 
        Calculates the aspects between the 2 users.
        Args: first user object, first list of planets and houses,
        second user objcet, second list of planets and houses. 
        """

        distance = abs(
            swe.difdeg2n(self.pl_ho_info1[pl_us1]["abs_pos"],
                         self.pl_ho_info2[pl_us2]["abs_pos"]))
        if int(distance) <= 10:
            aspect = "Conjuction"
            return True, aspect, distance
        elif 172 <= int(distance) <= 188:
            aspect = "Oposition"
            return True, aspect, distance - 180
        elif 85 <= int(distance) <= 95:
            aspect = "Square"
            return True, aspect, distance - 90
        elif 113 <= int(distance) <= 127:
            aspect = "Trigon"
            return True, aspect, distance - 120
        elif 57 <= int(distance) <= 63:
            aspect = "Sextil"
            return True, aspect, distance - 60
        elif 28 <= int(distance) <= 32:
            aspect = "Semisextil"
            return True, aspect, distance - 30
        elif 43 <= int(distance) <= 47:
            aspect = "Semisquare"
            return True, aspect, distance - 45
        elif 133 <= int(distance) <= 137:
            aspect = "Sesquiquadrate"
            return True, aspect, distance - 135
        elif 149 <= int(distance) <= 151:
            aspect = "Quincunx"
            return True, aspect, distance - 150
        elif 71.5 <= int(distance) <= 72.5:
            aspect = "Quintile"
            return True, aspect, distance - 72
        elif 143.5 <= int(distance) <= 144.5:
            aspect = "BiQuintile"
            return True, aspect, distance - 144
        elif (self.pl_ho_info1[pl_us1]["name"] == "Sun"
              and self.pl_ho_info2[pl_us2]["name"] == "Sun"
              and self.pl_ho_info1[pl_us1]["quality"]
              == self.pl_ho_info2[pl_us2]["quality"]):
            aspect = "DESTINO"
            return False, aspect, distance
        else:
            return False, None, None
Exemple #4
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	def draw_houses(self):
		"""Draw houses glyphs."""
		cuspsdir = os.path.join(_baseDir, 'icons', 'cusps', _cuspsDir)
		if self._chart[0].filter._hsys != 'G': ## traditional houses
			houses = self._chart[0]._houses[:12]
			for i in range(12):
				im = QImage(os.path.join(cuspsdir, 'cusp_%.2d.png' % (i+1)))
				diff = swe.difdeg2n(houses[i]._longitude,
					houses[i-11]._longitude) / 2.0
				a = self._vernalAng - (houses[i]._longitude - diff)
				x, y = _getPointAt(a, 87, 5, 5)
				target = QRect(x, y, 10, 10)
				self.drawImage(target, im, _iconRect)
		else: ## Gauquelin sectors
			houses = self._chart[0]._houses[:36]
			for i in range(36):
				im = QImage(os.path.join(cuspsdir, 'sector_%.2d.png' % (i+1)))
				diff = swe.difdeg2n(houses[i]._longitude,
					houses[i-35]._longitude) / 2.0
				a = self._vernalAng - (houses[i]._longitude - diff)
				x, y = _getPointAt(a, 87, 5, 5)
				target = QRect(x, y, 10, 10)
				self.drawImage(target, im, _iconRect)
Exemple #5
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 def draw_houses(self):
     """Draw houses glyphs."""
     cuspsdir = os.path.join(_baseDir, 'icons', 'cusps', _cuspsDir)
     if self._chart[0].filter._hsys != 'G':  ## traditional houses
         houses = self._chart[0]._houses[:12]
         for i in range(12):
             im = QImage(os.path.join(cuspsdir, 'cusp_%.2d.png' % (i + 1)))
             diff = swe.difdeg2n(houses[i]._longitude,
                                 houses[i - 11]._longitude) / 2.0
             a = self._vernalAng - (houses[i]._longitude - diff)
             x, y = _getPointAt(a, 87, 5, 5)
             target = QRect(x, y, 10, 10)
             self.drawImage(target, im, _iconRect)
     else:  ## Gauquelin sectors
         houses = self._chart[0]._houses[:36]
         for i in range(36):
             im = QImage(os.path.join(cuspsdir,
                                      'sector_%.2d.png' % (i + 1)))
             diff = swe.difdeg2n(houses[i]._longitude,
                                 houses[i - 35]._longitude) / 2.0
             a = self._vernalAng - (houses[i]._longitude - diff)
             x, y = _getPointAt(a, 87, 5, 5)
             target = QRect(x, y, 10, 10)
             self.drawImage(target, im, _iconRect)
Exemple #6
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    def asp_calc(self, point_one, point_two):
        """ 
        Calculates the aspects between the 2 points.
        Args: first point, second point. 
        """

        distance = abs(swe.difdeg2n(point_one, point_two))
        if int(distance) <= 10:
            aspect = "Conjuction"
            aid = 0
            color = "#7FFF00"
            return True, aspect, distance, aid, color
        elif 172 <= int(distance) <= 188:
            aspect = "Oposition"
            aid = 180
            color = "#ff0000"
            return True, aspect, distance - 180, aid, color
        elif 85 <= int(distance) <= 95:
            aspect = "Square"
            aid = 90
            color = "#ff0000"
            return True, aspect, distance - 90, aid, color
        elif 113 <= int(distance) <= 127:
            aspect = "Trigon"
            aid = 120
            color = "#7FFF00"
            return True, aspect, distance - 120, aid, color
        elif 57 <= int(distance) <= 63:
            aspect = "Sextil"
            aid = 60
            color = "#7FFF00"
            return True, aspect, distance - 60, aid, color
        elif 28 <= int(distance) <= 32:
            aspect = "Semisextil"
            aid = 30
            color = "#7FFF00"
            return True, aspect, distance - 30, aid, color
        elif 43 <= int(distance) <= 47:
            aspect = "Semisquare"
            aid = 45
            color = "#ff0000"
            return True, aspect, distance - 45, aid, color
        elif 133 <= int(distance) <= 137:
            aspect = "Sesquiquadrate"
            aid = 135
            color = "#ff0000"
            return True, aspect, distance - 135, aid, color
        elif 149 <= int(distance) <= 151:
            aspect = "Quincunx"
            aid = 150
            color = "#505050"
            return True, aspect, distance - 150, aid, color
        elif 71.5 <= int(distance) <= 72.5:
            aspect = "Quintile"
            aid = 72
            color = "#505050"
            return True, aspect, distance - 72, aid, color
        elif 143.5 <= int(distance) <= 144.5:
            aspect = "BiQuintile"
            aid = 144
            color = "#505050"
            return True, aspect, distance - 144, aid, color
        else:
            return False, None, None, None, None