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flatangle/flatlib
flatlib/predictives/primarydirections.py
arc
def arc(pRA, pDecl, sRA, sDecl, mcRA, lat): """ Returns the arc of direction between a Promissor and Significator. It uses the generic proportional semi-arc method. """ pDArc, pNArc = utils.dnarcs(pDecl, lat) sDArc, sNArc = utils.dnarcs(sDecl, lat) # Select meridian and arcs to be used # Default is MC and Diurnal arcs mdRA = mcRA sArc = sDArc pArc = pDArc if not utils.isAboveHorizon(sRA, sDecl, mcRA, lat): # Use IC and Nocturnal arcs mdRA = angle.norm(mcRA + 180) sArc = sNArc pArc = pNArc # Promissor and Significator distance to meridian pDist = angle.closestdistance(mdRA, pRA) sDist = angle.closestdistance(mdRA, sRA) # Promissor should be after significator (in degrees) if pDist < sDist: pDist += 360 # Meridian distances proportional to respective semi-arcs sPropDist = sDist / (sArc / 2.0) pPropDist = pDist / (pArc / 2.0) # The arc is how much of the promissor's semi-arc is # needed to reach the significator return (pPropDist - sPropDist) * (pArc / 2.0)
python
def arc(pRA, pDecl, sRA, sDecl, mcRA, lat): """ Returns the arc of direction between a Promissor and Significator. It uses the generic proportional semi-arc method. """ pDArc, pNArc = utils.dnarcs(pDecl, lat) sDArc, sNArc = utils.dnarcs(sDecl, lat) # Select meridian and arcs to be used # Default is MC and Diurnal arcs mdRA = mcRA sArc = sDArc pArc = pDArc if not utils.isAboveHorizon(sRA, sDecl, mcRA, lat): # Use IC and Nocturnal arcs mdRA = angle.norm(mcRA + 180) sArc = sNArc pArc = pNArc # Promissor and Significator distance to meridian pDist = angle.closestdistance(mdRA, pRA) sDist = angle.closestdistance(mdRA, sRA) # Promissor should be after significator (in degrees) if pDist < sDist: pDist += 360 # Meridian distances proportional to respective semi-arcs sPropDist = sDist / (sArc / 2.0) pPropDist = pDist / (pArc / 2.0) # The arc is how much of the promissor's semi-arc is # needed to reach the significator return (pPropDist - sPropDist) * (pArc / 2.0)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L25-L59
flatangle/flatlib
flatlib/predictives/primarydirections.py
getArc
def getArc(prom, sig, mc, pos, zerolat): """ Returns the arc of direction between a promissor and a significator. Arguments are also the MC, the geoposition and zerolat to assume zero ecliptical latitudes. ZeroLat true => inZodiaco, false => inMundo """ pRA, pDecl = prom.eqCoords(zerolat) sRa, sDecl = sig.eqCoords(zerolat) mcRa, mcDecl = mc.eqCoords() return arc(pRA, pDecl, sRa, sDecl, mcRa, pos.lat)
python
def getArc(prom, sig, mc, pos, zerolat): """ Returns the arc of direction between a promissor and a significator. Arguments are also the MC, the geoposition and zerolat to assume zero ecliptical latitudes. ZeroLat true => inZodiaco, false => inMundo """ pRA, pDecl = prom.eqCoords(zerolat) sRa, sDecl = sig.eqCoords(zerolat) mcRa, mcDecl = mc.eqCoords() return arc(pRA, pDecl, sRa, sDecl, mcRa, pos.lat)
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Returns the arc of direction between a promissor and a significator. Arguments are also the MC, the geoposition and zerolat to assume zero ecliptical latitudes. ZeroLat true => inZodiaco, false => inMundo
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L61-L73
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections._buildTerms
def _buildTerms(self): """ Builds a data structure indexing the terms longitude by sign and object. """ termLons = tables.termLons(tables.EGYPTIAN_TERMS) res = {} for (ID, sign, lon) in termLons: try: res[sign][ID] = lon except KeyError: res[sign] = {} res[sign][ID] = lon return res
python
def _buildTerms(self): """ Builds a data structure indexing the terms longitude by sign and object. """ termLons = tables.termLons(tables.EGYPTIAN_TERMS) res = {} for (ID, sign, lon) in termLons: try: res[sign][ID] = lon except KeyError: res[sign] = {} res[sign][ID] = lon return res
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L118-L131
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections.G
def G(self, ID, lat, lon): """ Creates a generic entry for an object. """ # Equatorial coordinates eqM = utils.eqCoords(lon, lat) eqZ = eqM if lat != 0: eqZ = utils.eqCoords(lon, 0) return { 'id': ID, 'lat': lat, 'lon': lon, 'ra': eqM[0], 'decl': eqM[1], 'raZ': eqZ[0], 'declZ': eqZ[1], }
python
def G(self, ID, lat, lon): """ Creates a generic entry for an object. """ # Equatorial coordinates eqM = utils.eqCoords(lon, lat) eqZ = eqM if lat != 0: eqZ = utils.eqCoords(lon, 0) return { 'id': ID, 'lat': lat, 'lon': lon, 'ra': eqM[0], 'decl': eqM[1], 'raZ': eqZ[0], 'declZ': eqZ[1], }
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L136-L153
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections.T
def T(self, ID, sign): """ Returns the term of an object in a sign. """ lon = self.terms[sign][ID] ID = 'T_%s_%s' % (ID, sign) return self.G(ID, 0, lon)
python
def T(self, ID, sign): """ Returns the term of an object in a sign. """ lon = self.terms[sign][ID] ID = 'T_%s_%s' % (ID, sign) return self.G(ID, 0, lon)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L155-L159
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections.A
def A(self, ID): """ Returns the Antiscia of an object. """ obj = self.chart.getObject(ID).antiscia() ID = 'A_%s' % (ID) return self.G(ID, obj.lat, obj.lon)
python
def A(self, ID): """ Returns the Antiscia of an object. """ obj = self.chart.getObject(ID).antiscia() ID = 'A_%s' % (ID) return self.G(ID, obj.lat, obj.lon)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L161-L165
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections.C
def C(self, ID): """ Returns the CAntiscia of an object. """ obj = self.chart.getObject(ID).cantiscia() ID = 'C_%s' % (ID) return self.G(ID, obj.lat, obj.lon)
python
def C(self, ID): """ Returns the CAntiscia of an object. """ obj = self.chart.getObject(ID).cantiscia() ID = 'C_%s' % (ID) return self.G(ID, obj.lat, obj.lon)
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Returns the CAntiscia of an object.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L167-L171
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections.D
def D(self, ID, asp): """ Returns the dexter aspect of an object. """ obj = self.chart.getObject(ID).copy() obj.relocate(obj.lon - asp) ID = 'D_%s_%s' % (ID, asp) return self.G(ID, obj.lat, obj.lon)
python
def D(self, ID, asp): """ Returns the dexter aspect of an object. """ obj = self.chart.getObject(ID).copy() obj.relocate(obj.lon - asp) ID = 'D_%s_%s' % (ID, asp) return self.G(ID, obj.lat, obj.lon)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L173-L178
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections.N
def N(self, ID, asp=0): """ Returns the conjunction or opposition aspect of an object. """ obj = self.chart.get(ID).copy() obj.relocate(obj.lon + asp) ID = 'N_%s_%s' % (ID, asp) return self.G(ID, obj.lat, obj.lon)
python
def N(self, ID, asp=0): """ Returns the conjunction or opposition aspect of an object. """ obj = self.chart.get(ID).copy() obj.relocate(obj.lon + asp) ID = 'N_%s_%s' % (ID, asp) return self.G(ID, obj.lat, obj.lon)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L187-L195
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections._arc
def _arc(self, prom, sig): """ Computes the in-zodiaco and in-mundo arcs between a promissor and a significator. """ arcm = arc(prom['ra'], prom['decl'], sig['ra'], sig['decl'], self.mcRA, self.lat) arcz = arc(prom['raZ'], prom['declZ'], sig['raZ'], sig['declZ'], self.mcRA, self.lat) return { 'arcm': arcm, 'arcz': arcz }
python
def _arc(self, prom, sig): """ Computes the in-zodiaco and in-mundo arcs between a promissor and a significator. """ arcm = arc(prom['ra'], prom['decl'], sig['ra'], sig['decl'], self.mcRA, self.lat) arcz = arc(prom['raZ'], prom['declZ'], sig['raZ'], sig['declZ'], self.mcRA, self.lat) return { 'arcm': arcm, 'arcz': arcz }
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https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L200-L214
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections.getArc
def getArc(self, prom, sig): """ Returns the arcs between a promissor and a significator. Should uses the object creation functions to build the objects. """ res = self._arc(prom, sig) res.update({ 'prom': prom['id'], 'sig': sig['id'] }) return res
python
def getArc(self, prom, sig): """ Returns the arcs between a promissor and a significator. Should uses the object creation functions to build the objects. """ res = self._arc(prom, sig) res.update({ 'prom': prom['id'], 'sig': sig['id'] }) return res
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flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections._elements
def _elements(self, IDs, func, aspList): """ Returns the IDs as objects considering the aspList and the function. """ res = [] for asp in aspList: if (asp in [0, 180]): # Generate func for conjunctions and oppositions if func == self.N: res.extend([func(ID, asp) for ID in IDs]) else: res.extend([func(ID) for ID in IDs]) else: # Generate Dexter and Sinister for others res.extend([self.D(ID, asp) for ID in IDs]) res.extend([self.S(ID, asp) for ID in IDs]) return res
python
def _elements(self, IDs, func, aspList): """ Returns the IDs as objects considering the aspList and the function. """ res = [] for asp in aspList: if (asp in [0, 180]): # Generate func for conjunctions and oppositions if func == self.N: res.extend([func(ID, asp) for ID in IDs]) else: res.extend([func(ID) for ID in IDs]) else: # Generate Dexter and Sinister for others res.extend([self.D(ID, asp) for ID in IDs]) res.extend([self.S(ID, asp) for ID in IDs]) return res
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train
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flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections._terms
def _terms(self): """ Returns a list with the objects as terms. """ res = [] for sign, terms in self.terms.items(): for ID, lon in terms.items(): res.append(self.T(ID, sign)) return res
python
def _terms(self): """ Returns a list with the objects as terms. """ res = [] for sign, terms in self.terms.items(): for ID, lon in terms.items(): res.append(self.T(ID, sign)) return res
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L251-L257
flatangle/flatlib
flatlib/predictives/primarydirections.py
PrimaryDirections.getList
def getList(self, aspList): """ Returns a sorted list with all primary directions. """ # Significators objects = self._elements(self.SIG_OBJECTS, self.N, [0]) houses = self._elements(self.SIG_HOUSES, self.N, [0]) angles = self._elements(self.SIG_ANGLES, self.N, [0]) significators = objects + houses + angles # Promissors objects = self._elements(self.SIG_OBJECTS, self.N, aspList) terms = self._terms() antiscias = self._elements(self.SIG_OBJECTS, self.A, [0]) cantiscias = self._elements(self.SIG_OBJECTS, self.C, [0]) promissors = objects + terms + antiscias + cantiscias # Compute all res = [] for prom in promissors: for sig in significators: if (prom['id'] == sig['id']): continue arcs = self._arc(prom, sig) for (x,y) in [('arcm', 'M'), ('arcz', 'Z')]: arc = arcs[x] if 0 < arc < self.MAX_ARC: res.append([ arcs[x], prom['id'], sig['id'], y, ]) return sorted(res)
python
def getList(self, aspList): """ Returns a sorted list with all primary directions. """ # Significators objects = self._elements(self.SIG_OBJECTS, self.N, [0]) houses = self._elements(self.SIG_HOUSES, self.N, [0]) angles = self._elements(self.SIG_ANGLES, self.N, [0]) significators = objects + houses + angles # Promissors objects = self._elements(self.SIG_OBJECTS, self.N, aspList) terms = self._terms() antiscias = self._elements(self.SIG_OBJECTS, self.A, [0]) cantiscias = self._elements(self.SIG_OBJECTS, self.C, [0]) promissors = objects + terms + antiscias + cantiscias # Compute all res = [] for prom in promissors: for sig in significators: if (prom['id'] == sig['id']): continue arcs = self._arc(prom, sig) for (x,y) in [('arcm', 'M'), ('arcz', 'Z')]: arc = arcs[x] if 0 < arc < self.MAX_ARC: res.append([ arcs[x], prom['id'], sig['id'], y, ]) return sorted(res)
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train
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flatangle/flatlib
flatlib/predictives/primarydirections.py
PDTable.view
def view(self, arcmin, arcmax): """ Returns the directions within the min and max arcs. """ res = [] for direction in self.table: if arcmin < direction[0] < arcmax: res.append(direction) return res
python
def view(self, arcmin, arcmax): """ Returns the directions within the min and max arcs. """ res = [] for direction in self.table: if arcmin < direction[0] < arcmax: res.append(direction) return res
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L311-L320
flatangle/flatlib
flatlib/predictives/primarydirections.py
PDTable.bySignificator
def bySignificator(self, ID): """ Returns all directions to a significator. """ res = [] for direction in self.table: if ID in direction[2]: res.append(direction) return res
python
def bySignificator(self, ID): """ Returns all directions to a significator. """ res = [] for direction in self.table: if ID in direction[2]: res.append(direction) return res
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Returns all directions to a significator.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L322-L328
flatangle/flatlib
flatlib/predictives/primarydirections.py
PDTable.byPromissor
def byPromissor(self, ID): """ Returns all directions to a promissor. """ res = [] for direction in self.table: if ID in direction[1]: res.append(direction) return res
python
def byPromissor(self, ID): """ Returns all directions to a promissor. """ res = [] for direction in self.table: if ID in direction[1]: res.append(direction) return res
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/primarydirections.py#L330-L336
flatangle/flatlib
flatlib/chart.py
Chart.copy
def copy(self): """ Returns a deep copy of this chart. """ chart = Chart.__new__(Chart) chart.date = self.date chart.pos = self.pos chart.hsys = self.hsys chart.objects = self.objects.copy() chart.houses = self.houses.copy() chart.angles = self.angles.copy() return chart
python
def copy(self): """ Returns a deep copy of this chart. """ chart = Chart.__new__(Chart) chart.date = self.date chart.pos = self.pos chart.hsys = self.hsys chart.objects = self.objects.copy() chart.houses = self.houses.copy() chart.angles = self.angles.copy() return chart
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train
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flatangle/flatlib
flatlib/chart.py
Chart.get
def get(self, ID): """ Returns an object, house or angle from the chart. """ if ID.startswith('House'): return self.getHouse(ID) elif ID in const.LIST_ANGLES: return self.getAngle(ID) else: return self.getObject(ID)
python
def get(self, ID): """ Returns an object, house or angle from the chart. """ if ID.startswith('House'): return self.getHouse(ID) elif ID in const.LIST_ANGLES: return self.getAngle(ID) else: return self.getObject(ID)
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train
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flatangle/flatlib
flatlib/chart.py
Chart.getFixedStars
def getFixedStars(self): """ Returns a list with all fixed stars. """ IDs = const.LIST_FIXED_STARS return ephem.getFixedStarList(IDs, self.date)
python
def getFixedStars(self): """ Returns a list with all fixed stars. """ IDs = const.LIST_FIXED_STARS return ephem.getFixedStarList(IDs, self.date)
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Returns a list with all fixed stars.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/chart.py#L105-L108
flatangle/flatlib
flatlib/chart.py
Chart.isHouse1Asc
def isHouse1Asc(self): """ Returns true if House1 is the same as the Asc. """ house1 = self.getHouse(const.HOUSE1) asc = self.getAngle(const.ASC) dist = angle.closestdistance(house1.lon, asc.lon) return abs(dist) < 0.0003
python
def isHouse1Asc(self): """ Returns true if House1 is the same as the Asc. """ house1 = self.getHouse(const.HOUSE1) asc = self.getAngle(const.ASC) dist = angle.closestdistance(house1.lon, asc.lon) return abs(dist) < 0.0003
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Returns true if House1 is the same as the Asc.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/chart.py#L113-L118
flatangle/flatlib
flatlib/chart.py
Chart.isHouse10MC
def isHouse10MC(self): """ Returns true if House10 is the same as the MC. """ house10 = self.getHouse(const.HOUSE10) mc = self.getAngle(const.MC) dist = angle.closestdistance(house10.lon, mc.lon) return abs(dist) < 0.0003
python
def isHouse10MC(self): """ Returns true if House10 is the same as the MC. """ house10 = self.getHouse(const.HOUSE10) mc = self.getAngle(const.MC) dist = angle.closestdistance(house10.lon, mc.lon) return abs(dist) < 0.0003
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Returns true if House10 is the same as the MC.
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train
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flatangle/flatlib
flatlib/chart.py
Chart.isDiurnal
def isDiurnal(self): """ Returns true if this chart is diurnal. """ sun = self.getObject(const.SUN) mc = self.getAngle(const.MC) # Get ecliptical positions and check if the # sun is above the horizon. lat = self.pos.lat sunRA, sunDecl = utils.eqCoords(sun.lon, sun.lat) mcRA, mcDecl = utils.eqCoords(mc.lon, 0) return utils.isAboveHorizon(sunRA, sunDecl, mcRA, lat)
python
def isDiurnal(self): """ Returns true if this chart is diurnal. """ sun = self.getObject(const.SUN) mc = self.getAngle(const.MC) # Get ecliptical positions and check if the # sun is above the horizon. lat = self.pos.lat sunRA, sunDecl = utils.eqCoords(sun.lon, sun.lat) mcRA, mcDecl = utils.eqCoords(mc.lon, 0) return utils.isAboveHorizon(sunRA, sunDecl, mcRA, lat)
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train
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flatangle/flatlib
flatlib/chart.py
Chart.getMoonPhase
def getMoonPhase(self): """ Returns the phase of the moon. """ sun = self.getObject(const.SUN) moon = self.getObject(const.MOON) dist = angle.distance(sun.lon, moon.lon) if dist < 90: return const.MOON_FIRST_QUARTER elif dist < 180: return const.MOON_SECOND_QUARTER elif dist < 270: return const.MOON_THIRD_QUARTER else: return const.MOON_LAST_QUARTER
python
def getMoonPhase(self): """ Returns the phase of the moon. """ sun = self.getObject(const.SUN) moon = self.getObject(const.MOON) dist = angle.distance(sun.lon, moon.lon) if dist < 90: return const.MOON_FIRST_QUARTER elif dist < 180: return const.MOON_SECOND_QUARTER elif dist < 270: return const.MOON_THIRD_QUARTER else: return const.MOON_LAST_QUARTER
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Returns the phase of the moon.
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train
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flatangle/flatlib
flatlib/chart.py
Chart.solarReturn
def solarReturn(self, year): """ Returns this chart's solar return for a given year. """ sun = self.getObject(const.SUN) date = Datetime('{0}/01/01'.format(year), '00:00', self.date.utcoffset) srDate = ephem.nextSolarReturn(date, sun.lon) return Chart(srDate, self.pos, hsys=self.hsys)
python
def solarReturn(self, year): """ Returns this chart's solar return for a given year. """ sun = self.getObject(const.SUN) date = Datetime('{0}/01/01'.format(year), '00:00', self.date.utcoffset) srDate = ephem.nextSolarReturn(date, sun.lon) return Chart(srDate, self.pos, hsys=self.hsys)
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Returns this chart's solar return for a given year.
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train
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flatangle/flatlib
flatlib/tools/arabicparts.py
objLon
def objLon(ID, chart): """ Returns the longitude of an object. """ if ID.startswith('$R'): # Return Ruler ID = ID[2:] obj = chart.get(ID) rulerID = essential.ruler(obj.sign) ruler = chart.getObject(rulerID) return ruler.lon elif ID.startswith('Pars'): # Return an arabic part return partLon(ID, chart) else: # Return an object obj = chart.get(ID) return obj.lon
python
def objLon(ID, chart): """ Returns the longitude of an object. """ if ID.startswith('$R'): # Return Ruler ID = ID[2:] obj = chart.get(ID) rulerID = essential.ruler(obj.sign) ruler = chart.getObject(rulerID) return ruler.lon elif ID.startswith('Pars'): # Return an arabic part return partLon(ID, chart) else: # Return an object obj = chart.get(ID) return obj.lon
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train
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flatangle/flatlib
flatlib/tools/arabicparts.py
partLon
def partLon(ID, chart): """ Returns the longitude of an arabic part. """ # Get diurnal or nocturnal formula abc = FORMULAS[ID][0] if chart.isDiurnal() else FORMULAS[ID][1] a = objLon(abc[0], chart) b = objLon(abc[1], chart) c = objLon(abc[2], chart) return c + b - a
python
def partLon(ID, chart): """ Returns the longitude of an arabic part. """ # Get diurnal or nocturnal formula abc = FORMULAS[ID][0] if chart.isDiurnal() else FORMULAS[ID][1] a = objLon(abc[0], chart) b = objLon(abc[1], chart) c = objLon(abc[2], chart) return c + b - a
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train
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flatangle/flatlib
flatlib/tools/arabicparts.py
getPart
def getPart(ID, chart): """ Returns an Arabic Part. """ obj = GenericObject() obj.id = ID obj.type = const.OBJ_ARABIC_PART obj.relocate(partLon(ID, chart)) return obj
python
def getPart(ID, chart): """ Returns an Arabic Part. """ obj = GenericObject() obj.id = ID obj.type = const.OBJ_ARABIC_PART obj.relocate(partLon(ID, chart)) return obj
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Returns an Arabic Part.
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train
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flatangle/flatlib
flatlib/ephem/swe.py
sweObject
def sweObject(obj, jd): """ Returns an object from the Ephemeris. """ sweObj = SWE_OBJECTS[obj] sweList = swisseph.calc_ut(jd, sweObj) return { 'id': obj, 'lon': sweList[0], 'lat': sweList[1], 'lonspeed': sweList[3], 'latspeed': sweList[4] }
python
def sweObject(obj, jd): """ Returns an object from the Ephemeris. """ sweObj = SWE_OBJECTS[obj] sweList = swisseph.calc_ut(jd, sweObj) return { 'id': obj, 'lon': sweList[0], 'lat': sweList[1], 'lonspeed': sweList[3], 'latspeed': sweList[4] }
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Returns an object from the Ephemeris.
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train
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flatangle/flatlib
flatlib/ephem/swe.py
sweObjectLon
def sweObjectLon(obj, jd): """ Returns the longitude of an object. """ sweObj = SWE_OBJECTS[obj] sweList = swisseph.calc_ut(jd, sweObj) return sweList[0]
python
def sweObjectLon(obj, jd): """ Returns the longitude of an object. """ sweObj = SWE_OBJECTS[obj] sweList = swisseph.calc_ut(jd, sweObj) return sweList[0]
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/swe.py#L75-L79
flatangle/flatlib
flatlib/ephem/swe.py
sweNextTransit
def sweNextTransit(obj, jd, lat, lon, flag): """ Returns the julian date of the next transit of an object. The flag should be 'RISE' or 'SET'. """ sweObj = SWE_OBJECTS[obj] flag = swisseph.CALC_RISE if flag == 'RISE' else swisseph.CALC_SET trans = swisseph.rise_trans(jd, sweObj, lon, lat, 0, 0, 0, flag) return trans[1][0]
python
def sweNextTransit(obj, jd, lat, lon, flag): """ Returns the julian date of the next transit of an object. The flag should be 'RISE' or 'SET'. """ sweObj = SWE_OBJECTS[obj] flag = swisseph.CALC_RISE if flag == 'RISE' else swisseph.CALC_SET trans = swisseph.rise_trans(jd, sweObj, lon, lat, 0, 0, 0, flag) return trans[1][0]
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Returns the julian date of the next transit of an object. The flag should be 'RISE' or 'SET'.
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train
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flatangle/flatlib
flatlib/ephem/swe.py
sweHouses
def sweHouses(jd, lat, lon, hsys): """ Returns lists of houses and angles. """ hsys = SWE_HOUSESYS[hsys] hlist, ascmc = swisseph.houses(jd, lat, lon, hsys) # Add first house to the end of 'hlist' so that we # can compute house sizes with an iterator hlist += (hlist[0],) houses = [ { 'id': const.LIST_HOUSES[i], 'lon': hlist[i], 'size': angle.distance(hlist[i], hlist[i+1]) } for i in range(12) ] angles = [ {'id': const.ASC, 'lon': ascmc[0]}, {'id': const.MC, 'lon': ascmc[1]}, {'id': const.DESC, 'lon': angle.norm(ascmc[0] + 180)}, {'id': const.IC, 'lon': angle.norm(ascmc[1] + 180)} ] return (houses, angles)
python
def sweHouses(jd, lat, lon, hsys): """ Returns lists of houses and angles. """ hsys = SWE_HOUSESYS[hsys] hlist, ascmc = swisseph.houses(jd, lat, lon, hsys) # Add first house to the end of 'hlist' so that we # can compute house sizes with an iterator hlist += (hlist[0],) houses = [ { 'id': const.LIST_HOUSES[i], 'lon': hlist[i], 'size': angle.distance(hlist[i], hlist[i+1]) } for i in range(12) ] angles = [ {'id': const.ASC, 'lon': ascmc[0]}, {'id': const.MC, 'lon': ascmc[1]}, {'id': const.DESC, 'lon': angle.norm(ascmc[0] + 180)}, {'id': const.IC, 'lon': angle.norm(ascmc[1] + 180)} ] return (houses, angles)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/swe.py#L94-L114
flatangle/flatlib
flatlib/ephem/swe.py
sweHousesLon
def sweHousesLon(jd, lat, lon, hsys): """ Returns lists with house and angle longitudes. """ hsys = SWE_HOUSESYS[hsys] hlist, ascmc = swisseph.houses(jd, lat, lon, hsys) angles = [ ascmc[0], ascmc[1], angle.norm(ascmc[0] + 180), angle.norm(ascmc[1] + 180) ] return (hlist, angles)
python
def sweHousesLon(jd, lat, lon, hsys): """ Returns lists with house and angle longitudes. """ hsys = SWE_HOUSESYS[hsys] hlist, ascmc = swisseph.houses(jd, lat, lon, hsys) angles = [ ascmc[0], ascmc[1], angle.norm(ascmc[0] + 180), angle.norm(ascmc[1] + 180) ] return (hlist, angles)
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train
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flatangle/flatlib
flatlib/ephem/swe.py
sweFixedStar
def sweFixedStar(star, jd): """ Returns a fixed star from the Ephemeris. """ sweList = swisseph.fixstar_ut(star, jd) mag = swisseph.fixstar_mag(star) return { 'id': star, 'mag': mag, 'lon': sweList[0], 'lat': sweList[1] }
python
def sweFixedStar(star, jd): """ Returns a fixed star from the Ephemeris. """ sweList = swisseph.fixstar_ut(star, jd) mag = swisseph.fixstar_mag(star) return { 'id': star, 'mag': mag, 'lon': sweList[0], 'lat': sweList[1] }
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Returns a fixed star from the Ephemeris.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/swe.py#L135-L144
flatangle/flatlib
flatlib/ephem/swe.py
solarEclipseGlobal
def solarEclipseGlobal(jd, backward): """ Returns the jd details of previous or next global solar eclipse. """ sweList = swisseph.sol_eclipse_when_glob(jd, backward=backward) return { 'maximum': sweList[1][0], 'begin': sweList[1][2], 'end': sweList[1][3], 'totality_begin': sweList[1][4], 'totality_end': sweList[1][5], 'center_line_begin': sweList[1][6], 'center_line_end': sweList[1][7], }
python
def solarEclipseGlobal(jd, backward): """ Returns the jd details of previous or next global solar eclipse. """ sweList = swisseph.sol_eclipse_when_glob(jd, backward=backward) return { 'maximum': sweList[1][0], 'begin': sweList[1][2], 'end': sweList[1][3], 'totality_begin': sweList[1][4], 'totality_end': sweList[1][5], 'center_line_begin': sweList[1][6], 'center_line_end': sweList[1][7], }
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Returns the jd details of previous or next global solar eclipse.
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flatangle/flatlib
flatlib/ephem/swe.py
lunarEclipseGlobal
def lunarEclipseGlobal(jd, backward): """ Returns the jd details of previous or next global lunar eclipse. """ sweList = swisseph.lun_eclipse_when(jd, backward=backward) return { 'maximum': sweList[1][0], 'partial_begin': sweList[1][2], 'partial_end': sweList[1][3], 'totality_begin': sweList[1][4], 'totality_end': sweList[1][5], 'penumbral_begin': sweList[1][6], 'penumbral_end': sweList[1][7], }
python
def lunarEclipseGlobal(jd, backward): """ Returns the jd details of previous or next global lunar eclipse. """ sweList = swisseph.lun_eclipse_when(jd, backward=backward) return { 'maximum': sweList[1][0], 'partial_begin': sweList[1][2], 'partial_end': sweList[1][3], 'totality_begin': sweList[1][4], 'totality_end': sweList[1][5], 'penumbral_begin': sweList[1][6], 'penumbral_end': sweList[1][7], }
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Returns the jd details of previous or next global lunar eclipse.
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train
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flatangle/flatlib
flatlib/datetime.py
dateJDN
def dateJDN(year, month, day, calendar): """ Converts date to Julian Day Number. """ a = (14 - month) // 12 y = year + 4800 - a m = month + 12*a - 3 if calendar == GREGORIAN: return day + (153*m + 2)//5 + 365*y + y//4 - y//100 + y//400 - 32045 else: return day + (153*m + 2)//5 + 365*y + y//4 - 32083
python
def dateJDN(year, month, day, calendar): """ Converts date to Julian Day Number. """ a = (14 - month) // 12 y = year + 4800 - a m = month + 12*a - 3 if calendar == GREGORIAN: return day + (153*m + 2)//5 + 365*y + y//4 - y//100 + y//400 - 32045 else: return day + (153*m + 2)//5 + 365*y + y//4 - 32083
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/datetime.py#L26-L34
flatangle/flatlib
flatlib/datetime.py
jdnDate
def jdnDate(jdn): """ Converts Julian Day Number to Gregorian date. """ a = jdn + 32044 b = (4*a + 3) // 146097 c = a - (146097*b) // 4 d = (4*c + 3) // 1461 e = c - (1461*d) // 4 m = (5*e + 2) // 153 day = e + 1 - (153*m + 2) // 5 month = m + 3 - 12*(m//10) year = 100*b + d - 4800 + m//10 return [year, month, day]
python
def jdnDate(jdn): """ Converts Julian Day Number to Gregorian date. """ a = jdn + 32044 b = (4*a + 3) // 146097 c = a - (146097*b) // 4 d = (4*c + 3) // 1461 e = c - (1461*d) // 4 m = (5*e + 2) // 153 day = e + 1 - (153*m + 2) // 5 month = m + 3 - 12*(m//10) year = 100*b + d - 4800 + m//10 return [year, month, day]
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Converts Julian Day Number to Gregorian date.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/datetime.py#L36-L47
flatangle/flatlib
flatlib/datetime.py
Date.toList
def toList(self): """ Returns date as signed list. """ date = self.date() sign = '+' if date[0] >= 0 else '-' date[0] = abs(date[0]) return list(sign) + date
python
def toList(self): """ Returns date as signed list. """ date = self.date() sign = '+' if date[0] >= 0 else '-' date[0] = abs(date[0]) return list(sign) + date
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/datetime.py#L86-L91
flatangle/flatlib
flatlib/datetime.py
Date.toString
def toString(self): """ Returns date as string. """ slist = self.toList() sign = '' if slist[0] == '+' else '-' string = '/'.join(['%02d' % v for v in slist[1:]]) return sign + string
python
def toString(self): """ Returns date as string. """ slist = self.toList() sign = '' if slist[0] == '+' else '-' string = '/'.join(['%02d' % v for v in slist[1:]]) return sign + string
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Returns date as string.
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train
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flatangle/flatlib
flatlib/datetime.py
Time.getUTC
def getUTC(self, utcoffset): """ Returns a new Time object set to UTC given an offset Time object. """ newTime = (self.value - utcoffset.value) % 24 return Time(newTime)
python
def getUTC(self, utcoffset): """ Returns a new Time object set to UTC given an offset Time object. """ newTime = (self.value - utcoffset.value) % 24 return Time(newTime)
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train
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flatangle/flatlib
flatlib/datetime.py
Time.time
def time(self): """ Returns time as list [hh,mm,ss]. """ slist = self.toList() if slist[0] == '-': slist[1] *= -1 # We must do a trick if we want to # make negative zeros explicit if slist[1] == -0: slist[1] = -0.0 return slist[1:]
python
def time(self): """ Returns time as list [hh,mm,ss]. """ slist = self.toList() if slist[0] == '-': slist[1] *= -1 # We must do a trick if we want to # make negative zeros explicit if slist[1] == -0: slist[1] = -0.0 return slist[1:]
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Returns time as list [hh,mm,ss].
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train
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flatangle/flatlib
flatlib/datetime.py
Time.toList
def toList(self): """ Returns time as signed list. """ slist = angle.toList(self.value) # Keep hours in 0..23 slist[1] = slist[1] % 24 return slist
python
def toList(self): """ Returns time as signed list. """ slist = angle.toList(self.value) # Keep hours in 0..23 slist[1] = slist[1] % 24 return slist
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Returns time as signed list.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/datetime.py#L140-L145
flatangle/flatlib
flatlib/datetime.py
Time.toString
def toString(self): """ Returns time as string. """ slist = self.toList() string = angle.slistStr(slist) return string if slist[0] == '-' else string[1:]
python
def toString(self): """ Returns time as string. """ slist = self.toList() string = angle.slistStr(slist) return string if slist[0] == '-' else string[1:]
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Returns time as string.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/datetime.py#L147-L151
flatangle/flatlib
flatlib/datetime.py
Datetime.fromJD
def fromJD(jd, utcoffset): """ Builds a Datetime object given a jd and utc offset. """ if not isinstance(utcoffset, Time): utcoffset = Time(utcoffset) localJD = jd + utcoffset.value / 24.0 date = Date(round(localJD)) time = Time((localJD + 0.5 - date.jdn) * 24) return Datetime(date, time, utcoffset)
python
def fromJD(jd, utcoffset): """ Builds a Datetime object given a jd and utc offset. """ if not isinstance(utcoffset, Time): utcoffset = Time(utcoffset) localJD = jd + utcoffset.value / 24.0 date = Date(round(localJD)) time = Time((localJD + 0.5 - date.jdn) * 24) return Datetime(date, time, utcoffset)
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train
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flatangle/flatlib
flatlib/datetime.py
Datetime.getUTC
def getUTC(self): """ Returns this Datetime localized for UTC. """ timeUTC = self.time.getUTC(self.utcoffset) dateUTC = Date(round(self.jd)) return Datetime(dateUTC, timeUTC)
python
def getUTC(self): """ Returns this Datetime localized for UTC. """ timeUTC = self.time.getUTC(self.utcoffset) dateUTC = Date(round(self.jd)) return Datetime(dateUTC, timeUTC)
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Returns this Datetime localized for UTC.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/datetime.py#L203-L207
flatangle/flatlib
flatlib/ephem/eph.py
getObject
def getObject(ID, jd, lat, lon): """ Returns an object for a specific date and location. """ if ID == const.SOUTH_NODE: obj = swe.sweObject(const.NORTH_NODE, jd) obj.update({ 'id': const.SOUTH_NODE, 'lon': angle.norm(obj['lon'] + 180) }) elif ID == const.PARS_FORTUNA: pflon = tools.pfLon(jd, lat, lon) obj = { 'id': ID, 'lon': pflon, 'lat': 0, 'lonspeed': 0, 'latspeed': 0 } elif ID == const.SYZYGY: szjd = tools.syzygyJD(jd) obj = swe.sweObject(const.MOON, szjd) obj['id'] = const.SYZYGY else: obj = swe.sweObject(ID, jd) _signInfo(obj) return obj
python
def getObject(ID, jd, lat, lon): """ Returns an object for a specific date and location. """ if ID == const.SOUTH_NODE: obj = swe.sweObject(const.NORTH_NODE, jd) obj.update({ 'id': const.SOUTH_NODE, 'lon': angle.norm(obj['lon'] + 180) }) elif ID == const.PARS_FORTUNA: pflon = tools.pfLon(jd, lat, lon) obj = { 'id': ID, 'lon': pflon, 'lat': 0, 'lonspeed': 0, 'latspeed': 0 } elif ID == const.SYZYGY: szjd = tools.syzygyJD(jd) obj = swe.sweObject(const.MOON, szjd) obj['id'] = const.SYZYGY else: obj = swe.sweObject(ID, jd) _signInfo(obj) return obj
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train
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flatangle/flatlib
flatlib/ephem/eph.py
getHouses
def getHouses(jd, lat, lon, hsys): """ Returns lists of houses and angles. """ houses, angles = swe.sweHouses(jd, lat, lon, hsys) for house in houses: _signInfo(house) for angle in angles: _signInfo(angle) return (houses, angles)
python
def getHouses(jd, lat, lon, hsys): """ Returns lists of houses and angles. """ houses, angles = swe.sweHouses(jd, lat, lon, hsys) for house in houses: _signInfo(house) for angle in angles: _signInfo(angle) return (houses, angles)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/eph.py#L56-L63
flatangle/flatlib
flatlib/ephem/eph.py
getFixedStar
def getFixedStar(ID, jd): """ Returns a fixed star. """ star = swe.sweFixedStar(ID, jd) _signInfo(star) return star
python
def getFixedStar(ID, jd): """ Returns a fixed star. """ star = swe.sweFixedStar(ID, jd) _signInfo(star) return star
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/eph.py#L68-L72
flatangle/flatlib
flatlib/ephem/eph.py
nextSunrise
def nextSunrise(jd, lat, lon): """ Returns the JD of the next sunrise. """ return swe.sweNextTransit(const.SUN, jd, lat, lon, 'RISE')
python
def nextSunrise(jd, lat, lon): """ Returns the JD of the next sunrise. """ return swe.sweNextTransit(const.SUN, jd, lat, lon, 'RISE')
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Returns the JD of the next sunrise.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/eph.py#L88-L90
flatangle/flatlib
flatlib/ephem/eph.py
nextSunset
def nextSunset(jd, lat, lon): """ Returns the JD of the next sunset. """ return swe.sweNextTransit(const.SUN, jd, lat, lon, 'SET')
python
def nextSunset(jd, lat, lon): """ Returns the JD of the next sunset. """ return swe.sweNextTransit(const.SUN, jd, lat, lon, 'SET')
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/eph.py#L92-L94
flatangle/flatlib
flatlib/ephem/eph.py
_signInfo
def _signInfo(obj): """ Appends the sign id and longitude to an object. """ lon = obj['lon'] obj.update({ 'sign': const.LIST_SIGNS[int(lon / 30)], 'signlon': lon % 30 })
python
def _signInfo(obj): """ Appends the sign id and longitude to an object. """ lon = obj['lon'] obj.update({ 'sign': const.LIST_SIGNS[int(lon / 30)], 'signlon': lon % 30 })
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Appends the sign id and longitude to an object.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/eph.py#L114-L120
flatangle/flatlib
flatlib/ephem/tools.py
pfLon
def pfLon(jd, lat, lon): """ Returns the ecliptic longitude of Pars Fortuna. It considers diurnal or nocturnal conditions. """ sun = swe.sweObjectLon(const.SUN, jd) moon = swe.sweObjectLon(const.MOON, jd) asc = swe.sweHousesLon(jd, lat, lon, const.HOUSES_DEFAULT)[1][0] if isDiurnal(jd, lat, lon): return angle.norm(asc + moon - sun) else: return angle.norm(asc + sun - moon)
python
def pfLon(jd, lat, lon): """ Returns the ecliptic longitude of Pars Fortuna. It considers diurnal or nocturnal conditions. """ sun = swe.sweObjectLon(const.SUN, jd) moon = swe.sweObjectLon(const.MOON, jd) asc = swe.sweHousesLon(jd, lat, lon, const.HOUSES_DEFAULT)[1][0] if isDiurnal(jd, lat, lon): return angle.norm(asc + moon - sun) else: return angle.norm(asc + sun - moon)
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Returns the ecliptic longitude of Pars Fortuna. It considers diurnal or nocturnal conditions.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/tools.py#L23-L36
flatangle/flatlib
flatlib/ephem/tools.py
isDiurnal
def isDiurnal(jd, lat, lon): """ Returns true if the sun is above the horizon of a given date and location. """ sun = swe.sweObject(const.SUN, jd) mc = swe.sweHousesLon(jd, lat, lon, const.HOUSES_DEFAULT)[1][1] ra, decl = utils.eqCoords(sun['lon'], sun['lat']) mcRA, _ = utils.eqCoords(mc, 0.0) return utils.isAboveHorizon(ra, decl, mcRA, lat)
python
def isDiurnal(jd, lat, lon): """ Returns true if the sun is above the horizon of a given date and location. """ sun = swe.sweObject(const.SUN, jd) mc = swe.sweHousesLon(jd, lat, lon, const.HOUSES_DEFAULT)[1][1] ra, decl = utils.eqCoords(sun['lon'], sun['lat']) mcRA, _ = utils.eqCoords(mc, 0.0) return utils.isAboveHorizon(ra, decl, mcRA, lat)
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Returns true if the sun is above the horizon of a given date and location.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/ephem/tools.py#L41-L51
flatangle/flatlib
flatlib/ephem/tools.py
syzygyJD
def syzygyJD(jd): """ Finds the latest new or full moon and returns the julian date of that event. """ sun = swe.sweObjectLon(const.SUN, jd) moon = swe.sweObjectLon(const.MOON, jd) dist = angle.distance(sun, moon) # Offset represents the Syzygy type. # Zero is conjunction and 180 is opposition. offset = 180 if (dist >= 180) else 0 while abs(dist) > MAX_ERROR: jd = jd - dist / 13.1833 # Moon mean daily motion sun = swe.sweObjectLon(const.SUN, jd) moon = swe.sweObjectLon(const.MOON, jd) dist = angle.closestdistance(sun - offset, moon) return jd
python
def syzygyJD(jd): """ Finds the latest new or full moon and returns the julian date of that event. """ sun = swe.sweObjectLon(const.SUN, jd) moon = swe.sweObjectLon(const.MOON, jd) dist = angle.distance(sun, moon) # Offset represents the Syzygy type. # Zero is conjunction and 180 is opposition. offset = 180 if (dist >= 180) else 0 while abs(dist) > MAX_ERROR: jd = jd - dist / 13.1833 # Moon mean daily motion sun = swe.sweObjectLon(const.SUN, jd) moon = swe.sweObjectLon(const.MOON, jd) dist = angle.closestdistance(sun - offset, moon) return jd
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train
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flatangle/flatlib
flatlib/ephem/tools.py
solarReturnJD
def solarReturnJD(jd, lon, forward=True): """ Finds the julian date before or after 'jd' when the sun is at longitude 'lon'. It searches forward by default. """ sun = swe.sweObjectLon(const.SUN, jd) if forward: dist = angle.distance(sun, lon) else: dist = -angle.distance(lon, sun) while abs(dist) > MAX_ERROR: jd = jd + dist / 0.9833 # Sun mean motion sun = swe.sweObjectLon(const.SUN, jd) dist = angle.closestdistance(sun, lon) return jd
python
def solarReturnJD(jd, lon, forward=True): """ Finds the julian date before or after 'jd' when the sun is at longitude 'lon'. It searches forward by default. """ sun = swe.sweObjectLon(const.SUN, jd) if forward: dist = angle.distance(sun, lon) else: dist = -angle.distance(lon, sun) while abs(dist) > MAX_ERROR: jd = jd + dist / 0.9833 # Sun mean motion sun = swe.sweObjectLon(const.SUN, jd) dist = angle.closestdistance(sun, lon) return jd
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Finds the julian date before or after 'jd' when the sun is at longitude 'lon'. It searches forward by default.
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train
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flatangle/flatlib
flatlib/ephem/tools.py
nextStationJD
def nextStationJD(ID, jd): """ Finds the aproximate julian date of the next station of a planet. """ speed = swe.sweObject(ID, jd)['lonspeed'] for i in range(2000): nextjd = jd + i / 2 nextspeed = swe.sweObject(ID, nextjd)['lonspeed'] if speed * nextspeed <= 0: return nextjd return None
python
def nextStationJD(ID, jd): """ Finds the aproximate julian date of the next station of a planet. """ speed = swe.sweObject(ID, jd)['lonspeed'] for i in range(2000): nextjd = jd + i / 2 nextspeed = swe.sweObject(ID, nextjd)['lonspeed'] if speed * nextspeed <= 0: return nextjd return None
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Finds the aproximate julian date of the next station of a planet.
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train
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flatangle/flatlib
scripts/utils.py
clean_caches
def clean_caches(path): """ Removes all python cache files recursively on a path. :param path: the path :return: None """ for dirname, subdirlist, filelist in os.walk(path): for f in filelist: if f.endswith('pyc'): try: os.remove(os.path.join(dirname, f)) except FileNotFoundError: pass if dirname.endswith('__pycache__'): shutil.rmtree(dirname)
python
def clean_caches(path): """ Removes all python cache files recursively on a path. :param path: the path :return: None """ for dirname, subdirlist, filelist in os.walk(path): for f in filelist: if f.endswith('pyc'): try: os.remove(os.path.join(dirname, f)) except FileNotFoundError: pass if dirname.endswith('__pycache__'): shutil.rmtree(dirname)
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Removes all python cache files recursively on a path. :param path: the path :return: None
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train
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flatangle/flatlib
scripts/utils.py
clean_py_files
def clean_py_files(path): """ Removes all .py files. :param path: the path :return: None """ for dirname, subdirlist, filelist in os.walk(path): for f in filelist: if f.endswith('py'): os.remove(os.path.join(dirname, f))
python
def clean_py_files(path): """ Removes all .py files. :param path: the path :return: None """ for dirname, subdirlist, filelist in os.walk(path): for f in filelist: if f.endswith('py'): os.remove(os.path.join(dirname, f))
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Removes all .py files. :param path: the path :return: None
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/scripts/utils.py#L39-L51
flatangle/flatlib
flatlib/geopos.py
toFloat
def toFloat(value): """ Converts angle representation to float. Accepts angles and strings such as "12W30:00". """ if isinstance(value, str): # Find lat/lon char in string and insert angle sign value = value.upper() for char in ['N', 'S', 'E', 'W']: if char in value: value = SIGN[char] + value.replace(char, ':') break return angle.toFloat(value)
python
def toFloat(value): """ Converts angle representation to float. Accepts angles and strings such as "12W30:00". """ if isinstance(value, str): # Find lat/lon char in string and insert angle sign value = value.upper() for char in ['N', 'S', 'E', 'W']: if char in value: value = SIGN[char] + value.replace(char, ':') break return angle.toFloat(value)
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Converts angle representation to float. Accepts angles and strings such as "12W30:00".
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/geopos.py#L29-L41
flatangle/flatlib
flatlib/geopos.py
toString
def toString(value, mode): """ Converts angle float to string. Mode refers to LAT/LON. """ string = angle.toString(value) sign = string[0] separator = CHAR[mode][sign] string = string.replace(':', separator, 1) return string[1:]
python
def toString(value, mode): """ Converts angle float to string. Mode refers to LAT/LON. """ string = angle.toString(value) sign = string[0] separator = CHAR[mode][sign] string = string.replace(':', separator, 1) return string[1:]
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/geopos.py#L47-L56
flatangle/flatlib
flatlib/geopos.py
GeoPos.strings
def strings(self): """ Return lat/lon as strings. """ return [ toString(self.lat, LAT), toString(self.lon, LON) ]
python
def strings(self): """ Return lat/lon as strings. """ return [ toString(self.lat, LAT), toString(self.lon, LON) ]
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/geopos.py#L84-L89
flatangle/flatlib
flatlib/aspects.py
_orbList
def _orbList(obj1, obj2, aspList): """ Returns a list with the orb and angular distances from obj1 to obj2, considering a list of possible aspects. """ sep = angle.closestdistance(obj1.lon, obj2.lon) absSep = abs(sep) return [ { 'type': asp, 'orb': abs(absSep - asp), 'separation': sep, } for asp in aspList ]
python
def _orbList(obj1, obj2, aspList): """ Returns a list with the orb and angular distances from obj1 to obj2, considering a list of possible aspects. """ sep = angle.closestdistance(obj1.lon, obj2.lon) absSep = abs(sep) return [ { 'type': asp, 'orb': abs(absSep - asp), 'separation': sep, } for asp in aspList ]
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Returns a list with the orb and angular distances from obj1 to obj2, considering a list of possible aspects.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/aspects.py#L43-L57
flatangle/flatlib
flatlib/aspects.py
_aspectDict
def _aspectDict(obj1, obj2, aspList): """ Returns the properties of the aspect of obj1 to obj2, considering a list of possible aspects. This function makes the following assumptions: - Syzygy does not start aspects but receives any aspect. - Pars Fortuna and Moon Nodes only starts conjunctions but receive any aspect. - All other objects can start and receive any aspect. Note: this function returns the aspect even if it is not within the orb of obj1 (but is within the orb of obj2). """ # Ignore aspects from same and Syzygy if obj1 == obj2 or obj1.id == const.SYZYGY: return None orbs = _orbList(obj1, obj2, aspList) for aspDict in orbs: asp = aspDict['type'] orb = aspDict['orb'] # Check if aspect is within orb if asp in const.MAJOR_ASPECTS: # Ignore major aspects out of orb if obj1.orb() < orb and obj2.orb() < orb: continue else: # Ignore minor aspects out of max orb if MAX_MINOR_ASP_ORB < orb: continue # Only conjunctions for Pars Fortuna and Nodes if obj1.id in [const.PARS_FORTUNA, const.NORTH_NODE, const.SOUTH_NODE] and \ asp != const.CONJUNCTION: continue # We have a valid aspect within orb return aspDict return None
python
def _aspectDict(obj1, obj2, aspList): """ Returns the properties of the aspect of obj1 to obj2, considering a list of possible aspects. This function makes the following assumptions: - Syzygy does not start aspects but receives any aspect. - Pars Fortuna and Moon Nodes only starts conjunctions but receive any aspect. - All other objects can start and receive any aspect. Note: this function returns the aspect even if it is not within the orb of obj1 (but is within the orb of obj2). """ # Ignore aspects from same and Syzygy if obj1 == obj2 or obj1.id == const.SYZYGY: return None orbs = _orbList(obj1, obj2, aspList) for aspDict in orbs: asp = aspDict['type'] orb = aspDict['orb'] # Check if aspect is within orb if asp in const.MAJOR_ASPECTS: # Ignore major aspects out of orb if obj1.orb() < orb and obj2.orb() < orb: continue else: # Ignore minor aspects out of max orb if MAX_MINOR_ASP_ORB < orb: continue # Only conjunctions for Pars Fortuna and Nodes if obj1.id in [const.PARS_FORTUNA, const.NORTH_NODE, const.SOUTH_NODE] and \ asp != const.CONJUNCTION: continue # We have a valid aspect within orb return aspDict return None
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/aspects.py#L59-L106
flatangle/flatlib
flatlib/aspects.py
_aspectProperties
def _aspectProperties(obj1, obj2, aspDict): """ Returns the properties of an aspect between obj1 and obj2, given by 'aspDict'. This function assumes obj1 to be the active object, i.e., the one responsible for starting the aspect. """ orb = aspDict['orb'] asp = aspDict['type'] sep = aspDict['separation'] # Properties prop1 = { 'id': obj1.id, 'inOrb': False, 'movement': const.NO_MOVEMENT } prop2 = { 'id': obj2.id, 'inOrb': False, 'movement': const.NO_MOVEMENT } prop = { 'type': asp, 'orb': orb, 'direction': -1, 'condition': -1, 'active': prop1, 'passive': prop2 } if asp == const.NO_ASPECT: return prop # Aspect within orb prop1['inOrb'] = orb <= obj1.orb() prop2['inOrb'] = orb <= obj2.orb() # Direction prop['direction'] = const.DEXTER if sep <= 0 else const.SINISTER # Sign conditions # Note: if obj1 is before obj2, orbDir will be less than zero orbDir = sep-asp if sep >= 0 else sep+asp offset = obj1.signlon + orbDir if 0 <= offset < 30: prop['condition'] = const.ASSOCIATE else: prop['condition'] = const.DISSOCIATE # Movement of the individual objects if abs(orbDir) < MAX_EXACT_ORB: prop1['movement'] = prop2['movement'] = const.EXACT else: # Active object applies to Passive if it is before # and direct, or after the Passive and Rx.. prop1['movement'] = const.SEPARATIVE if (orbDir > 0 and obj1.isDirect()) or \ (orbDir < 0 and obj1.isRetrograde()): prop1['movement'] = const.APPLICATIVE elif obj1.isStationary(): prop1['movement'] = const.STATIONARY # The Passive applies or separates from the Active # if it has a different direction.. # Note: Non-planets have zero speed prop2['movement'] = const.NO_MOVEMENT obj2speed = obj2.lonspeed if obj2.isPlanet() else 0.0 sameDir = obj1.lonspeed * obj2speed >= 0 if not sameDir: prop2['movement'] = prop1['movement'] return prop
python
def _aspectProperties(obj1, obj2, aspDict): """ Returns the properties of an aspect between obj1 and obj2, given by 'aspDict'. This function assumes obj1 to be the active object, i.e., the one responsible for starting the aspect. """ orb = aspDict['orb'] asp = aspDict['type'] sep = aspDict['separation'] # Properties prop1 = { 'id': obj1.id, 'inOrb': False, 'movement': const.NO_MOVEMENT } prop2 = { 'id': obj2.id, 'inOrb': False, 'movement': const.NO_MOVEMENT } prop = { 'type': asp, 'orb': orb, 'direction': -1, 'condition': -1, 'active': prop1, 'passive': prop2 } if asp == const.NO_ASPECT: return prop # Aspect within orb prop1['inOrb'] = orb <= obj1.orb() prop2['inOrb'] = orb <= obj2.orb() # Direction prop['direction'] = const.DEXTER if sep <= 0 else const.SINISTER # Sign conditions # Note: if obj1 is before obj2, orbDir will be less than zero orbDir = sep-asp if sep >= 0 else sep+asp offset = obj1.signlon + orbDir if 0 <= offset < 30: prop['condition'] = const.ASSOCIATE else: prop['condition'] = const.DISSOCIATE # Movement of the individual objects if abs(orbDir) < MAX_EXACT_ORB: prop1['movement'] = prop2['movement'] = const.EXACT else: # Active object applies to Passive if it is before # and direct, or after the Passive and Rx.. prop1['movement'] = const.SEPARATIVE if (orbDir > 0 and obj1.isDirect()) or \ (orbDir < 0 and obj1.isRetrograde()): prop1['movement'] = const.APPLICATIVE elif obj1.isStationary(): prop1['movement'] = const.STATIONARY # The Passive applies or separates from the Active # if it has a different direction.. # Note: Non-planets have zero speed prop2['movement'] = const.NO_MOVEMENT obj2speed = obj2.lonspeed if obj2.isPlanet() else 0.0 sameDir = obj1.lonspeed * obj2speed >= 0 if not sameDir: prop2['movement'] = prop1['movement'] return prop
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Returns the properties of an aspect between obj1 and obj2, given by 'aspDict'. This function assumes obj1 to be the active object, i.e., the one responsible for starting the aspect.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/aspects.py#L108-L181
flatangle/flatlib
flatlib/aspects.py
_getActivePassive
def _getActivePassive(obj1, obj2): """ Returns which is the active and the passive objects. """ speed1 = abs(obj1.lonspeed) if obj1.isPlanet() else -1.0 speed2 = abs(obj2.lonspeed) if obj2.isPlanet() else -1.0 if speed1 > speed2: return { 'active': obj1, 'passive': obj2 } else: return { 'active': obj2, 'passive': obj1 }
python
def _getActivePassive(obj1, obj2): """ Returns which is the active and the passive objects. """ speed1 = abs(obj1.lonspeed) if obj1.isPlanet() else -1.0 speed2 = abs(obj2.lonspeed) if obj2.isPlanet() else -1.0 if speed1 > speed2: return { 'active': obj1, 'passive': obj2 } else: return { 'active': obj2, 'passive': obj1 }
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/aspects.py#L183-L196
flatangle/flatlib
flatlib/aspects.py
aspectType
def aspectType(obj1, obj2, aspList): """ Returns the aspect type between objects considering a list of possible aspect types. """ ap = _getActivePassive(obj1, obj2) aspDict = _aspectDict(ap['active'], ap['passive'], aspList) return aspDict['type'] if aspDict else const.NO_ASPECT
python
def aspectType(obj1, obj2, aspList): """ Returns the aspect type between objects considering a list of possible aspect types. """ ap = _getActivePassive(obj1, obj2) aspDict = _aspectDict(ap['active'], ap['passive'], aspList) return aspDict['type'] if aspDict else const.NO_ASPECT
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/aspects.py#L201-L208
flatangle/flatlib
flatlib/aspects.py
hasAspect
def hasAspect(obj1, obj2, aspList): """ Returns if there is an aspect between objects considering a list of possible aspect types. """ aspType = aspectType(obj1, obj2, aspList) return aspType != const.NO_ASPECT
python
def hasAspect(obj1, obj2, aspList): """ Returns if there is an aspect between objects considering a list of possible aspect types. """ aspType = aspectType(obj1, obj2, aspList) return aspType != const.NO_ASPECT
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/aspects.py#L210-L216
flatangle/flatlib
flatlib/aspects.py
isAspecting
def isAspecting(obj1, obj2, aspList): """ Returns if obj1 aspects obj2 within its orb, considering a list of possible aspect types. """ aspDict = _aspectDict(obj1, obj2, aspList) if aspDict: return aspDict['orb'] < obj1.orb() return False
python
def isAspecting(obj1, obj2, aspList): """ Returns if obj1 aspects obj2 within its orb, considering a list of possible aspect types. """ aspDict = _aspectDict(obj1, obj2, aspList) if aspDict: return aspDict['orb'] < obj1.orb() return False
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train
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flatangle/flatlib
flatlib/aspects.py
getAspect
def getAspect(obj1, obj2, aspList): """ Returns an Aspect object for the aspect between two objects considering a list of possible aspect types. """ ap = _getActivePassive(obj1, obj2) aspDict = _aspectDict(ap['active'], ap['passive'], aspList) if not aspDict: aspDict = { 'type': const.NO_ASPECT, 'orb': 0, 'separation': 0, } aspProp = _aspectProperties(ap['active'], ap['passive'], aspDict) return Aspect(aspProp)
python
def getAspect(obj1, obj2, aspList): """ Returns an Aspect object for the aspect between two objects considering a list of possible aspect types. """ ap = _getActivePassive(obj1, obj2) aspDict = _aspectDict(ap['active'], ap['passive'], aspList) if not aspDict: aspDict = { 'type': const.NO_ASPECT, 'orb': 0, 'separation': 0, } aspProp = _aspectProperties(ap['active'], ap['passive'], aspDict) return Aspect(aspProp)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/aspects.py#L228-L242
flatangle/flatlib
flatlib/aspects.py
Aspect.movement
def movement(self): """ Returns the movement of this aspect. The movement is the one of the active object, except if the active is separating but within less than 1 degree. """ mov = self.active.movement if self.orb < 1 and mov == const.SEPARATIVE: mov = const.EXACT return mov
python
def movement(self): """ Returns the movement of this aspect. The movement is the one of the active object, except if the active is separating but within less than 1 degree. """ mov = self.active.movement if self.orb < 1 and mov == const.SEPARATIVE: mov = const.EXACT return mov
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Returns the movement of this aspect. The movement is the one of the active object, except if the active is separating but within less than 1 degree.
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flatangle/flatlib
flatlib/aspects.py
Aspect.getRole
def getRole(self, ID): """ Returns the role (active or passive) of an object in this aspect. """ if self.active.id == ID: return { 'role': 'active', 'inOrb': self.active.inOrb, 'movement': self.active.movement } elif self.passive.id == ID: return { 'role': 'passive', 'inOrb': self.passive.inOrb, 'movement': self.passive.movement } return None
python
def getRole(self, ID): """ Returns the role (active or passive) of an object in this aspect. """ if self.active.id == ID: return { 'role': 'active', 'inOrb': self.active.inOrb, 'movement': self.active.movement } elif self.passive.id == ID: return { 'role': 'passive', 'inOrb': self.passive.inOrb, 'movement': self.passive.movement } return None
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flatangle/flatlib
flatlib/dignities/essential.py
setFaces
def setFaces(variant): """ Sets the default faces variant """ global FACES if variant == CHALDEAN_FACES: FACES = tables.CHALDEAN_FACES else: FACES = tables.TRIPLICITY_FACES
python
def setFaces(variant): """ Sets the default faces variant """ global FACES if variant == CHALDEAN_FACES: FACES = tables.CHALDEAN_FACES else: FACES = tables.TRIPLICITY_FACES
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flatangle/flatlib
flatlib/dignities/essential.py
setTerms
def setTerms(variant): """ Sets the default terms of the Dignities table. """ global TERMS if variant == EGYPTIAN_TERMS: TERMS = tables.EGYPTIAN_TERMS elif variant == TETRABIBLOS_TERMS: TERMS = tables.TETRABIBLOS_TERMS elif variant == LILLY_TERMS: TERMS = tables.LILLY_TERMS
python
def setTerms(variant): """ Sets the default terms of the Dignities table. """ global TERMS if variant == EGYPTIAN_TERMS: TERMS = tables.EGYPTIAN_TERMS elif variant == TETRABIBLOS_TERMS: TERMS = tables.TETRABIBLOS_TERMS elif variant == LILLY_TERMS: TERMS = tables.LILLY_TERMS
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flatangle/flatlib
flatlib/dignities/essential.py
term
def term(sign, lon): """ Returns the term for a sign and longitude. """ terms = TERMS[sign] for (ID, a, b) in terms: if (a <= lon < b): return ID return None
python
def term(sign, lon): """ Returns the term for a sign and longitude. """ terms = TERMS[sign] for (ID, a, b) in terms: if (a <= lon < b): return ID return None
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flatangle/flatlib
flatlib/dignities/essential.py
face
def face(sign, lon): """ Returns the face for a sign and longitude. """ faces = FACES[sign] if lon < 10: return faces[0] elif lon < 20: return faces[1] else: return faces[2]
python
def face(sign, lon): """ Returns the face for a sign and longitude. """ faces = FACES[sign] if lon < 10: return faces[0] elif lon < 20: return faces[1] else: return faces[2]
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flatangle/flatlib
flatlib/dignities/essential.py
getInfo
def getInfo(sign, lon): """ Returns the complete essential dignities for a sign and longitude. """ return { 'ruler': ruler(sign), 'exalt': exalt(sign), 'dayTrip': dayTrip(sign), 'nightTrip': nightTrip(sign), 'partTrip': partTrip(sign), 'term': term(sign, lon), 'face': face(sign, lon), 'exile': exile(sign), 'fall': fall(sign) }
python
def getInfo(sign, lon): """ Returns the complete essential dignities for a sign and longitude. """ return { 'ruler': ruler(sign), 'exalt': exalt(sign), 'dayTrip': dayTrip(sign), 'nightTrip': nightTrip(sign), 'partTrip': partTrip(sign), 'term': term(sign, lon), 'face': face(sign, lon), 'exile': exile(sign), 'fall': fall(sign) }
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flatangle/flatlib
flatlib/dignities/essential.py
isPeregrine
def isPeregrine(ID, sign, lon): """ Returns if an object is peregrine on a sign and longitude. """ info = getInfo(sign, lon) for dign, objID in info.items(): if dign not in ['exile', 'fall'] and ID == objID: return False return True
python
def isPeregrine(ID, sign, lon): """ Returns if an object is peregrine on a sign and longitude. """ info = getInfo(sign, lon) for dign, objID in info.items(): if dign not in ['exile', 'fall'] and ID == objID: return False return True
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flatangle/flatlib
flatlib/dignities/essential.py
score
def score(ID, sign, lon): """ Returns the score of an object on a sign and longitude. """ info = getInfo(sign, lon) dignities = [dign for (dign, objID) in info.items() if objID == ID] return sum([SCORES[dign] for dign in dignities])
python
def score(ID, sign, lon): """ Returns the score of an object on a sign and longitude. """ info = getInfo(sign, lon) dignities = [dign for (dign, objID) in info.items() if objID == ID] return sum([SCORES[dign] for dign in dignities])
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flatangle/flatlib
flatlib/dignities/essential.py
almutem
def almutem(sign, lon): """ Returns the almutem for a given sign and longitude. """ planets = const.LIST_SEVEN_PLANETS res = [None, 0] for ID in planets: sc = score(ID, sign, lon) if sc > res[1]: res = [ID, sc] return res[0]
python
def almutem(sign, lon): """ Returns the almutem for a given sign and longitude. """ planets = const.LIST_SEVEN_PLANETS res = [None, 0] for ID in planets: sc = score(ID, sign, lon) if sc > res[1]: res = [ID, sc] return res[0]
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flatangle/flatlib
flatlib/dignities/essential.py
EssentialInfo.getDignities
def getDignities(self): """ Returns the dignities belonging to this object. """ info = self.getInfo() dignities = [dign for (dign, objID) in info.items() if objID == self.obj.id] return dignities
python
def getDignities(self): """ Returns the dignities belonging to this object. """ info = self.getInfo() dignities = [dign for (dign, objID) in info.items() if objID == self.obj.id] return dignities
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flatangle/flatlib
flatlib/dignities/essential.py
EssentialInfo.isPeregrine
def isPeregrine(self): """ Returns if this object is peregrine. """ return isPeregrine(self.obj.id, self.obj.sign, self.obj.signlon)
python
def isPeregrine(self): """ Returns if this object is peregrine. """ return isPeregrine(self.obj.id, self.obj.sign, self.obj.signlon)
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flatangle/flatlib
flatlib/predictives/returns.py
_computeChart
def _computeChart(chart, date): """ Internal function to return a new chart for a specific date using properties from old chart. """ pos = chart.pos hsys = chart.hsys IDs = [obj.id for obj in chart.objects] return Chart(date, pos, IDs=IDs, hsys=hsys)
python
def _computeChart(chart, date): """ Internal function to return a new chart for a specific date using properties from old chart. """ pos = chart.pos hsys = chart.hsys IDs = [obj.id for obj in chart.objects] return Chart(date, pos, IDs=IDs, hsys=hsys)
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flatangle/flatlib
flatlib/predictives/returns.py
nextSolarReturn
def nextSolarReturn(chart, date): """ Returns the solar return of a Chart after a specific date. """ sun = chart.getObject(const.SUN) srDate = ephem.nextSolarReturn(date, sun.lon) return _computeChart(chart, srDate)
python
def nextSolarReturn(chart, date): """ Returns the solar return of a Chart after a specific date. """ sun = chart.getObject(const.SUN) srDate = ephem.nextSolarReturn(date, sun.lon) return _computeChart(chart, srDate)
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flatangle/flatlib
flatlib/tools/planetarytime.py
hourTable
def hourTable(date, pos): """ Creates the planetary hour table for a date and position. The table includes both diurnal and nocturnal hour sequences and each of the 24 entries (12 * 2) are like (startJD, endJD, ruler). """ lastSunrise = ephem.lastSunrise(date, pos) middleSunset = ephem.nextSunset(lastSunrise, pos) nextSunrise = ephem.nextSunrise(date, pos) table = [] # Create diurnal hour sequence length = (middleSunset.jd - lastSunrise.jd) / 12.0 for i in range(12): start = lastSunrise.jd + i * length end = start + length ruler = nthRuler(i, lastSunrise.date.dayofweek()) table.append([start, end, ruler]) # Create nocturnal hour sequence length = (nextSunrise.jd - middleSunset.jd) / 12.0 for i in range(12): start = middleSunset.jd + i * length end = start + length ruler = nthRuler(i + 12, lastSunrise.date.dayofweek()) table.append([start, end, ruler]) return table
python
def hourTable(date, pos): """ Creates the planetary hour table for a date and position. The table includes both diurnal and nocturnal hour sequences and each of the 24 entries (12 * 2) are like (startJD, endJD, ruler). """ lastSunrise = ephem.lastSunrise(date, pos) middleSunset = ephem.nextSunset(lastSunrise, pos) nextSunrise = ephem.nextSunrise(date, pos) table = [] # Create diurnal hour sequence length = (middleSunset.jd - lastSunrise.jd) / 12.0 for i in range(12): start = lastSunrise.jd + i * length end = start + length ruler = nthRuler(i, lastSunrise.date.dayofweek()) table.append([start, end, ruler]) # Create nocturnal hour sequence length = (nextSunrise.jd - middleSunset.jd) / 12.0 for i in range(12): start = middleSunset.jd + i * length end = start + length ruler = nthRuler(i + 12, lastSunrise.date.dayofweek()) table.append([start, end, ruler]) return table
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flatangle/flatlib
flatlib/tools/planetarytime.py
getHourTable
def getHourTable(date, pos): """ Returns an HourTable object. """ table = hourTable(date, pos) return HourTable(table, date)
python
def getHourTable(date, pos): """ Returns an HourTable object. """ table = hourTable(date, pos) return HourTable(table, date)
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flatangle/flatlib
flatlib/tools/planetarytime.py
HourTable.index
def index(self, date): """ Returns the index of a date in the table. """ for (i, (start, end, ruler)) in enumerate(self.table): if start <= date.jd <= end: return i return None
python
def index(self, date): """ Returns the index of a date in the table. """ for (i, (start, end, ruler)) in enumerate(self.table): if start <= date.jd <= end: return i return None
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flatangle/flatlib
flatlib/tools/planetarytime.py
HourTable.indexInfo
def indexInfo(self, index): """ Returns information about a specific planetary time. """ entry = self.table[index] info = { # Default is diurnal 'mode': 'Day', 'ruler': self.dayRuler(), 'dayRuler': self.dayRuler(), 'nightRuler': self.nightRuler(), 'hourRuler': entry[2], 'hourNumber': index + 1, 'tableIndex': index, 'start': Datetime.fromJD(entry[0], self.date.utcoffset), 'end': Datetime.fromJD(entry[1], self.date.utcoffset) } if index >= 12: # Set information as nocturnal info.update({ 'mode': 'Night', 'ruler': info['nightRuler'], 'hourNumber': index + 1 - 12 }) return info
python
def indexInfo(self, index): """ Returns information about a specific planetary time. """ entry = self.table[index] info = { # Default is diurnal 'mode': 'Day', 'ruler': self.dayRuler(), 'dayRuler': self.dayRuler(), 'nightRuler': self.nightRuler(), 'hourRuler': entry[2], 'hourNumber': index + 1, 'tableIndex': index, 'start': Datetime.fromJD(entry[0], self.date.utcoffset), 'end': Datetime.fromJD(entry[1], self.date.utcoffset) } if index >= 12: # Set information as nocturnal info.update({ 'mode': 'Night', 'ruler': info['nightRuler'], 'hourNumber': index + 1 - 12 }) return info
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Returns information about a specific planetary time.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/tools/planetarytime.py#L157-L182
flatangle/flatlib
flatlib/predictives/profections.py
compute
def compute(chart, date, fixedObjects=False): """ Returns a profection chart for a given date. Receives argument 'fixedObjects' to fix chart objects in their natal locations. """ sun = chart.getObject(const.SUN) prevSr = ephem.prevSolarReturn(date, sun.lon) nextSr = ephem.nextSolarReturn(date, sun.lon) # In one year, rotate chart 30º rotation = 30 * (date.jd - prevSr.jd) / (nextSr.jd - prevSr.jd) # Include 30º for each previous year age = math.floor((date.jd - chart.date.jd) / 365.25) rotation = 30 * age + rotation # Create a copy of the chart and rotate content pChart = chart.copy() for obj in pChart.objects: if not fixedObjects: obj.relocate(obj.lon + rotation) for house in pChart.houses: house.relocate(house.lon + rotation) for angle in pChart.angles: angle.relocate(angle.lon + rotation) return pChart
python
def compute(chart, date, fixedObjects=False): """ Returns a profection chart for a given date. Receives argument 'fixedObjects' to fix chart objects in their natal locations. """ sun = chart.getObject(const.SUN) prevSr = ephem.prevSolarReturn(date, sun.lon) nextSr = ephem.nextSolarReturn(date, sun.lon) # In one year, rotate chart 30º rotation = 30 * (date.jd - prevSr.jd) / (nextSr.jd - prevSr.jd) # Include 30º for each previous year age = math.floor((date.jd - chart.date.jd) / 365.25) rotation = 30 * age + rotation # Create a copy of the chart and rotate content pChart = chart.copy() for obj in pChart.objects: if not fixedObjects: obj.relocate(obj.lon + rotation) for house in pChart.houses: house.relocate(house.lon + rotation) for angle in pChart.angles: angle.relocate(angle.lon + rotation) return pChart
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/predictives/profections.py#L16-L44
flatangle/flatlib
flatlib/protocols/behavior.py
_merge
def _merge(listA, listB): """ Merges two list of objects removing repetitions. """ listA = [x.id for x in listA] listB = [x.id for x in listB] listA.extend(listB) set_ = set(listA) return list(set_)
python
def _merge(listA, listB): """ Merges two list of objects removing repetitions. """ listA = [x.id for x in listA] listB = [x.id for x in listB] listA.extend(listB) set_ = set(listA) return list(set_)
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/protocols/behavior.py#L16-L25
flatangle/flatlib
flatlib/protocols/behavior.py
compute
def compute(chart): """ Computes the behavior. """ factors = [] # Planets in House1 or Conjunct Asc house1 = chart.getHouse(const.HOUSE1) planetsHouse1 = chart.objects.getObjectsInHouse(house1) asc = chart.getAngle(const.ASC) planetsConjAsc = chart.objects.getObjectsAspecting(asc, [0]) _set = _merge(planetsHouse1, planetsConjAsc) factors.append(['Planets in House1 or Conj Asc', _set]) # Planets conjunct Moon or Mercury moon = chart.get(const.MOON) mercury = chart.get(const.MERCURY) planetsConjMoon = chart.objects.getObjectsAspecting(moon, [0]) planetsConjMercury = chart.objects.getObjectsAspecting(mercury, [0]) _set = _merge(planetsConjMoon, planetsConjMercury) factors.append(['Planets Conj Moon or Mercury', _set]) # Asc ruler if aspected by disposer ascRulerID = essential.ruler(asc.sign) ascRuler = chart.getObject(ascRulerID) disposerID = essential.ruler(ascRuler.sign) disposer = chart.getObject(disposerID) _set = [] if aspects.isAspecting(disposer, ascRuler, const.MAJOR_ASPECTS): _set = [ascRuler.id] factors.append(['Asc Ruler if aspected by its disposer', _set]); # Planets aspecting Moon or Mercury aspMoon = chart.objects.getObjectsAspecting(moon, [60,90,120,180]) aspMercury = chart.objects.getObjectsAspecting(mercury, [60,90,120,180]) _set = _merge(aspMoon, aspMercury) factors.append(['Planets Asp Moon or Mercury', _set]) return factors
python
def compute(chart): """ Computes the behavior. """ factors = [] # Planets in House1 or Conjunct Asc house1 = chart.getHouse(const.HOUSE1) planetsHouse1 = chart.objects.getObjectsInHouse(house1) asc = chart.getAngle(const.ASC) planetsConjAsc = chart.objects.getObjectsAspecting(asc, [0]) _set = _merge(planetsHouse1, planetsConjAsc) factors.append(['Planets in House1 or Conj Asc', _set]) # Planets conjunct Moon or Mercury moon = chart.get(const.MOON) mercury = chart.get(const.MERCURY) planetsConjMoon = chart.objects.getObjectsAspecting(moon, [0]) planetsConjMercury = chart.objects.getObjectsAspecting(mercury, [0]) _set = _merge(planetsConjMoon, planetsConjMercury) factors.append(['Planets Conj Moon or Mercury', _set]) # Asc ruler if aspected by disposer ascRulerID = essential.ruler(asc.sign) ascRuler = chart.getObject(ascRulerID) disposerID = essential.ruler(ascRuler.sign) disposer = chart.getObject(disposerID) _set = [] if aspects.isAspecting(disposer, ascRuler, const.MAJOR_ASPECTS): _set = [ascRuler.id] factors.append(['Asc Ruler if aspected by its disposer', _set]); # Planets aspecting Moon or Mercury aspMoon = chart.objects.getObjectsAspecting(moon, [60,90,120,180]) aspMercury = chart.objects.getObjectsAspecting(mercury, [60,90,120,180]) _set = _merge(aspMoon, aspMercury) factors.append(['Planets Asp Moon or Mercury', _set]) return factors
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/protocols/behavior.py#L28-L69
flatangle/flatlib
flatlib/dignities/tables.py
termLons
def termLons(TERMS): """ Returns a list with the absolute longitude of all terms. """ res = [] for i, sign in enumerate(SIGN_LIST): termList = TERMS[sign] res.extend([ ID, sign, start + 30 * i, ] for (ID, start, end) in termList) return res
python
def termLons(TERMS): """ Returns a list with the absolute longitude of all terms. """ res = [] for i, sign in enumerate(SIGN_LIST): termList = TERMS[sign] res.extend([ ID, sign, start + 30 * i, ] for (ID, start, end) in termList) return res
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Returns a list with the absolute longitude of all terms.
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train
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flatangle/flatlib
flatlib/protocols/almutem.py
compute
def compute(chart): """ Computes the Almutem table. """ almutems = {} # Hylegic points hylegic = [ chart.getObject(const.SUN), chart.getObject(const.MOON), chart.getAngle(const.ASC), chart.getObject(const.PARS_FORTUNA), chart.getObject(const.SYZYGY) ] for hyleg in hylegic: row = newRow() digInfo = essential.getInfo(hyleg.sign, hyleg.signlon) # Add the scores of each planet where hyleg has dignities for dignity in DIGNITY_LIST: objID = digInfo[dignity] if objID: score = essential.SCORES[dignity] row[objID]['string'] += '+%s' % score row[objID]['score'] += score almutems[hyleg.id] = row # House positions row = newRow() for objID in OBJECT_LIST: obj = chart.getObject(objID) house = chart.houses.getObjectHouse(obj) score = HOUSE_SCORES[house.id] row[objID]['string'] = '+%s' % score row[objID]['score'] = score almutems['Houses'] = row # Planetary time row = newRow() table = planetarytime.getHourTable(chart.date, chart.pos) ruler = table.currRuler() hourRuler = table.hourRuler() row[ruler] = { 'string': '+7', 'score': 7 } row[hourRuler] = { 'string': '+6', 'score': 6 } almutems['Rulers'] = row; # Compute scores scores = newRow() for _property, _list in almutems.items(): for objID, values in _list.items(): scores[objID]['string'] += values['string'] scores[objID]['score'] += values['score'] almutems['Score'] = scores return almutems
python
def compute(chart): """ Computes the Almutem table. """ almutems = {} # Hylegic points hylegic = [ chart.getObject(const.SUN), chart.getObject(const.MOON), chart.getAngle(const.ASC), chart.getObject(const.PARS_FORTUNA), chart.getObject(const.SYZYGY) ] for hyleg in hylegic: row = newRow() digInfo = essential.getInfo(hyleg.sign, hyleg.signlon) # Add the scores of each planet where hyleg has dignities for dignity in DIGNITY_LIST: objID = digInfo[dignity] if objID: score = essential.SCORES[dignity] row[objID]['string'] += '+%s' % score row[objID]['score'] += score almutems[hyleg.id] = row # House positions row = newRow() for objID in OBJECT_LIST: obj = chart.getObject(objID) house = chart.houses.getObjectHouse(obj) score = HOUSE_SCORES[house.id] row[objID]['string'] = '+%s' % score row[objID]['score'] = score almutems['Houses'] = row # Planetary time row = newRow() table = planetarytime.getHourTable(chart.date, chart.pos) ruler = table.currRuler() hourRuler = table.hourRuler() row[ruler] = { 'string': '+7', 'score': 7 } row[hourRuler] = { 'string': '+6', 'score': 6 } almutems['Rulers'] = row; # Compute scores scores = newRow() for _property, _list in almutems.items(): for objID, values in _list.items(): scores[objID]['string'] += values['string'] scores[objID]['score'] += values['score'] almutems['Score'] = scores return almutems
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Computes the Almutem table.
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train
https://github.com/flatangle/flatlib/blob/44e05b2991a296c678adbc17a1d51b6a21bc867c/flatlib/protocols/almutem.py#L58-L117
gophish/api-client-python
gophish/api/api.py
APIEndpoint.get
def get(self, resource_id=None, resource_action=None, resource_cls=None, single_resource=False): """ Gets the details for one or more resources by ID Args: cls - gophish.models.Model - The resource class resource_id - str - The endpoint (URL path) for the resource resource_action - str - An action to perform on the resource resource_cls - cls - A class to use for parsing, if different than the base resource single_resource - bool - An override to tell Gophish that even though we aren't requesting a single resource, we expect a single response object Returns: One or more instances of cls parsed from the returned JSON """ endpoint = self.endpoint if not resource_cls: resource_cls = self._cls if resource_id: endpoint = self._build_url(endpoint, resource_id) if resource_action: endpoint = self._build_url(endpoint, resource_action) response = self.api.execute("GET", endpoint) if not response.ok: raise Error.parse(response.json()) if resource_id or single_resource: return resource_cls.parse(response.json()) return [resource_cls.parse(resource) for resource in response.json()]
python
def get(self, resource_id=None, resource_action=None, resource_cls=None, single_resource=False): """ Gets the details for one or more resources by ID Args: cls - gophish.models.Model - The resource class resource_id - str - The endpoint (URL path) for the resource resource_action - str - An action to perform on the resource resource_cls - cls - A class to use for parsing, if different than the base resource single_resource - bool - An override to tell Gophish that even though we aren't requesting a single resource, we expect a single response object Returns: One or more instances of cls parsed from the returned JSON """ endpoint = self.endpoint if not resource_cls: resource_cls = self._cls if resource_id: endpoint = self._build_url(endpoint, resource_id) if resource_action: endpoint = self._build_url(endpoint, resource_action) response = self.api.execute("GET", endpoint) if not response.ok: raise Error.parse(response.json()) if resource_id or single_resource: return resource_cls.parse(response.json()) return [resource_cls.parse(resource) for resource in response.json()]
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train
https://github.com/gophish/api-client-python/blob/28a7790f19e13c92ef0fb7bde8cd89389df5c155/gophish/api/api.py#L40-L79
gophish/api-client-python
gophish/api/api.py
APIEndpoint.post
def post(self, resource): """ Creates a new instance of the resource. Args: resource - gophish.models.Model - The resource instance """ response = self.api.execute( "POST", self.endpoint, json=(resource.as_dict())) if not response.ok: raise Error.parse(response.json()) return self._cls.parse(response.json())
python
def post(self, resource): """ Creates a new instance of the resource. Args: resource - gophish.models.Model - The resource instance """ response = self.api.execute( "POST", self.endpoint, json=(resource.as_dict())) if not response.ok: raise Error.parse(response.json()) return self._cls.parse(response.json())
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Creates a new instance of the resource. Args: resource - gophish.models.Model - The resource instance
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train
https://github.com/gophish/api-client-python/blob/28a7790f19e13c92ef0fb7bde8cd89389df5c155/gophish/api/api.py#L81-L94
gophish/api-client-python
gophish/api/api.py
APIEndpoint.put
def put(self, resource): """ Edits an existing resource Args: resource - gophish.models.Model - The resource instance """ endpoint = self.endpoint if resource.id: endpoint = self._build_url(endpoint, resource.id) response = self.api.execute("PUT", endpoint, json=resource.as_dict()) if not response.ok: raise Error.parse(response.json()) return self._cls.parse(response.json())
python
def put(self, resource): """ Edits an existing resource Args: resource - gophish.models.Model - The resource instance """ endpoint = self.endpoint if resource.id: endpoint = self._build_url(endpoint, resource.id) response = self.api.execute("PUT", endpoint, json=resource.as_dict()) if not response.ok: raise Error.parse(response.json()) return self._cls.parse(response.json())
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Edits an existing resource Args: resource - gophish.models.Model - The resource instance
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train
https://github.com/gophish/api-client-python/blob/28a7790f19e13c92ef0fb7bde8cd89389df5c155/gophish/api/api.py#L96-L113
gophish/api-client-python
gophish/api/api.py
APIEndpoint.delete
def delete(self, resource_id): """ Deletes an existing resource Args: resource_id - int - The resource ID to be deleted """ endpoint = '{}/{}'.format(self.endpoint, resource_id) response = self.api.execute("DELETE", endpoint) if not response.ok: raise Error.parse(response.json()) return self._cls.parse(response.json())
python
def delete(self, resource_id): """ Deletes an existing resource Args: resource_id - int - The resource ID to be deleted """ endpoint = '{}/{}'.format(self.endpoint, resource_id) response = self.api.execute("DELETE", endpoint) if not response.ok: raise Error.parse(response.json()) return self._cls.parse(response.json())
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Deletes an existing resource Args: resource_id - int - The resource ID to be deleted
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train
https://github.com/gophish/api-client-python/blob/28a7790f19e13c92ef0fb7bde8cd89389df5c155/gophish/api/api.py#L115-L129
gophish/api-client-python
gophish/models.py
Model.as_dict
def as_dict(self): """ Returns a dict representation of the resource """ result = {} for key in self._valid_properties: val = getattr(self, key) if isinstance(val, datetime): val = val.isoformat() # Parse custom classes elif val and not Model._is_builtin(val): val = val.as_dict() # Parse lists of objects elif isinstance(val, list): # We only want to call as_dict in the case where the item # isn't a builtin type. for i in range(len(val)): if Model._is_builtin(val[i]): continue val[i] = val[i].as_dict() # If it's a boolean, add it regardless of the value elif isinstance(val, bool): result[key] = val # Add it if it's not None if val: result[key] = val return result
python
def as_dict(self): """ Returns a dict representation of the resource """ result = {} for key in self._valid_properties: val = getattr(self, key) if isinstance(val, datetime): val = val.isoformat() # Parse custom classes elif val and not Model._is_builtin(val): val = val.as_dict() # Parse lists of objects elif isinstance(val, list): # We only want to call as_dict in the case where the item # isn't a builtin type. for i in range(len(val)): if Model._is_builtin(val[i]): continue val[i] = val[i].as_dict() # If it's a boolean, add it regardless of the value elif isinstance(val, bool): result[key] = val # Add it if it's not None if val: result[key] = val return result
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Returns a dict representation of the resource
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train
https://github.com/gophish/api-client-python/blob/28a7790f19e13c92ef0fb7bde8cd89389df5c155/gophish/models.py#L21-L46
gophish/api-client-python
gophish/client.py
GophishClient.execute
def execute(self, method, path, **kwargs): """ Executes a request to a given endpoint, returning the result """ url = "{}{}".format(self.host, path) kwargs.update(self._client_kwargs) response = requests.request( method, url, headers={"Authorization": "Bearer {}".format(self.api_key)}, **kwargs) return response
python
def execute(self, method, path, **kwargs): """ Executes a request to a given endpoint, returning the result """ url = "{}{}".format(self.host, path) kwargs.update(self._client_kwargs) response = requests.request( method, url, headers={"Authorization": "Bearer {}".format(self.api_key)}, **kwargs) return response
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Executes a request to a given endpoint, returning the result
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train
https://github.com/gophish/api-client-python/blob/28a7790f19e13c92ef0fb7bde8cd89389df5c155/gophish/client.py#L16-L26
gophish/api-client-python
gophish/api/campaigns.py
API.complete
def complete(self, campaign_id): """ Complete an existing campaign (Stop processing events) """ return super(API, self).get( resource_id=campaign_id, resource_action='complete')
python
def complete(self, campaign_id): """ Complete an existing campaign (Stop processing events) """ return super(API, self).get( resource_id=campaign_id, resource_action='complete')
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Complete an existing campaign (Stop processing events)
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train
https://github.com/gophish/api-client-python/blob/28a7790f19e13c92ef0fb7bde8cd89389df5c155/gophish/api/campaigns.py#L32-L36