def __init__(self, *predicates): UnaryPredicate1D.__init__(self) self.predicates = predicates # there are cases in which only one predicate is supplied (in the parameter editor) if len(self.predicates) < 1: raise ValueError("Expected one or more UnaryPredicate1D, got ", len(predicates))
def __init__(self, wsize, threshold, functor, funcmin=0.0, funcmax=1.0, integration=IntegrationType.MEAN): UnaryPredicate1D.__init__(self) self._threshold = float(threshold) self._functor = functor self._funcmin = float(funcmin) self._funcmax = float(funcmax) self._func = DensityF1D(wsize, integration)
def __init__(self, *predicates): UnaryPredicate1D.__init__(self) self.predicates = predicates correct_types = all(isinstance(p, UnaryPredicate1D) for p in self.predicates) if not (correct_types and predicates): raise TypeError("%s: Expected one or more UnaryPredicate1D, got %r" % (self.__class__.__name__, self.predicates))
def __init__(self, threshold, orientation, level, integration=IntegrationType.MEAN, sampling=2.0): UnaryPredicate1D.__init__(self) self._threshold = threshold self._orientation = orientation self._level = level self._integration = integration self._sampling = sampling
def __init__(self, threshold, level, integration=IntegrationType.MEAN, sampling=2.0): UnaryPredicate1D.__init__(self) self._threshold = threshold self._level = level self._integration = integration self._sampling = sampling self._func = GetCompleteViewMapDensityF1D(self._level, self._integration, self._sampling) # 2.0 is the smpling
def __init__(self, id): UnaryPredicate1D.__init__(self) if not isinstance(id, Id): raise TypeError( "pyIsOccludedByUP1D expected freestyle.types.Id, not " + type(id).__name__) self._id = id
def __init__(self, threshold, level, integration=IntegrationType.MEAN): UnaryPredicate1D.__init__(self) self._threshold = threshold self._level = level self._integration = integration self._func = GetSteerableViewMapDensityF1D(self._level, self._integration)
def __init__(self, threshold, level, integration=IntegrationType.MEAN, sampling=2.0): UnaryPredicate1D.__init__(self) self._threshold = threshold self._func = GetCompleteViewMapDensityF1D(level, integration, sampling)
def __init__(self, threshold, orientation, level, integration=IntegrationType.MEAN, sampling=2.0): UnaryPredicate1D.__init__(self) self._threshold = threshold self._func = GetDirectionalViewMapDensityF1D(orientation, level, integration, sampling)
def __init__(self, wsize, threshold, integration=IntegrationType.MEAN, sampling=2.0): UnaryPredicate1D.__init__(self) self._wsize = wsize self._threshold = threshold self._integration = integration self._func = DensityF1D(self._wsize, self._integration, sampling)
def __init__(self, threshold, orientation, level, integration=IntegrationType.MEAN): UnaryPredicate1D.__init__(self) self._threshold = threshold self._orientation = orientation self._level = level self._integration = integration
def __init__(self, functor, sigmaMin, sigmaMax, lmin, lmax, tmin, tmax, integration=IntegrationType.MEAN, sampling=2.0): UnaryPredicate1D.__init__(self) self._functor = functor self._sigmaMin = float(sigmaMin) self._sigmaMax = float(sigmaMax) self._lmin = float(lmin) self._lmax = float(lmax) self._tmin = tmin self._tmax = tmax self._integration = integration self._sampling = sampling
def __init__(self): UnaryPredicate1D.__init__(self) self.__func1 = GetOccludersF1D() self.__func2 = GetShapeF1D()
def __init__(self, pred1, pred2): UnaryPredicate1D.__init__(self) self.__pred1 = pred1 self.__pred2 = pred2
def __init__(self, *predicates): UnaryPredicate1D.__init__(self) self.predicates = predicates # there are cases in which only one predicate is supplied (in the parameter editor) if len(self.predicates) < 1: raise ValueError("Expected two or more UnaryPredicate1D, got ", len(predicates))
def __init__(self, n, a): UnaryPredicate1D.__init__(self) self._n = n self._a = a
def __init__(self, threshold, level, integration=IntegrationType.MEAN): UnaryPredicate1D.__init__(self) self._threshold = threshold self._level = level self._integration = integration
def __init__(self, n, a): UnaryPredicate1D.__init__(self) self._n = n self._a = a self.func = Curvature2DAngleF0D()
def __init__(self, nature): UnaryPredicate1D.__init__(self) self._nature = nature self._getNature = CurveNatureF1D()
def __init__(self, l): UnaryPredicate1D.__init__(self) self._l = l
def __init__(self, n): UnaryPredicate1D.__init__(self) self.__n = n self.__count = 0
def __init__(self, pred): UnaryPredicate1D.__init__(self) self.__pred = pred
def __init__(self, idlist): UnaryPredicate1D.__init__(self) self._funcs = tuple(ShapeUP1D(_id, 0) for _id in idlist)
def __init__(self, threshold, level, sampling=2.0): UnaryPredicate1D.__init__(self) self._l = threshold self.func = pyDensityAnisotropyF1D(level, IntegrationType.MEAN, sampling)
def __init__(self, z, integration=IntegrationType.MEAN): UnaryPredicate1D.__init__(self) self._z = z self._integration = integration
def __init__(self, threshold, l, sampling=2.0): UnaryPredicate1D.__init__(self) self._threshold = threshold self._GetGradient = pyViewMapGradientNormF1D(l, IntegrationType.MEAN)
def __init__(self, length_min=None, length_max=None): UnaryPredicate1D.__init__(self) self.length_min = length_min self.length_max = length_max
def __init__(self, names, negative): UnaryPredicate1D.__init__(self) self.names = names self.negative = negative
def __init__(self,z, integration=IntegrationType.MEAN): UnaryPredicate1D.__init__(self) self._z = z self._integration = integration
def __init__(self,n,a): UnaryPredicate1D.__init__(self) self._n = n self._a = a
def __init__(self, threshold, level, integration=IntegrationType.MEAN): UnaryPredicate1D.__init__(self) self._threshold = threshold self._func = GetSteerableViewMapDensityF1D(level, integration)
def __init__(self,idlist): UnaryPredicate1D.__init__(self) self._idlist = idlist self._funcs = [] for _id in idlist: self._funcs.append(ShapeUP1D(_id.first, _id.second))
def __init__(self, idlist): UnaryPredicate1D.__init__(self) self._idlist = idlist self._funcs = [] for _id in idlist: self._funcs.append(ShapeUP1D(_id.first, _id.second))
def __init__(self, qi_start, qi_end): UnaryPredicate1D.__init__(self) self.getQI = QuantitativeInvisibilityF1D() self.qi_start = qi_start self.qi_end = qi_end
def __init__(self, names, negative=False): UnaryPredicate1D.__init__(self) self._names = names self._negative = negative
def __init__(self, pred): UnaryPredicate1D.__init__(self) self.predicate = pred
def __init__(self, qi_start, qi_end): UnaryPredicate1D.__init__(self) self.__getQI = QuantitativeInvisibilityF1D() self.__qi_start = qi_start self.__qi_end = qi_end
def __init__(self, z, integration=IntegrationType.MEAN): UnaryPredicate1D.__init__(self) self._z = z self.func = GetProjectedZF1D(integration)
def __init__(self, id): UnaryPredicate1D.__init__(self) if not isinstance(id, Id): raise TypeError("pyIsOccludedByUP1D expected freestyle.types.Id, not " + type(id).__name__) self._id = id
def __init__(self, idlist): UnaryPredicate1D.__init__(self) self._idlist = idlist self.__func1 = GetOccludersF1D()
def __init__(self, _id): UnaryPredicate1D.__init__(self) self._id = _id