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from freestyle_init import *
class CurveMaterialF0D(UnaryFunction0DMaterial):
# A replacement of the built-in MaterialF0D for stroke creation.
# MaterialF0D does not work with Curves and Strokes.
def getName(self):
return "CurveMaterialF0D"
def __call__(self, inter):
cp = inter.object
assert(isinstance(cp, CurvePoint))
fe = cp.first_svertex.get_fedge(cp.second_svertex)
assert(fe is not None)
return fe.material if fe.is_smooth else fe.material_left
class pyInverseCurvature2DAngleF0D(UnaryFunction0DDouble):
def getName(self):
return "InverseCurvature2DAngleF0D"
def __call__(self, inter):
func = Curvature2DAngleF0D()
c = func(inter)
return (3.1415 - c)
class pyCurvilinearLengthF0D(UnaryFunction0DDouble):
def getName(self):
return "CurvilinearLengthF0D"
def __call__(self, inter):
cp = inter.object
assert(isinstance(cp, CurvePoint))
return cp.t2d
## estimate anisotropy of density
class pyDensityAnisotropyF0D(UnaryFunction0DDouble):
def __init__(self,level):
UnaryFunction0DDouble.__init__(self)
self.IsoDensity = ReadCompleteViewMapPixelF0D(level)
self.d0Density = ReadSteerableViewMapPixelF0D(0, level)
self.d1Density = ReadSteerableViewMapPixelF0D(1, level)
self.d2Density = ReadSteerableViewMapPixelF0D(2, level)
self.d3Density = ReadSteerableViewMapPixelF0D(3, level)
def getName(self):
return "pyDensityAnisotropyF0D"
def __call__(self, inter):
c_iso = self.IsoDensity(inter)
c_0 = self.d0Density(inter)
c_1 = self.d1Density(inter)
c_2 = self.d2Density(inter)
c_3 = self.d3Density(inter)
cMax = max(max(c_0,c_1), max(c_2,c_3))
cMin = min(min(c_0,c_1), min(c_2,c_3))
if c_iso == 0:
v = 0
else:
v = (cMax-cMin)/c_iso
return v
## Returns the gradient vector for a pixel
## l
## the level at which one wants to compute the gradient
class pyViewMapGradientVectorF0D(UnaryFunction0DVec2f):
def __init__(self, l):
UnaryFunction0DVec2f.__init__(self)
self._l = l
self._step = pow(2,self._l)
def getName(self):
return "pyViewMapGradientVectorF0D"
def __call__(self, iter):
p = iter.object.point_2d
gx = ReadCompleteViewMapPixelCF(self._l, int(p.x+self._step), int(p.y))- ReadCompleteViewMapPixelCF(self._l, int(p.x), int(p.y))
gy = ReadCompleteViewMapPixelCF(self._l, int(p.x), int(p.y+self._step))- ReadCompleteViewMapPixelCF(self._l, int(p.x), int(p.y))
return Vector([gx, gy])
class pyViewMapGradientNormF0D(UnaryFunction0DDouble):
def __init__(self, l):
UnaryFunction0DDouble.__init__(self)
self._l = l
self._step = pow(2,self._l)
def getName(self):
return "pyViewMapGradientNormF0D"
def __call__(self, iter):
p = iter.object.point_2d
gx = ReadCompleteViewMapPixelCF(self._l, int(p.x+self._step), int(p.y))- ReadCompleteViewMapPixelCF(self._l, int(p.x), int(p.y))
gy = ReadCompleteViewMapPixelCF(self._l, int(p.x), int(p.y+self._step))- ReadCompleteViewMapPixelCF(self._l, int(p.x), int(p.y))
grad = Vector([gx, gy])
return grad.length
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