blender/release/scripts/freestyle/style_modules/parameter_editor.py

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# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# Filename : parameter_editor.py
# Authors : Tamito Kajiyama
# Date : 26/07/2010
# Purpose : Interactive manipulation of stylization parameters
import freestyle
import math
import mathutils
import time
from ChainingIterators import pySketchyChainSilhouetteIterator, pySketchyChainingIterator
from freestyle import BackboneStretcherShader, BezierCurveShader, BinaryPredicate1D, ChainPredicateIterator, \
ChainSilhouetteIterator, ConstantColorShader, ContourUP1D, Curvature2DAngleF0D, ExternalContourUP1D, \
FalseBP1D, FalseUP1D, GuidingLinesShader, Interface0DIterator, Nature, Noise, Normal2DF0D, Operators, \
PolygonalizationShader, QuantitativeInvisibilityF1D, QuantitativeInvisibilityUP1D, SamplingShader, \
SpatialNoiseShader, StrokeAttribute, StrokeShader, TipRemoverShader, TrueBP1D, TrueUP1D, UnaryPredicate0D, \
UnaryPredicate1D, VertexOrientation2DF0D, WithinImageBoundaryUP1D, ContextFunctions, TVertex
from Functions0D import CurveMaterialF0D
from PredicatesU1D import pyNatureUP1D
from logical_operators import AndUP1D, NotUP1D, OrUP1D
from shaders import pyBluePrintCirclesShader, pyBluePrintEllipsesShader, pyBluePrintSquaresShader
class ColorRampModifier(StrokeShader):
def __init__(self, blend, influence, ramp):
StrokeShader.__init__(self)
self.__blend = blend
self.__influence = influence
self.__ramp = ramp
def evaluate(self, t):
col = freestyle.evaluateColorRamp(self.__ramp, t)
col = col.xyz # omit alpha
return col
def blend_ramp(self, a, b):
return freestyle.blendRamp(self.__blend, a, self.__influence, b)
class ScalarBlendModifier(StrokeShader):
def __init__(self, blend, influence):
StrokeShader.__init__(self)
self.__blend = blend
self.__influence = influence
def blend(self, v1, v2):
fac = self.__influence
facm = 1.0 - fac
if self.__blend == 'MIX':
v1 = facm * v1 + fac * v2
elif self.__blend == 'ADD':
v1 += fac * v2
elif self.__blend == 'MULTIPLY':
v1 *= facm + fac * v2
elif self.__blend == 'SUBTRACT':
v1 -= fac * v2
elif self.__blend == 'DIVIDE':
if v2 != 0.0:
v1 = facm * v1 + fac * v1 / v2
elif self.__blend == 'DIFFERENCE':
v1 = facm * v1 + fac * abs(v1 - v2)
elif self.__blend == 'MININUM':
tmp = fac * v2
if v1 > tmp:
v1 = tmp
elif self.__blend == 'MAXIMUM':
tmp = fac * v2
if v1 < tmp:
v1 = tmp
else:
raise ValueError("unknown curve blend type: " + self.__blend)
return v1
class CurveMappingModifier(ScalarBlendModifier):
def __init__(self, blend, influence, mapping, invert, curve):
ScalarBlendModifier.__init__(self, blend, influence)
assert mapping in {'LINEAR', 'CURVE'}
self.__mapping = getattr(self, mapping)
self.__invert = invert
self.__curve = curve
def LINEAR(self, t):
if self.__invert:
return 1.0 - t
return t
def CURVE(self, t):
return freestyle.evaluateCurveMappingF(self.__curve, 0, t)
def evaluate(self, t):
return self.__mapping(t)
class ThicknessModifierMixIn:
def __init__(self):
scene = freestyle.getCurrentScene()
self.__persp_camera = (scene.camera.data.type == 'PERSP')
def set_thickness(self, sv, outer, inner):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
fe = sv.first_svertex.get_fedge(sv.second_svertex)
nature = fe.nature
if (nature & Nature.BORDER):
if self.__persp_camera:
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
point = -sv.point_3d.copy()
point.normalize()
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
dir = point.dot(fe.normal_left)
else:
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
dir = fe.normal_left.z
if dir < 0.0: # the back side is visible
outer, inner = inner, outer
elif (nature & Nature.SILHOUETTE):
if fe.is_smooth: # TODO more tests needed
outer, inner = inner, outer
else:
outer = inner = (outer + inner) / 2
sv.attribute.thickness = (outer, inner)
class ThicknessBlenderMixIn(ThicknessModifierMixIn):
def __init__(self, position, ratio):
ThicknessModifierMixIn.__init__(self)
self.__position = position
self.__ratio = ratio
def blend_thickness(self, outer, inner, v):
v = self.blend(outer + inner, v)
if self.__position == 'CENTER':
outer = v * 0.5
inner = v - outer
elif self.__position == 'INSIDE':
outer = 0
inner = v
elif self.__position == 'OUTSIDE':
outer = v
inner = 0
elif self.__position == 'RELATIVE':
outer = v * self.__ratio
inner = v - outer
else:
raise ValueError("unknown thickness position: " + self.__position)
return outer, inner
class BaseColorShader(ConstantColorShader):
pass
class BaseThicknessShader(StrokeShader, ThicknessModifierMixIn):
def __init__(self, thickness, position, ratio):
StrokeShader.__init__(self)
ThicknessModifierMixIn.__init__(self)
if position == 'CENTER':
self.__outer = thickness * 0.5
self.__inner = thickness - self.__outer
elif position == 'INSIDE':
self.__outer = 0
self.__inner = thickness
elif position == 'OUTSIDE':
self.__outer = thickness
self.__inner = 0
elif position == 'RELATIVE':
self.__outer = thickness * ratio
self.__inner = thickness - self.__outer
else:
raise ValueError("unknown thickness position: " + self.position)
def shade(self, stroke):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
sv = it.object
self.set_thickness(sv, self.__outer, self.__inner)
it.increment()
# Along Stroke modifiers
def iter_t2d_along_stroke(stroke):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
total = stroke.length_2d
distance = 0.0
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
prev = it.object.point
while not it.is_end:
p = it.object.point
distance += (prev - p).length
prev = p.copy() # need a copy because the point can be altered
t = min(distance / total, 1.0) if total > 0.0 else 0.0
yield it, t
it.increment()
class ColorAlongStrokeShader(ColorRampModifier):
def shade(self, stroke):
for it, t in iter_t2d_along_stroke(stroke):
sv = it.object
a = sv.attribute.color
b = self.evaluate(t)
sv.attribute.color = self.blend_ramp(a, b)
class AlphaAlongStrokeShader(CurveMappingModifier):
def shade(self, stroke):
for it, t in iter_t2d_along_stroke(stroke):
sv = it.object
a = sv.attribute.alpha
b = self.evaluate(t)
sv.attribute.alpha = self.blend(a, b)
class ThicknessAlongStrokeShader(ThicknessBlenderMixIn, CurveMappingModifier):
def __init__(self, thickness_position, thickness_ratio,
blend, influence, mapping, invert, curve, value_min, value_max):
ThicknessBlenderMixIn.__init__(self, thickness_position, thickness_ratio)
CurveMappingModifier.__init__(self, blend, influence, mapping, invert, curve)
self.__value_min = value_min
self.__value_max = value_max
def shade(self, stroke):
for it, t in iter_t2d_along_stroke(stroke):
sv = it.object
a = sv.attribute.thickness
b = self.__value_min + self.evaluate(t) * (self.__value_max - self.__value_min)
c = self.blend_thickness(a[0], a[1], b)
self.set_thickness(sv, c[0], c[1])
# Distance from Camera modifiers
def iter_distance_from_camera(stroke, range_min, range_max):
normfac = range_max - range_min # normalization factor
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
p = it.object.point_3d # in the camera coordinate
distance = p.length
if distance < range_min:
t = 0.0
elif distance > range_max:
t = 1.0
else:
t = (distance - range_min) / normfac
yield it, t
it.increment()
class ColorDistanceFromCameraShader(ColorRampModifier):
def __init__(self, blend, influence, ramp, range_min, range_max):
ColorRampModifier.__init__(self, blend, influence, ramp)
self.__range_min = range_min
self.__range_max = range_max
def shade(self, stroke):
for it, t in iter_distance_from_camera(stroke, self.__range_min, self.__range_max):
sv = it.object
a = sv.attribute.color
b = self.evaluate(t)
sv.attribute.color = self.blend_ramp(a, b)
class AlphaDistanceFromCameraShader(CurveMappingModifier):
def __init__(self, blend, influence, mapping, invert, curve, range_min, range_max):
CurveMappingModifier.__init__(self, blend, influence, mapping, invert, curve)
self.__range_min = range_min
self.__range_max = range_max
def shade(self, stroke):
for it, t in iter_distance_from_camera(stroke, self.__range_min, self.__range_max):
sv = it.object
a = sv.attribute.alpha
b = self.evaluate(t)
sv.attribute.alpha = self.blend(a, b)
class ThicknessDistanceFromCameraShader(ThicknessBlenderMixIn, CurveMappingModifier):
def __init__(self, thickness_position, thickness_ratio,
blend, influence, mapping, invert, curve, range_min, range_max, value_min, value_max):
ThicknessBlenderMixIn.__init__(self, thickness_position, thickness_ratio)
CurveMappingModifier.__init__(self, blend, influence, mapping, invert, curve)
self.__range_min = range_min
self.__range_max = range_max
self.__value_min = value_min
self.__value_max = value_max
def shade(self, stroke):
for it, t in iter_distance_from_camera(stroke, self.__range_min, self.__range_max):
sv = it.object
a = sv.attribute.thickness
b = self.__value_min + self.evaluate(t) * (self.__value_max - self.__value_min)
c = self.blend_thickness(a[0], a[1], b)
self.set_thickness(sv, c[0], c[1])
# Distance from Object modifiers
def iter_distance_from_object(stroke, object, range_min, range_max):
scene = freestyle.getCurrentScene()
mv = scene.camera.matrix_world.copy() # model-view matrix
mv.invert()
loc = mv * object.location # loc in the camera coordinate
normfac = range_max - range_min # normalization factor
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
p = it.object.point_3d # in the camera coordinate
distance = (p - loc).length
if distance < range_min:
t = 0.0
elif distance > range_max:
t = 1.0
else:
t = (distance - range_min) / normfac
yield it, t
it.increment()
class ColorDistanceFromObjectShader(ColorRampModifier):
def __init__(self, blend, influence, ramp, target, range_min, range_max):
ColorRampModifier.__init__(self, blend, influence, ramp)
self.__target = target
self.__range_min = range_min
self.__range_max = range_max
def shade(self, stroke):
if self.__target is None:
return
for it, t in iter_distance_from_object(stroke, self.__target, self.__range_min, self.__range_max):
sv = it.object
a = sv.attribute.color
b = self.evaluate(t)
sv.attribute.color = self.blend_ramp(a, b)
class AlphaDistanceFromObjectShader(CurveMappingModifier):
def __init__(self, blend, influence, mapping, invert, curve, target, range_min, range_max):
CurveMappingModifier.__init__(self, blend, influence, mapping, invert, curve)
self.__target = target
self.__range_min = range_min
self.__range_max = range_max
def shade(self, stroke):
if self.__target is None:
return
for it, t in iter_distance_from_object(stroke, self.__target, self.__range_min, self.__range_max):
sv = it.object
a = sv.attribute.alpha
b = self.evaluate(t)
sv.attribute.alpha = self.blend(a, b)
class ThicknessDistanceFromObjectShader(ThicknessBlenderMixIn, CurveMappingModifier):
def __init__(self, thickness_position, thickness_ratio,
blend, influence, mapping, invert, curve, target, range_min, range_max, value_min, value_max):
ThicknessBlenderMixIn.__init__(self, thickness_position, thickness_ratio)
CurveMappingModifier.__init__(self, blend, influence, mapping, invert, curve)
self.__target = target
self.__range_min = range_min
self.__range_max = range_max
self.__value_min = value_min
self.__value_max = value_max
def shade(self, stroke):
if self.__target is None:
return
for it, t in iter_distance_from_object(stroke, self.__target, self.__range_min, self.__range_max):
sv = it.object
a = sv.attribute.thickness
b = self.__value_min + self.evaluate(t) * (self.__value_max - self.__value_min)
c = self.blend_thickness(a[0], a[1], b)
self.set_thickness(sv, c[0], c[1])
# Material modifiers
def iter_material_color(stroke, material_attribute):
Stability improvements for the Face Smoothness option. The instability considered here is due to a persistent failure of the getFEdge() method in the Interface0D class and its subclasses in the presence of smooth FEdges. When the Face Smoothness option is enabled, the view map is populated with not only sharp FEdges (i.e., edges in the original meshes) but also smooth FEdges (i.e., newly built edges lying on triangular surfaces). The failure of getFEdge() caused many related issues because the method is widely used in other predicates and functions that rely on it. The most prominent example of related user-visible problems is a constant failure of the built-in MaterialF0D. The main issue and related problems were addressed as follows: * A bug in the construction of smooth FEdges was fixed. Individual smooth FEdges, even when they were detected as a series of smooth FEdges that constitute one smooth ViewEdge, may have some irregular geometry in the form of non-uniform OWXFaceLayer::order values. The OWXFaceLayer::order values were used in an inappropriate way, so that resulting smooth ViewEdges may have an FEdge between two subsequent SVertices that were indeed the same SVertex object. This was an unexpected situation that getFEdge() could not handle. * Another issue in the construction of smooth FEdges was resolved. When sharp FEdges are constructed, two SVertices at both ends of an FEdge are generated only when no SVertex exists in a given 3D position (this way, the original mesh topology is reconstructed from a bunch of independent triangles that the BlenderFileLoader class passes to the view map creation process). This sharing of SVertices was used also for the generation of SVertices at the two ends of each smooth FEdge, causing the getFEdge() failure in the presence of smooth FEdges. The workaround implemented here is to simply suppress the sharing of generated SVertices when smooth FEdges are created. * In the Parameter Editor mode, the built-in MaterialF0D was replaced with a better implementation that works well with Curves and Strokes. MaterialF0D does not work with these 1D data types.
2011-10-10 19:57:06 +00:00
func = CurveMaterialF0D()
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
material = func(Interface0DIterator(it))
if material_attribute == 'DIFF':
color = material.diffuse[0:3]
elif material_attribute == 'SPEC':
color = material.specular[0:3]
else:
raise ValueError("unexpected material attribute: " + material_attribute)
yield it, color
it.increment()
def iter_material_value(stroke, material_attribute):
Stability improvements for the Face Smoothness option. The instability considered here is due to a persistent failure of the getFEdge() method in the Interface0D class and its subclasses in the presence of smooth FEdges. When the Face Smoothness option is enabled, the view map is populated with not only sharp FEdges (i.e., edges in the original meshes) but also smooth FEdges (i.e., newly built edges lying on triangular surfaces). The failure of getFEdge() caused many related issues because the method is widely used in other predicates and functions that rely on it. The most prominent example of related user-visible problems is a constant failure of the built-in MaterialF0D. The main issue and related problems were addressed as follows: * A bug in the construction of smooth FEdges was fixed. Individual smooth FEdges, even when they were detected as a series of smooth FEdges that constitute one smooth ViewEdge, may have some irregular geometry in the form of non-uniform OWXFaceLayer::order values. The OWXFaceLayer::order values were used in an inappropriate way, so that resulting smooth ViewEdges may have an FEdge between two subsequent SVertices that were indeed the same SVertex object. This was an unexpected situation that getFEdge() could not handle. * Another issue in the construction of smooth FEdges was resolved. When sharp FEdges are constructed, two SVertices at both ends of an FEdge are generated only when no SVertex exists in a given 3D position (this way, the original mesh topology is reconstructed from a bunch of independent triangles that the BlenderFileLoader class passes to the view map creation process). This sharing of SVertices was used also for the generation of SVertices at the two ends of each smooth FEdge, causing the getFEdge() failure in the presence of smooth FEdges. The workaround implemented here is to simply suppress the sharing of generated SVertices when smooth FEdges are created. * In the Parameter Editor mode, the built-in MaterialF0D was replaced with a better implementation that works well with Curves and Strokes. MaterialF0D does not work with these 1D data types.
2011-10-10 19:57:06 +00:00
func = CurveMaterialF0D()
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
material = func(Interface0DIterator(it))
if material_attribute == 'DIFF':
r, g, b = material.diffuse[0:3]
t = 0.35 * r + 0.45 * r + 0.2 * b
elif material_attribute == 'DIFF_R':
t = material.diffuse[0]
elif material_attribute == 'DIFF_G':
t = material.diffuse[1]
elif material_attribute == 'DIFF_B':
t = material.diffuse[2]
elif material_attribute == 'SPEC':
r, g, b = material.specular[0:3]
t = 0.35 * r + 0.45 * r + 0.2 * b
elif material_attribute == 'SPEC_R':
t = material.specular[0]
elif material_attribute == 'SPEC_G':
t = material.specular[1]
elif material_attribute == 'SPEC_B':
t = material.specular[2]
elif material_attribute == 'SPEC_HARDNESS':
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
t = material.shininess
elif material_attribute == 'ALPHA':
t = material.diffuse[3]
else:
raise ValueError("unexpected material attribute: " + material_attribute)
yield it, t
it.increment()
class ColorMaterialShader(ColorRampModifier):
def __init__(self, blend, influence, ramp, material_attribute, use_ramp):
ColorRampModifier.__init__(self, blend, influence, ramp)
self.__material_attribute = material_attribute
self.__use_ramp = use_ramp
def shade(self, stroke):
if self.__material_attribute in {'DIFF', 'SPEC'} and not self.__use_ramp:
for it, b in iter_material_color(stroke, self.__material_attribute):
sv = it.object
a = sv.attribute.color
sv.attribute.color = self.blend_ramp(a, b)
else:
for it, t in iter_material_value(stroke, self.__material_attribute):
sv = it.object
a = sv.attribute.color
b = self.evaluate(t)
sv.attribute.color = self.blend_ramp(a, b)
class AlphaMaterialShader(CurveMappingModifier):
def __init__(self, blend, influence, mapping, invert, curve, material_attribute):
CurveMappingModifier.__init__(self, blend, influence, mapping, invert, curve)
self.__material_attribute = material_attribute
def shade(self, stroke):
for it, t in iter_material_value(stroke, self.__material_attribute):
sv = it.object
a = sv.attribute.alpha
b = self.evaluate(t)
sv.attribute.alpha = self.blend(a, b)
class ThicknessMaterialShader(ThicknessBlenderMixIn, CurveMappingModifier):
def __init__(self, thickness_position, thickness_ratio,
blend, influence, mapping, invert, curve, material_attribute, value_min, value_max):
ThicknessBlenderMixIn.__init__(self, thickness_position, thickness_ratio)
CurveMappingModifier.__init__(self, blend, influence, mapping, invert, curve)
self.__material_attribute = material_attribute
self.__value_min = value_min
self.__value_max = value_max
def shade(self, stroke):
for it, t in iter_material_value(stroke, self.__material_attribute):
sv = it.object
a = sv.attribute.thickness
b = self.__value_min + self.evaluate(t) * (self.__value_max - self.__value_min)
c = self.blend_thickness(a[0], a[1], b)
self.set_thickness(sv, c[0], c[1])
# Calligraphic thickness modifier
class CalligraphicThicknessShader(ThicknessBlenderMixIn, ScalarBlendModifier):
def __init__(self, thickness_position, thickness_ratio,
blend, influence, orientation, thickness_min, thickness_max):
ThicknessBlenderMixIn.__init__(self, thickness_position, thickness_ratio)
ScalarBlendModifier.__init__(self, blend, influence)
self.__orientation = mathutils.Vector((math.cos(orientation), math.sin(orientation)))
self.__thickness_min = thickness_min
self.__thickness_max = thickness_max
def shade(self, stroke):
func = VertexOrientation2DF0D()
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
dir = func(Interface0DIterator(it))
orthDir = mathutils.Vector((-dir.y, dir.x))
orthDir.normalize()
fac = abs(orthDir * self.__orientation)
sv = it.object
a = sv.attribute.thickness
b = self.__thickness_min + fac * (self.__thickness_max - self.__thickness_min)
b = max(b, 0.0)
c = self.blend_thickness(a[0], a[1], b)
self.set_thickness(sv, c[0], c[1])
it.increment()
# Geometry modifiers
def iter_distance_along_stroke(stroke):
distance = 0.0
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
prev = it.object.point
while not it.is_end:
p = it.object.point
distance += (prev - p).length
prev = p.copy() # need a copy because the point can be altered
yield it, distance
it.increment()
class SinusDisplacementShader(StrokeShader):
def __init__(self, wavelength, amplitude, phase):
StrokeShader.__init__(self)
self._wavelength = wavelength
self._amplitude = amplitude
self._phase = phase / wavelength * 2 * math.pi
self._getNormal = Normal2DF0D()
def shade(self, stroke):
for it, distance in iter_distance_along_stroke(stroke):
v = it.object
n = self._getNormal(Interface0DIterator(it))
n = n * self._amplitude * math.cos(distance / self._wavelength * 2 * math.pi + self._phase)
v.point = v.point + n
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.update_length()
class PerlinNoise1DShader(StrokeShader):
def __init__(self, freq=10, amp=10, oct=4, angle=math.radians(45), seed=-1):
StrokeShader.__init__(self)
self.__noise = Noise(seed)
self.__freq = freq
self.__amp = amp
self.__oct = oct
self.__dir = mathutils.Vector((math.cos(angle), math.sin(angle)))
def shade(self, stroke):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
length = stroke.length_2d
it = stroke.stroke_vertices_begin()
while not it.is_end:
v = it.object
nres = self.__noise.turbulence1(length * v.u, self.__freq, self.__amp, self.__oct)
v.point = v.point + nres * self.__dir
it.increment()
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.update_length()
class PerlinNoise2DShader(StrokeShader):
def __init__(self, freq=10, amp=10, oct=4, angle=math.radians(45), seed=-1):
StrokeShader.__init__(self)
self.__noise = Noise(seed)
self.__freq = freq
self.__amp = amp
self.__oct = oct
self.__dir = mathutils.Vector((math.cos(angle), math.sin(angle)))
def shade(self, stroke):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
v = it.object
vec = mathutils.Vector((v.projected_x, v.projected_y))
nres = self.__noise.turbulence2(vec, self.__freq, self.__amp, self.__oct)
v.point = v.point + nres * self.__dir
it.increment()
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.update_length()
class Offset2DShader(StrokeShader):
def __init__(self, start, end, x, y):
StrokeShader.__init__(self)
self.__start = start
self.__end = end
self.__xy = mathutils.Vector((x, y))
self.__getNormal = Normal2DF0D()
def shade(self, stroke):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
v = it.object
u = v.u
a = self.__start + u * (self.__end - self.__start)
n = self.__getNormal(Interface0DIterator(it))
n = n * a
v.point = v.point + n + self.__xy
it.increment()
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.update_length()
class Transform2DShader(StrokeShader):
def __init__(self, pivot, scale_x, scale_y, angle, pivot_u, pivot_x, pivot_y):
StrokeShader.__init__(self)
self.__pivot = pivot
self.__scale_x = scale_x
self.__scale_y = scale_y
self.__angle = angle
self.__pivot_u = pivot_u
self.__pivot_x = pivot_x
self.__pivot_y = pivot_y
def shade(self, stroke):
# determine the pivot of scaling and rotation operations
if self.__pivot == 'START':
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
pivot = it.object.point
elif self.__pivot == 'END':
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_end()
it.decrement()
pivot = it.object.point
elif self.__pivot == 'PARAM':
p = None
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
prev = p
v = it.object
p = v.point
u = v.u
if self.__pivot_u < u:
break
it.increment()
if prev is None:
pivot = p
else:
delta = u - self.__pivot_u
pivot = p + delta * (prev - p)
elif self.__pivot == 'CENTER':
pivot = mathutils.Vector((0.0, 0.0))
n = 0
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
p = it.object.point
pivot = pivot + p
n += 1
it.increment()
pivot.x = pivot.x / n
pivot.y = pivot.y / n
elif self.__pivot == 'ABSOLUTE':
pivot = mathutils.Vector((self.__pivot_x, self.__pivot_y))
# apply scaling and rotation operations
cos_theta = math.cos(self.__angle)
sin_theta = math.sin(self.__angle)
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin()
while not it.is_end:
v = it.object
p = v.point
p = p - pivot
x = p.x * self.__scale_x
y = p.y * self.__scale_y
p.x = x * cos_theta - y * sin_theta
p.y = x * sin_theta + y * cos_theta
v.point = p + pivot
it.increment()
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.update_length()
# Predicates and helper functions
class QuantitativeInvisibilityRangeUP1D(UnaryPredicate1D):
def __init__(self, qi_start, qi_end):
UnaryPredicate1D.__init__(self)
self.__getQI = QuantitativeInvisibilityF1D()
self.__qi_start = qi_start
self.__qi_end = qi_end
def __call__(self, inter):
qi = self.__getQI(inter)
return self.__qi_start <= qi <= self.__qi_end
def join_unary_predicates(upred_list, bpred):
if not upred_list:
return None
upred = upred_list[0]
for p in upred_list[1:]:
upred = bpred(upred, p)
return upred
class ObjectNamesUP1D(UnaryPredicate1D):
def __init__(self, names, negative):
UnaryPredicate1D.__init__(self)
self._names = names
self._negative = negative
def __call__(self, viewEdge):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
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found = viewEdge.viewshape.name in self._names
if self._negative:
return not found
return found
# Stroke caps
def iter_stroke_vertices(stroke):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
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it = stroke.stroke_vertices_begin()
prev_p = None
while not it.is_end:
sv = it.object
p = sv.point
if prev_p is None or (prev_p - p).length > 1e-6:
yield sv
prev_p = p.copy()
it.increment()
class RoundCapShader(StrokeShader):
def round_cap_thickness(self, x):
x = max(0.0, min(x, 1.0))
return math.sqrt(1.0 - (x ** 2.0))
def shade(self, stroke):
# save the location and attribute of stroke vertices
buffer = []
for sv in iter_stroke_vertices(stroke):
buffer.append((mathutils.Vector(sv.point), StrokeAttribute(sv.attribute)))
nverts = len(buffer)
if nverts < 2:
return
# calculate the number of additional vertices to form caps
R, L = stroke[0].attribute.thickness
caplen_beg = (R + L) / 2.0
nverts_beg = max(5, int(R + L))
R, L = stroke[-1].attribute.thickness
caplen_end = (R + L) / 2.0
nverts_end = max(5, int(R + L))
# adjust the total number of stroke vertices
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.resample(nverts + nverts_beg + nverts_end)
# restore the location and attribute of the original vertices
for i in range(nverts):
p, attr = buffer[i]
stroke[nverts_beg + i].point = p
stroke[nverts_beg + i].attribute = attr
# reshape the cap at the beginning of the stroke
q, attr = buffer[1]
p, attr = buffer[0]
d = p - q
d = d / d.length * caplen_beg
n = 1.0 / nverts_beg
R, L = attr.thickness
for i in range(nverts_beg):
t = (nverts_beg - i) * n
stroke[i].point = p + d * t
r = self.round_cap_thickness((nverts_beg - i + 1) * n)
stroke[i].attribute = attr
stroke[i].attribute.thickness = (R * r, L * r)
# reshape the cap at the end of the stroke
q, attr = buffer[-2]
p, attr = buffer[-1]
d = p - q
d = d / d.length * caplen_end
n = 1.0 / nverts_end
R, L = attr.thickness
for i in range(nverts_end):
t = (nverts_end - i) * n
stroke[-i - 1].point = p + d * t
r = self.round_cap_thickness((nverts_end - i + 1) * n)
stroke[-i - 1].attribute = attr
stroke[-i - 1].attribute.thickness = (R * r, L * r)
# update the curvilinear 2D length of each vertex
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.update_length()
class SquareCapShader(StrokeShader):
def shade(self, stroke):
# save the location and attribute of stroke vertices
buffer = []
for sv in iter_stroke_vertices(stroke):
buffer.append((mathutils.Vector(sv.point), StrokeAttribute(sv.attribute)))
nverts = len(buffer)
if nverts < 2:
return
# calculate the number of additional vertices to form caps
R, L = stroke[0].attribute.thickness
caplen_beg = (R + L) / 2.0
nverts_beg = 1
R, L = stroke[-1].attribute.thickness
caplen_end = (R + L) / 2.0
nverts_end = 1
# adjust the total number of stroke vertices
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.resample(nverts + nverts_beg + nverts_end)
# restore the location and attribute of the original vertices
for i in range(nverts):
p, attr = buffer[i]
stroke[nverts_beg + i].point = p
stroke[nverts_beg + i].attribute = attr
# reshape the cap at the beginning of the stroke
q, attr = buffer[1]
p, attr = buffer[0]
d = p - q
stroke[0].point = p + d / d.length * caplen_beg
stroke[0].attribute = attr
# reshape the cap at the end of the stroke
q, attr = buffer[-2]
p, attr = buffer[-1]
d = p - q
stroke[-1].point = p + d / d.length * caplen_beg
stroke[-1].attribute = attr
# update the curvilinear 2D length of each vertex
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
stroke.update_length()
# Split by dashed line pattern
class SplitPatternStartingUP0D(UnaryPredicate0D):
def __init__(self, controller):
UnaryPredicate0D.__init__(self)
self._controller = controller
def __call__(self, inter):
return self._controller.start()
class SplitPatternStoppingUP0D(UnaryPredicate0D):
def __init__(self, controller):
UnaryPredicate0D.__init__(self)
self._controller = controller
def __call__(self, inter):
return self._controller.stop()
class SplitPatternController:
def __init__(self, pattern, sampling):
self.sampling = float(sampling)
k = len(pattern) // 2
n = k * 2
self.start_pos = [pattern[i] + pattern[i + 1] for i in range(0, n, 2)]
self.stop_pos = [pattern[i] for i in range(0, n, 2)]
self.init()
def init(self):
self.start_len = 0.0
self.start_idx = 0
self.stop_len = self.sampling
self.stop_idx = 0
def start(self):
self.start_len += self.sampling
if abs(self.start_len - self.start_pos[self.start_idx]) < self.sampling / 2.0:
self.start_len = 0.0
self.start_idx = (self.start_idx + 1) % len(self.start_pos)
return True
return False
def stop(self):
if self.start_len > 0.0:
self.init()
self.stop_len += self.sampling
if abs(self.stop_len - self.stop_pos[self.stop_idx]) < self.sampling / 2.0:
self.stop_len = self.sampling
self.stop_idx = (self.stop_idx + 1) % len(self.stop_pos)
return True
return False
# Dashed line
class DashedLineShader(StrokeShader):
def __init__(self, pattern):
StrokeShader.__init__(self)
self._pattern = pattern
def shade(self, stroke):
index = 0 # pattern index
start = 0.0 # 2D curvilinear length
visible = True
sampling = 1.0
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
it = stroke.stroke_vertices_begin(sampling)
while not it.is_end:
pos = it.t # curvilinear abscissa
# The extra 'sampling' term is added below, because the
# visibility attribute of the i-th vertex refers to the
# visibility of the stroke segment between the i-th and
# (i+1)-th vertices.
if pos - start + sampling > self._pattern[index]:
start = pos
index += 1
if index == len(self._pattern):
index = 0
visible = not visible
it.object.attribute.visible = visible
it.increment()
# predicates for chaining
class AngleLargerThanBP1D(BinaryPredicate1D):
def __init__(self, angle):
BinaryPredicate1D.__init__(self)
self._angle = angle
def __call__(self, i1, i2):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
sv1a = i1.first_fedge.first_svertex.point_2d
sv1b = i1.last_fedge.second_svertex.point_2d
sv2a = i2.first_fedge.first_svertex.point_2d
sv2b = i2.last_fedge.second_svertex.point_2d
if (sv1a - sv2a).length < 1e-6:
dir1 = sv1a - sv1b
dir2 = sv2b - sv2a
elif (sv1b - sv2b).length < 1e-6:
dir1 = sv1b - sv1a
dir2 = sv2a - sv2b
elif (sv1a - sv2b).length < 1e-6:
dir1 = sv1a - sv1b
dir2 = sv2a - sv2b
elif (sv1b - sv2a).length < 1e-6:
dir1 = sv1b - sv1a
dir2 = sv2b - sv2a
else:
return False
denom = dir1.length * dir2.length
if denom < 1e-6:
return False
x = (dir1 * dir2) / denom
return math.acos(min(max(x, -1.0), 1.0)) > self._angle
class AndBP1D(BinaryPredicate1D):
def __init__(self, pred1, pred2):
BinaryPredicate1D.__init__(self)
self.__pred1 = pred1
self.__pred2 = pred2
def __call__(self, i1, i2):
return self.__pred1(i1, i2) and self.__pred2(i1, i2)
# predicates for selection
class LengthThresholdUP1D(UnaryPredicate1D):
def __init__(self, length_min=None, length_max=None):
UnaryPredicate1D.__init__(self)
self._length_min = length_min
self._length_max = length_max
def __call__(self, inter):
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
length = inter.length_2d
if self._length_min is not None and length < self._length_min:
return False
if self._length_max is not None and length > self._length_max:
return False
return True
class FaceMarkBothUP1D(UnaryPredicate1D):
def __call__(self, inter): # ViewEdge
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
fe = inter.first_fedge
while fe is not None:
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
if fe.is_smooth:
if fe.face_mark:
return True
elif (fe.nature & Nature.BORDER):
if fe.face_mark_left:
return True
else:
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
if fe.face_mark_right and fe.face_mark_left:
return True
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
fe = fe.next_fedge
return False
class FaceMarkOneUP1D(UnaryPredicate1D):
def __call__(self, inter): # ViewEdge
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
fe = inter.first_fedge
while fe is not None:
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
if fe.is_smooth:
if fe.face_mark:
return True
elif (fe.nature & Nature.BORDER):
if fe.face_mark_left:
return True
else:
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
if fe.face_mark_right or fe.face_mark_left:
return True
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
fe = fe.next_fedge
return False
# predicates for splitting
class MaterialBoundaryUP0D(UnaryPredicate0D):
def __call__(self, it):
if it.is_begin:
return False
it_prev = Interface0DIterator(it)
it_prev.decrement()
v = it.object
it.increment()
if it.is_end:
return False
fe = v.get_fedge(it_prev.object)
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
idx1 = fe.material_index if fe.is_smooth else fe.material_index_left
fe = v.get_fedge(it.object)
Freestyle Python API improvements - part 3. Major API updates were made to address code review comments. This revision mostly focuses on Python wrappers of C++ 0D and 1D elements (i.e., Interface0D and Interface1D, as well as their subclasses). * Most getter/setter methods were reimplemented as attributes using PyGetSetDef. Vector attributes are now implemented based on mathutils callbacks. Boolean attributes now only accept boolean values. * The __getitem__ method was removed and the Sequence protocol was used instead. * The naming of methods and attributes was fixed to follow the naming conventions of the Blender Python API (i.e., lower case + underscores for methods and attributes, and CamelCase for classes). Some naming inconsistency within the Freestyle Python API was also addressed. * The Freestyle API had a number of method names including prefix/suffix "A" and "B", and their meanings were inconsistent (i.e., referring to different things depending on the classes). The names with these two letters were replaced with more straightforward names. Also some attribute names were changed so as to indicate the type of the value (e.g., FEdge.next_fedge instead of FEdge.next_edge) in line with other names explicitly indicating what the value is (e.g., SVertex.viewvertex). * In addition, some code clean-up was done in both C++ and Python. Notes: In summary, the following irregular naming changes were made through this revision (those resulting from regular changes of naming conventions are not listed): - CurvePoint: {A,B} --> {first,second}_svertex - FEdge: vertex{A,B} --> {first,second}_svertex - FEdge: {next,previous}Edge --> {next,previous}_fedge - FEdgeSharp: normal{A,B} --> normal_{right,left} - FEdgeSharp: {a,b}FaceMark --> face_mark_{right,left} - FEdgeSharp: {a,b}Material --> material_{right,left} - FEdgeSharp: {a,b}MaterialIndex --> material_index_{right,left} - FrsCurve: empty --> is_empty - FrsCurve: nSegments --> segments_size - TVertex: mate() --> get_mate() - ViewEdge: fedge{A,B} --> {first,last}_fedge - ViewEdge: setaShape, aShape --> occlude - ViewEdge: {A,B} --> {first,last}_viewvertex - ViewMap: getScene3dBBox --> scene_bbox
2013-02-14 23:48:34 +00:00
idx2 = fe.material_index if fe.is_smooth else fe.material_index_left
return idx1 != idx2
class Curvature2DAngleThresholdUP0D(UnaryPredicate0D):
def __init__(self, angle_min=None, angle_max=None):
UnaryPredicate0D.__init__(self)
self._angle_min = angle_min
self._angle_max = angle_max
self._func = Curvature2DAngleF0D()
def __call__(self, inter):
angle = math.pi - self._func(inter)
if self._angle_min is not None and angle < self._angle_min:
return True
if self._angle_max is not None and angle > self._angle_max:
return True
return False
class Length2DThresholdUP0D(UnaryPredicate0D):
def __init__(self, length_limit):
UnaryPredicate0D.__init__(self)
self._length_limit = length_limit
self._t = 0.0
def __call__(self, inter):
t = inter.t # curvilinear abscissa
if t < self._t:
self._t = 0.0
return False
if t - self._t < self._length_limit:
return False
self._t = t
return True
# Seed for random number generation
class Seed:
def __init__(self):
self.t_max = 2 ** 15
self.t = int(time.time()) % self.t_max
def get(self, seed):
if seed < 0:
self.t = (self.t + 1) % self.t_max
return self.t
return seed
_seed = Seed()
### T.K. 07-Aug-2013 Temporary fix for unexpected line gaps
def iter_three_segments(stroke):
n = stroke.stroke_vertices_size()
if n >= 4:
it1 = stroke.stroke_vertices_begin()
it2 = stroke.stroke_vertices_begin()
it2.increment()
it3 = stroke.stroke_vertices_begin()
it3.increment()
it3.increment()
it4 = stroke.stroke_vertices_begin()
it4.increment()
it4.increment()
it4.increment()
while not it4.is_end:
yield (it1.object, it2.object, it3.object, it4.object)
it1.increment()
it2.increment()
it3.increment()
it4.increment()
def is_tvertex(svertex):
return type(svertex.viewvertex) is TVertex
class StrokeCleaner(StrokeShader):
def shade(self, stroke):
for sv1, sv2, sv3, sv4 in iter_three_segments(stroke):
seg1 = sv2.point - sv1.point
seg2 = sv3.point - sv2.point
seg3 = sv4.point - sv3.point
if not ((is_tvertex(sv2.first_svertex) and is_tvertex(sv2.second_svertex)) or
(is_tvertex(sv3.first_svertex) and is_tvertex(sv3.second_svertex))):
continue
if seg1.dot(seg2) < 0.0 and seg2.dot(seg3) < 0.0 and seg2.length < 0.01:
#print(sv2.first_svertex.viewvertex)
#print(sv2.second_svertex.viewvertex)
#print(sv3.first_svertex.viewvertex)
#print(sv3.second_svertex.viewvertex)
p2 = mathutils.Vector(sv2.point)
p3 = mathutils.Vector(sv3.point)
sv2.point = p3
sv3.point = p2
stroke.update_length()
# main function for parameter processing
def process(layer_name, lineset_name):
scene = freestyle.getCurrentScene()
layer = scene.render.layers[layer_name]
lineset = layer.freestyle_settings.linesets[lineset_name]
linestyle = lineset.linestyle
selection_criteria = []
# prepare selection criteria by visibility
if lineset.select_by_visibility:
if lineset.visibility == 'VISIBLE':
selection_criteria.append(
QuantitativeInvisibilityUP1D(0))
elif lineset.visibility == 'HIDDEN':
selection_criteria.append(
NotUP1D(QuantitativeInvisibilityUP1D(0)))
elif lineset.visibility == 'RANGE':
selection_criteria.append(
QuantitativeInvisibilityRangeUP1D(lineset.qi_start, lineset.qi_end))
# prepare selection criteria by edge types
if lineset.select_by_edge_types:
edge_type_criteria = []
if lineset.select_silhouette:
upred = pyNatureUP1D(Nature.SILHOUETTE)
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_silhouette else upred)
if lineset.select_border:
upred = pyNatureUP1D(Nature.BORDER)
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_border else upred)
if lineset.select_crease:
upred = pyNatureUP1D(Nature.CREASE)
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_crease else upred)
if lineset.select_ridge_valley:
upred = pyNatureUP1D(Nature.RIDGE)
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_ridge_valley else upred)
if lineset.select_suggestive_contour:
upred = pyNatureUP1D(Nature.SUGGESTIVE_CONTOUR)
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_suggestive_contour else upred)
if lineset.select_material_boundary:
upred = pyNatureUP1D(Nature.MATERIAL_BOUNDARY)
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_material_boundary else upred)
if lineset.select_edge_mark:
upred = pyNatureUP1D(Nature.EDGE_MARK)
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_edge_mark else upred)
if lineset.select_contour:
upred = ContourUP1D()
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_contour else upred)
if lineset.select_external_contour:
upred = ExternalContourUP1D()
edge_type_criteria.append(NotUP1D(upred) if lineset.exclude_external_contour else upred)
if lineset.edge_type_combination == 'OR':
upred = join_unary_predicates(edge_type_criteria, OrUP1D)
else:
upred = join_unary_predicates(edge_type_criteria, AndUP1D)
if upred is not None:
if lineset.edge_type_negation == 'EXCLUSIVE':
upred = NotUP1D(upred)
selection_criteria.append(upred)
# prepare selection criteria by face marks
if lineset.select_by_face_marks:
if lineset.face_mark_condition == 'BOTH':
upred = FaceMarkBothUP1D()
else:
upred = FaceMarkOneUP1D()
if lineset.face_mark_negation == 'EXCLUSIVE':
upred = NotUP1D(upred)
selection_criteria.append(upred)
# prepare selection criteria by group of objects
if lineset.select_by_group:
if lineset.group is not None:
names = dict((ob.name, True) for ob in lineset.group.objects)
upred = ObjectNamesUP1D(names, lineset.group_negation == 'EXCLUSIVE')
selection_criteria.append(upred)
# prepare selection criteria by image border
if lineset.select_by_image_border:
xmin, ymin, xmax, ymax = ContextFunctions.get_border()
upred = WithinImageBoundaryUP1D(xmin, ymin, xmax, ymax)
selection_criteria.append(upred)
# select feature edges
upred = join_unary_predicates(selection_criteria, AndUP1D)
if upred is None:
upred = TrueUP1D()
Operators.select(upred)
# join feature edges to form chains
if linestyle.use_chaining:
if linestyle.chaining == 'PLAIN':
if linestyle.use_same_object:
Operators.bidirectional_chain(ChainSilhouetteIterator(), NotUP1D(upred))
else:
Operators.bidirectional_chain(ChainPredicateIterator(upred, TrueBP1D()), NotUP1D(upred))
elif linestyle.chaining == 'SKETCHY':
if linestyle.use_same_object:
Operators.bidirectional_chain(pySketchyChainSilhouetteIterator(linestyle.rounds))
else:
Operators.bidirectional_chain(pySketchyChainingIterator(linestyle.rounds))
else:
Operators.chain(ChainPredicateIterator(FalseUP1D(), FalseBP1D()), NotUP1D(upred))
# split chains
if linestyle.material_boundary:
Operators.sequential_split(MaterialBoundaryUP0D())
if linestyle.use_angle_min or linestyle.use_angle_max:
angle_min = linestyle.angle_min if linestyle.use_angle_min else None
angle_max = linestyle.angle_max if linestyle.use_angle_max else None
Operators.sequential_split(Curvature2DAngleThresholdUP0D(angle_min, angle_max))
if linestyle.use_split_length:
Operators.sequential_split(Length2DThresholdUP0D(linestyle.split_length), 1.0)
if linestyle.use_split_pattern:
pattern = []
if linestyle.split_dash1 > 0 and linestyle.split_gap1 > 0:
pattern.append(linestyle.split_dash1)
pattern.append(linestyle.split_gap1)
if linestyle.split_dash2 > 0 and linestyle.split_gap2 > 0:
pattern.append(linestyle.split_dash2)
pattern.append(linestyle.split_gap2)
if linestyle.split_dash3 > 0 and linestyle.split_gap3 > 0:
pattern.append(linestyle.split_dash3)
pattern.append(linestyle.split_gap3)
if len(pattern) > 0:
sampling = 1.0
controller = SplitPatternController(pattern, sampling)
Operators.sequential_split(SplitPatternStartingUP0D(controller),
SplitPatternStoppingUP0D(controller),
sampling)
# select chains
if linestyle.use_length_min or linestyle.use_length_max:
length_min = linestyle.length_min if linestyle.use_length_min else None
length_max = linestyle.length_max if linestyle.use_length_max else None
Operators.select(LengthThresholdUP1D(length_min, length_max))
# prepare a list of stroke shaders
shaders_list = []
###
shaders_list.append(StrokeCleaner())
###
for m in linestyle.geometry_modifiers:
if not m.use:
continue
if m.type == 'SAMPLING':
shaders_list.append(SamplingShader(
m.sampling))
elif m.type == 'BEZIER_CURVE':
shaders_list.append(BezierCurveShader(
m.error))
elif m.type == 'SINUS_DISPLACEMENT':
shaders_list.append(SinusDisplacementShader(
m.wavelength, m.amplitude, m.phase))
elif m.type == 'SPATIAL_NOISE':
shaders_list.append(SpatialNoiseShader(
m.amplitude, m.scale, m.octaves, m.smooth, m.use_pure_random))
elif m.type == 'PERLIN_NOISE_1D':
shaders_list.append(PerlinNoise1DShader(
m.frequency, m.amplitude, m.octaves, m.angle, _seed.get(m.seed)))
elif m.type == 'PERLIN_NOISE_2D':
shaders_list.append(PerlinNoise2DShader(
m.frequency, m.amplitude, m.octaves, m.angle, _seed.get(m.seed)))
elif m.type == 'BACKBONE_STRETCHER':
shaders_list.append(BackboneStretcherShader(
m.backbone_length))
elif m.type == 'TIP_REMOVER':
shaders_list.append(TipRemoverShader(
m.tip_length))
elif m.type == 'POLYGONIZATION':
shaders_list.append(PolygonalizationShader(
m.error))
elif m.type == 'GUIDING_LINES':
shaders_list.append(GuidingLinesShader(
m.offset))
elif m.type == 'BLUEPRINT':
if m.shape == 'CIRCLES':
shaders_list.append(pyBluePrintCirclesShader(
m.rounds, m.random_radius, m.random_center))
elif m.shape == 'ELLIPSES':
shaders_list.append(pyBluePrintEllipsesShader(
m.rounds, m.random_radius, m.random_center))
elif m.shape == 'SQUARES':
shaders_list.append(pyBluePrintSquaresShader(
m.rounds, m.backbone_length, m.random_backbone))
elif m.type == '2D_OFFSET':
shaders_list.append(Offset2DShader(
m.start, m.end, m.x, m.y))
elif m.type == '2D_TRANSFORM':
shaders_list.append(Transform2DShader(
m.pivot, m.scale_x, m.scale_y, m.angle, m.pivot_u, m.pivot_x, m.pivot_y))
color = linestyle.color
if (not linestyle.use_chaining) or (linestyle.chaining == 'PLAIN' and linestyle.use_same_object):
thickness_position = linestyle.thickness_position
else:
thickness_position = 'CENTER'
import bpy
if bpy.app.debug_freestyle:
print("Warning: Thickness position options are applied when chaining is disabled\n"
" or the Plain chaining is used with the Same Object option enabled.")
shaders_list.append(BaseColorShader(color.r, color.g, color.b, linestyle.alpha))
shaders_list.append(BaseThicknessShader(linestyle.thickness, thickness_position,
linestyle.thickness_ratio))
for m in linestyle.color_modifiers:
if not m.use:
continue
if m.type == 'ALONG_STROKE':
shaders_list.append(ColorAlongStrokeShader(
m.blend, m.influence, m.color_ramp))
elif m.type == 'DISTANCE_FROM_CAMERA':
shaders_list.append(ColorDistanceFromCameraShader(
m.blend, m.influence, m.color_ramp,
m.range_min, m.range_max))
elif m.type == 'DISTANCE_FROM_OBJECT':
shaders_list.append(ColorDistanceFromObjectShader(
m.blend, m.influence, m.color_ramp, m.target,
m.range_min, m.range_max))
elif m.type == 'MATERIAL':
shaders_list.append(ColorMaterialShader(
m.blend, m.influence, m.color_ramp, m.material_attribute,
m.use_ramp))
for m in linestyle.alpha_modifiers:
if not m.use:
continue
if m.type == 'ALONG_STROKE':
shaders_list.append(AlphaAlongStrokeShader(
m.blend, m.influence, m.mapping, m.invert, m.curve))
elif m.type == 'DISTANCE_FROM_CAMERA':
shaders_list.append(AlphaDistanceFromCameraShader(
m.blend, m.influence, m.mapping, m.invert, m.curve,
m.range_min, m.range_max))
elif m.type == 'DISTANCE_FROM_OBJECT':
shaders_list.append(AlphaDistanceFromObjectShader(
m.blend, m.influence, m.mapping, m.invert, m.curve, m.target,
m.range_min, m.range_max))
elif m.type == 'MATERIAL':
shaders_list.append(AlphaMaterialShader(
m.blend, m.influence, m.mapping, m.invert, m.curve,
m.material_attribute))
for m in linestyle.thickness_modifiers:
if not m.use:
continue
if m.type == 'ALONG_STROKE':
shaders_list.append(ThicknessAlongStrokeShader(
thickness_position, linestyle.thickness_ratio,
m.blend, m.influence, m.mapping, m.invert, m.curve,
m.value_min, m.value_max))
elif m.type == 'DISTANCE_FROM_CAMERA':
shaders_list.append(ThicknessDistanceFromCameraShader(
thickness_position, linestyle.thickness_ratio,
m.blend, m.influence, m.mapping, m.invert, m.curve,
m.range_min, m.range_max, m.value_min, m.value_max))
elif m.type == 'DISTANCE_FROM_OBJECT':
shaders_list.append(ThicknessDistanceFromObjectShader(
thickness_position, linestyle.thickness_ratio,
m.blend, m.influence, m.mapping, m.invert, m.curve, m.target,
m.range_min, m.range_max, m.value_min, m.value_max))
elif m.type == 'MATERIAL':
shaders_list.append(ThicknessMaterialShader(
thickness_position, linestyle.thickness_ratio,
m.blend, m.influence, m.mapping, m.invert, m.curve,
m.material_attribute, m.value_min, m.value_max))
elif m.type == 'CALLIGRAPHY':
shaders_list.append(CalligraphicThicknessShader(
thickness_position, linestyle.thickness_ratio,
m.blend, m.influence,
m.orientation, m.thickness_min, m.thickness_max))
if linestyle.caps == 'ROUND':
shaders_list.append(RoundCapShader())
elif linestyle.caps == 'SQUARE':
shaders_list.append(SquareCapShader())
if linestyle.use_dashed_line:
pattern = []
if linestyle.dash1 > 0 and linestyle.gap1 > 0:
pattern.append(linestyle.dash1)
pattern.append(linestyle.gap1)
if linestyle.dash2 > 0 and linestyle.gap2 > 0:
pattern.append(linestyle.dash2)
pattern.append(linestyle.gap2)
if linestyle.dash3 > 0 and linestyle.gap3 > 0:
pattern.append(linestyle.dash3)
pattern.append(linestyle.gap3)
if len(pattern) > 0:
shaders_list.append(DashedLineShader(pattern))
# create strokes using the shaders list
Operators.create(TrueUP1D(), shaders_list)