Adapt to blender 2.45 API

 * Adapt to blender 2.45 API
 * Save config to registry (Thanks to Thomas Lachmann for a draft
   implementation)
 * Fix some trailing newlines

Signed-off-by: Antonio Ospite <ospite@studenti.unina.it>

diff --git a/vrm.py b/vrm.py
index 6a69a66..7ac4d83 100755 (executable)
--- a/vrm.py
+++ b/vrm.py
@@ -1,7 +1,7 @@
 #!BPY
 """
 Name: 'VRM'
 #!BPY
 """
 Name: 'VRM'

-Blender: 242
+Blender: 245

 Group: 'Render'
 Tooltip: 'Vector Rendering Method script'
 """
 Group: 'Render'
 Tooltip: 'Vector Rendering Method script'
 """


@@ -15,7 +15,7 @@ __bpydoc__ = """\
 """
 
 # ---------------------------------------------------------------------
 """
 
 # ---------------------------------------------------------------------

-#    Copyright (c) 2006 Antonio Ospite
+#    Copyright (c) 2006, 2007, 2008 Antonio Ospite

 #
 #    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
 #
 #    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


@@ -40,13 +40,14 @@ __bpydoc__ = """\
 #       from scratch but Nikola gave me the idea, so I thank him publicly.
 #
 # ---------------------------------------------------------------------
 #       from scratch but Nikola gave me the idea, so I thank him publicly.
 #
 # ---------------------------------------------------------------------

-# 
+#

 # Things TODO for a next release:
 # Things TODO for a next release:

+#   - Shadeless shader

 #   - FIX the issue with negative scales in object tranformations!
 #   - Use a better depth sorting algorithm
 #   - Review how selections are made (this script uses selection states of
 #     primitives to represent visibility infos)
 #   - FIX the issue with negative scales in object tranformations!
 #   - Use a better depth sorting algorithm
 #   - Review how selections are made (this script uses selection states of
 #     primitives to represent visibility infos)

-#   - Use a data structure other than Mesh to represent the 2D image? 
+#   - Use a data structure other than Mesh to represent the 2D image?

 #     Think to a way to merge (adjacent) polygons that have the same color.
 #     Or a way to use paths for silhouettes and contours.
 #   - Consider SMIL for animation handling instead of ECMA Script? (Firefox do
 #     Think to a way to merge (adjacent) polygons that have the same color.
 #     Or a way to use paths for silhouettes and contours.
 #   - Consider SMIL for animation handling instead of ECMA Script? (Firefox do


@@ -64,6 +65,7 @@ __bpydoc__ = """\
 # Changelog:
 #
 #   vrm-0.3.py  - ...
 # Changelog:
 #
 #   vrm-0.3.py  - ...

+#     * Adapted to blender API 2.45

 #     * First release after code restucturing.
 #       Now the script offers a useful set of functionalities
 #       and it can render animations, too.
 #     * First release after code restucturing.
 #       Now the script offers a useful set of functionalities
 #       and it can render animations, too.


@@ -86,6 +88,8 @@ __bpydoc__ = """\
 #     * Fix camera type selection for blender>2.43 (Thanks to Thomas Lachmann)
 #     * Compatibility with python 2.3
 #     * Process only object that are on visible layers.
 #     * Fix camera type selection for blender>2.43 (Thanks to Thomas Lachmann)
 #     * Compatibility with python 2.3
 #     * Process only object that are on visible layers.

+#     * Saving config to registry (Thanks to Thomas Lachmann for a draft
+#       implementation)

 #
 # ---------------------------------------------------------------------
 
 #
 # ---------------------------------------------------------------------
 


@@ -109,13 +113,13 @@ EPS = 10e-5
 progress = None
 
 
 progress = None
 
 

-# Some global settings
+# Config class for global settings

 
 class config:
     polygons = dict()
     polygons['SHOW'] = True
     polygons['SHADING'] = 'FLAT' # FLAT or TOON
 
 class config:
     polygons = dict()
     polygons['SHOW'] = True
     polygons['SHADING'] = 'FLAT' # FLAT or TOON

-    polygons['HSR'] = 'NEWELL' # PAINTER or NEWELL
+    polygons['HSR'] = 'PAINTER' # PAINTER or NEWELL

     # Hidden to the user for now
     polygons['EXPANSION_TRICK'] = True
 
     # Hidden to the user for now
     polygons['EXPANSION_TRICK'] = True
 


@@ -133,6 +137,41 @@ class config:
     output['ANIMATION'] = False
     output['JOIN_OBJECTS'] = True
 
     output['ANIMATION'] = False
     output['JOIN_OBJECTS'] = True
 

+    def saveToRegistry():
+        registry = {}
+
+        for k,v in config.__dict__.iteritems():
+
+            # config class store settings in dictionaries
+            if v.__class__ == dict().__class__:
+
+                regkey_prefix = k.upper()+"_"
+
+                for opt_k,opt_v in v.iteritems():
+                    regkey = regkey_prefix + opt_k
+
+                    registry[regkey] = opt_v
+
+        Blender.Registry.SetKey('VRM', registry, True)
+
+    saveToRegistry = staticmethod(saveToRegistry)
+
+    def loadFromRegistry():
+        registry = Blender.Registry.GetKey('VRM', True)
+        if not registry:
+              return
+
+        for k,v in registry.iteritems():
+            k_tmp = k.split('_')
+            conf_attr = k_tmp[0].lower()
+            conf_key = str.join("_",k_tmp[1:])
+            conf_val = v
+
+            if config.__dict__.has_key(conf_attr):
+                config.__dict__[conf_attr][conf_key] = conf_val
+
+    loadFromRegistry = staticmethod(loadFromRegistry)
+

 
 # Utility functions
 print_debug = False
 
 # Utility functions
 print_debug = False


@@ -161,7 +200,7 @@ def debug(msg):
         sys.stderr.write(msg)
 
 def EQ(v1, v2):
         sys.stderr.write(msg)
 
 def EQ(v1, v2):

-    return (abs(v1[0]-v2[0]) < EPS and 
+    return (abs(v1[0]-v2[0]) < EPS and

             abs(v1[1]-v2[1]) < EPS )
 by_furthest_z = (lambda f1, f2:
     cmp(max([v.co[2] for v in f1]), max([v.co[2] for v in f2])+EPS)
             abs(v1[1]-v2[1]) < EPS )
 by_furthest_z = (lambda f1, f2:
     cmp(max([v.co[2] for v in f1]), max([v.co[2] for v in f2])+EPS)


@@ -200,8 +239,8 @@ class HSR:
         Geometric objects lying in a common plane are said to be coplanar.
         Three noncollinear points determine a plane and so are trivially coplanar.
         Four points are coplanar iff the volume of the tetrahedron defined by them is
         Geometric objects lying in a common plane are said to be coplanar.
         Three noncollinear points determine a plane and so are trivially coplanar.
         Four points are coplanar iff the volume of the tetrahedron defined by them is

-        0, 
-        
+        0,
+

             | x_1 y_1 z_1 1 |
             | x_2 y_2 z_2 1 |
             | x_3 y_3 z_3 1 |
             | x_1 y_1 z_1 1 |
             | x_2 y_2 z_2 1 |
             | x_3 y_3 z_3 1 |


@@ -335,7 +374,7 @@ class HSR:
     def det(a, b, c):
         return ((b[0] - a[0]) * (c[1] - a[1]) -
                 (b[1] - a[1]) * (c[0] - a[0]) )
     def det(a, b, c):
         return ((b[0] - a[0]) * (c[1] - a[1]) -
                 (b[1] - a[1]) * (c[0] - a[0]) )

-    
+

     det = staticmethod(det)
 
     def pointInPolygon(q, P):
     det = staticmethod(det)
 
     def pointInPolygon(q, P):


@@ -483,7 +522,7 @@ class HSR:
             #
             #newfaces = splitOn(plane, f)
 
             #
             #newfaces = splitOn(plane, f)
 

-        
+

         if newfaces == None:
             print "Big FAT problem, we weren't able to split POLYGONS!"
             raise AssertionError
         if newfaces == None:
             print "Big FAT problem, we weren't able to split POLYGONS!"
             raise AssertionError


@@ -641,7 +680,7 @@ class HSR:
 
             #print "d0:", d0, "d1:", d1
 
 
             #print "d0:", d0, "d1:", d1
 

-            # if the vertex lies in the cutplane                       
+            # if the vertex lies in the cutplane

             if abs(d1) < EPS:
                 #print "d1 On cutplane"
                 posVertList.append(V1)
             if abs(d1) < EPS:
                 #print "d1 On cutplane"
                 posVertList.append(V1)


@@ -692,7 +731,7 @@ class HSR:
                         else:
                             negVertList.append(V1)
 
                         else:
                             negVertList.append(V1)
 

-        
+

         # uniq for python > 2.4
         #posVertList = [ u for u in posVertList if u not in locals()['_[1]'] ]
         #negVertList = [ u for u in negVertList if u not in locals()['_[1]'] ]
         # uniq for python > 2.4
         #posVertList = [ u for u in posVertList if u not in locals()['_[1]'] ]
         #negVertList = [ u for u in negVertList if u not in locals()['_[1]'] ]


@@ -753,7 +792,7 @@ class HSR:
 class MeshUtils:
 
     def buildEdgeFaceUsersCache(me):
 class MeshUtils:
 
     def buildEdgeFaceUsersCache(me):

-        ''' 
+        '''

         Takes a mesh and returns a list aligned with the meshes edges.
         Each item is a list of the faces that use the edge
         would be the equiv for having ed.face_users as a property
         Takes a mesh and returns a list aligned with the meshes edges.
         Each item is a list of the faces that use the edge
         would be the equiv for having ed.face_users as a property


@@ -769,23 +808,23 @@ class MeshUtils:
                 i1,i2= i2,i1
             return i1, i2
 
                 i1,i2= i2,i1
             return i1, i2
 

-       
+

         face_edges_dict= dict([(sorted_edge_indicies(ed), (ed.index, [])) for ed in me.edges])
         for f in me.faces:
             fvi= [v.index for v in f.v]# face vert idx's
             for i in xrange(len(f)):
                 i1= fvi[i]
                 i2= fvi[i-1]
         face_edges_dict= dict([(sorted_edge_indicies(ed), (ed.index, [])) for ed in me.edges])
         for f in me.faces:
             fvi= [v.index for v in f.v]# face vert idx's
             for i in xrange(len(f)):
                 i1= fvi[i]
                 i2= fvi[i-1]

-                
+

                 if i1>i2:
                     i1,i2= i2,i1
                 if i1>i2:
                     i1,i2= i2,i1

-                
+

                 face_edges_dict[i1,i2][1].append(f)
                 face_edges_dict[i1,i2][1].append(f)

-        
+

         face_edges= [None] * len(me.edges)
         for ed_index, ed_faces in face_edges_dict.itervalues():
             face_edges[ed_index]= ed_faces
         face_edges= [None] * len(me.edges)
         for ed_index, ed_faces in face_edges_dict.itervalues():
             face_edges[ed_index]= ed_faces

-        
+

         return face_edges
 
     def isMeshEdge(adjacent_faces):
         return face_edges
 
     def isMeshEdge(adjacent_faces):


@@ -876,10 +915,10 @@ class ShadingUtils:
 
 class Projector:
     """Calculate the projection of an object given the camera.
 
 class Projector:
     """Calculate the projection of an object given the camera.

-    
+

     A projector is useful to so some per-object transformation to obtain the
     projection of an object given the camera.
     A projector is useful to so some per-object transformation to obtain the
     projection of an object given the camera.

-    
+

     The main method is #doProjection# see the method description for the
     parameter list.
     """
     The main method is #doProjection# see the method description for the
     parameter list.
     """


@@ -909,18 +948,18 @@ class Projector:
         else:
             camPersp = 'persp'
             camOrtho = 'ortho'
         else:
             camPersp = 'persp'
             camOrtho = 'ortho'

-            
+

         # What projection do we want?
         if camera.type == camPersp:
         # What projection do we want?
         if camera.type == camPersp:

-            mP = self._calcPerspectiveMatrix(fovy, aspect, near, far) 
+            mP = self._calcPerspectiveMatrix(fovy, aspect, near, far)

         elif camera.type == camOrtho:
             mP = self._calcOrthoMatrix(fovy, aspect, near, far, scale)
         elif camera.type == camOrtho:
             mP = self._calcOrthoMatrix(fovy, aspect, near, far, scale)

-        
+

 
         # View transformation
         cam = Matrix(cameraObj.getInverseMatrix())
 
         # View transformation
         cam = Matrix(cameraObj.getInverseMatrix())

-        cam.transpose() 
-        
+        cam.transpose()
+

         mP = mP * cam
 
         self.projectionMatrix = mP
         mP = mP * cam
 
         self.projectionMatrix = mP


@@ -935,13 +974,13 @@ class Projector:
         Given a vertex calculate the projection using the current projection
         matrix.
         """
         Given a vertex calculate the projection using the current projection
         matrix.
         """

-        
+

         # Note that we have to work on the vertex using homogeneous coordinates
         # From blender 2.42+ we don't need to resize the vector to be 4d
         # when applying a 4x4 matrix, but we do that anyway since we need the
         # 4th coordinate later
         p = self.projectionMatrix * Vector(v).resize4D()
         # Note that we have to work on the vertex using homogeneous coordinates
         # From blender 2.42+ we don't need to resize the vector to be 4d
         # when applying a 4x4 matrix, but we do that anyway since we need the
         # 4th coordinate later
         p = self.projectionMatrix * Vector(v).resize4D()

-        
+

         # Perspective division
         if p[3] != 0:
             p[0] = p[0]/p[3]
         # Perspective division
         if p[3] != 0:
             p[0] = p[0]/p[3]


@@ -958,11 +997,11 @@ class Projector:
     ##
     # Private methods
     #
     ##
     # Private methods
     #

-    
+

     def _calcPerspectiveMatrix(self, fovy, aspect, near, far):
         """Return a perspective projection matrix.
         """
     def _calcPerspectiveMatrix(self, fovy, aspect, near, far):
         """Return a perspective projection matrix.
         """

-        
+

         top = near * tan(fovy * pi / 360.0)
         bottom = -top
         left = bottom*aspect
         top = near * tan(fovy * pi / 360.0)
         bottom = -top
         left = bottom*aspect


@@ -973,7 +1012,7 @@ class Projector:
         b = (top+bottom) / (top - bottom)
         c = - ((far+near) / (far-near))
         d = - ((2*far*near)/(far-near))
         b = (top+bottom) / (top - bottom)
         c = - ((far+near) / (far-near))
         d = - ((2*far*near)/(far-near))

-        
+

         m = Matrix(
                 [x,   0.0,    a,    0.0],
                 [0.0,   y,    b,    0.0],
         m = Matrix(
                 [x,   0.0,    a,    0.0],
                 [0.0,   y,    b,    0.0],


@@ -985,15 +1024,15 @@ class Projector:
     def _calcOrthoMatrix(self, fovy, aspect , near, far, scale):
         """Return an orthogonal projection matrix.
         """
     def _calcOrthoMatrix(self, fovy, aspect , near, far, scale):
         """Return an orthogonal projection matrix.
         """

-        
+

         # The 11 in the formula was found emiprically
         top = near * tan(fovy * pi / 360.0) * (scale * 11)
         # The 11 in the formula was found emiprically
         top = near * tan(fovy * pi / 360.0) * (scale * 11)

-        bottom = -top 
+        bottom = -top

         left = bottom * aspect
         right= top * aspect
         rl = right-left
         tb = top-bottom
         left = bottom * aspect
         right= top * aspect
         rl = right-left
         tb = top-bottom

-        fn = near-far 
+        fn = near-far

         tx = -((right+left)/rl)
         ty = -((top+bottom)/tb)
         tz = ((far+near)/fn)
         tx = -((right+left)/rl)
         ty = -((top+bottom)/tb)
         tz = ((far+near)/fn)


@@ -1003,7 +1042,7 @@ class Projector:
                 [0.0,    2.0/tb, 0.0,     ty],
                 [0.0,    0.0,    2.0/fn,  tz],
                 [0.0,    0.0,    0.0,    1.0])
                 [0.0,    2.0/tb, 0.0,     ty],
                 [0.0,    0.0,    2.0/fn,  tz],
                 [0.0,    0.0,    0.0,    1.0])

-        
+

         return m
 
 
         return m
 
 


@@ -1015,7 +1054,7 @@ class Projector:
 
 class Progress:
     """A model for a progress indicator.
 
 class Progress:
     """A model for a progress indicator.

-    
+

     Do the progress calculation calculation and
     the view independent stuff of a progress indicator.
     """
     Do the progress calculation calculation and
     the view independent stuff of a progress indicator.
     """


@@ -1127,7 +1166,7 @@ class ConsoleProgressIndicator(ProgressIndicator):
 
     def show(self, progress, name):
         ProgressIndicator.show(self, progress, name)
 
     def show(self, progress, name):
         ProgressIndicator.show(self, progress, name)

-        
+

         bar_length = 70
         bar_progress = int( (progress/100.0) * bar_length )
         bar = ("=" * bar_progress).ljust(bar_length)
         bar_length = 70
         bar_progress = int( (progress/100.0) * bar_length )
         bar = ("=" * bar_progress).ljust(bar_length)


@@ -1205,12 +1244,18 @@ class VectorWriter:
         - printCanvas(self, scene,
             doPrintPolygons=True, doPrintEdges=False, showHiddenEdges=False):
     """
         - printCanvas(self, scene,
             doPrintPolygons=True, doPrintEdges=False, showHiddenEdges=False):
     """

-    
+

     def __init__(self, fileName):
         """Set the output file name and other properties"""
 
     def __init__(self, fileName):
         """Set the output file name and other properties"""
 

+        try:
+            config.writer
+        except:
+            config.writer = dict()
+            config.writer['SETTING'] = True
+

         self.outputFileName = fileName
         self.outputFileName = fileName

-        
+

         context = Scene.GetCurrent().getRenderingContext()
         self.canvasSize = ( context.imageSizeX(), context.imageSizeY() )
 
         context = Scene.GetCurrent().getRenderingContext()
         self.canvasSize = ( context.imageSizeX(), context.imageSizeY() )
 


@@ -1224,7 +1269,7 @@ class VectorWriter:
     ##
     # Public Methods
     #
     ##
     # Public Methods
     #

-    
+

     def open(self, startFrame=1, endFrame=1):
         if startFrame != endFrame:
             self.startFrame = startFrame
     def open(self, startFrame=1, endFrame=1):
         if startFrame != endFrame:
             self.startFrame = startFrame


@@ -1243,7 +1288,7 @@ class VectorWriter:
         """This is the interface for the needed printing routine.
         """
         return
         """This is the interface for the needed printing routine.
         """
         return

-        
+

 
 ## SVG Writer
 
 
 ## SVG Writer
 


@@ -1283,13 +1328,13 @@ class SVGVectorWriter(VectorWriter):
         # remember to call the close method of the parent as last
         VectorWriter.close(self)
 
         # remember to call the close method of the parent as last
         VectorWriter.close(self)
 

-        
+

     def printCanvas(self, scene, doPrintPolygons=True, doPrintEdges=False,
             showHiddenEdges=False):
         """Convert the scene representation to SVG.
         """
 
     def printCanvas(self, scene, doPrintPolygons=True, doPrintEdges=False,
             showHiddenEdges=False):
         """Convert the scene representation to SVG.
         """
 

-        Objects = scene.getChildren()
+        Objects = scene.objects

 
         context = scene.getRenderingContext()
         framenumber = context.currentFrame()
 
         context = scene.getRenderingContext()
         framenumber = context.currentFrame()


@@ -1298,7 +1343,7 @@ class SVGVectorWriter(VectorWriter):
             framestyle = "display:none"
         else:
             framestyle = "display:block"
             framestyle = "display:none"
         else:
             framestyle = "display:block"

-        
+

         # Assign an id to this group so we can set properties on it using DOM
         self.file.write("<g id=\"frame%d\" style=\"%s\">\n" %
                 (framenumber, framestyle) )
         # Assign an id to this group so we can set properties on it using DOM
         self.file.write("<g id=\"frame%d\" style=\"%s\">\n" %
                 (framenumber, framestyle) )


@@ -1318,22 +1363,22 @@ class SVGVectorWriter(VectorWriter):
 
             if doPrintEdges:
                 self._printEdges(mesh, showHiddenEdges)
 
             if doPrintEdges:
                 self._printEdges(mesh, showHiddenEdges)

-            
+

             self.file.write("</g>\n")
 
         self.file.write("</g>\n")
 
             self.file.write("</g>\n")
 
         self.file.write("</g>\n")
 

-    
-    ##  
+
+    ##

     # Private Methods
     #
     # Private Methods
     #

-    
+

     def _calcCanvasCoord(self, v):
         """Convert vertex in scene coordinates to canvas coordinates.
         """
 
         pt = Vector([0, 0, 0])
     def _calcCanvasCoord(self, v):
         """Convert vertex in scene coordinates to canvas coordinates.
         """
 
         pt = Vector([0, 0, 0])

-        
+

         mW = float(self.canvasSize[0])/2.0
         mH = float(self.canvasSize[1])/2.0
 
         mW = float(self.canvasSize[0])/2.0
         mH = float(self.canvasSize[1])/2.0
 


@@ -1341,12 +1386,12 @@ class SVGVectorWriter(VectorWriter):
         pt[0] = v.co[0]*mW + mW
         pt[1] = v.co[1]*mH + mH
         pt[2] = v.co[2]
         pt[0] = v.co[0]*mW + mW
         pt[1] = v.co[1]*mH + mH
         pt[2] = v.co[2]

-         
+

         # For now we want (0,0) in the top-left corner of the canvas.
         # Mirror and translate along y
         pt[1] *= -1
         pt[1] += self.canvasSize[1]
         # For now we want (0,0) in the top-left corner of the canvas.
         # Mirror and translate along y
         pt[1] *= -1
         pt[1] += self.canvasSize[1]

-        
+

         return pt
 
     def _printHeader(self):
         return pt
 
     def _printHeader(self):


@@ -1398,13 +1443,13 @@ class SVGVectorWriter(VectorWriter):
             }
             \n]]></script>\n
             \n""")
             }
             \n]]></script>\n
             \n""")

-                
+

     def _printFooter(self):
         """Print the SVG footer."""
 
         self.file.write("\n</svg>\n")
 
     def _printFooter(self):
         """Print the SVG footer."""
 
         self.file.write("\n</svg>\n")
 

-    def _printPolygons(self, mesh): 
+    def _printPolygons(self, mesh):

         """Print the selected (visible) polygons.
         """
 
         """Print the selected (visible) polygons.
         """
 


@@ -1426,11 +1471,11 @@ class SVGVectorWriter(VectorWriter):
             for v in face.v[1:]:
                 p = self._calcCanvasCoord(v)
                 self.file.write("%g,%g " % (p[0], p[1]))
             for v in face.v[1:]:
                 p = self._calcCanvasCoord(v)
                 self.file.write("%g,%g " % (p[0], p[1]))

-            
+

             # get rid of the last blank space, just cosmetics here.
             # get rid of the last blank space, just cosmetics here.

-            self.file.seek(-1, 1) 
+            self.file.seek(-1, 1)

             self.file.write(" z\"\n")
             self.file.write(" z\"\n")

-            
+

             # take as face color the first vertex color
             if face.col:
                 fcol = face.col[0]
             # take as face color the first vertex color
             if face.col:
                 fcol = face.col[0]


@@ -1473,13 +1518,13 @@ class SVGVectorWriter(VectorWriter):
 
         stroke_width = config.edges['WIDTH']
         stroke_col = config.edges['COLOR']
 
         stroke_width = config.edges['WIDTH']
         stroke_col = config.edges['COLOR']

-        
+

         self.file.write("<g>\n")
 
         for e in mesh.edges:
         self.file.write("<g>\n")
 
         for e in mesh.edges:

-            
+

             hidden_stroke_style = ""
             hidden_stroke_style = ""

-            
+

             if e.sel == 0:
                 if showHiddenEdges == False:
                     continue
             if e.sel == 0:
                 if showHiddenEdges == False:
                     continue


@@ -1488,7 +1533,7 @@ class SVGVectorWriter(VectorWriter):
 
             p1 = self._calcCanvasCoord(e.v1)
             p2 = self._calcCanvasCoord(e.v2)
 
             p1 = self._calcCanvasCoord(e.v1)
             p2 = self._calcCanvasCoord(e.v2)

-            
+

             self.file.write("<line x1=\"%g\" y1=\"%g\" x2=\"%g\" y2=\"%g\"\n"
                     % ( p1[0], p1[1], p2[0], p2[1] ) )
             self.file.write(" style=\"stroke:rgb("+str(stroke_col[0])+","+str(stroke_col[1])+","+str(stroke_col[2])+");")
             self.file.write("<line x1=\"%g\" y1=\"%g\" x2=\"%g\" y2=\"%g\"\n"
                     % ( p1[0], p1[1], p2[0], p2[1] ) )
             self.file.write(" style=\"stroke:rgb("+str(stroke_col[0])+","+str(stroke_col[1])+","+str(stroke_col[2])+");")


@@ -1551,7 +1596,7 @@ class SWFVectorWriter(VectorWriter):
         context = scene.getRenderingContext()
         framenumber = context.currentFrame()
 
         context = scene.getRenderingContext()
         framenumber = context.currentFrame()
 

-        Objects = scene.getChildren()
+        Objects = scene.objects

 
         if self.sprite:
             self.movie.remove(self.sprite)
 
         if self.sprite:
             self.movie.remove(self.sprite)


@@ -1570,7 +1615,7 @@ class SWFVectorWriter(VectorWriter):
 
             if doPrintEdges:
                 self._printEdges(mesh, sprite, showHiddenEdges)
 
             if doPrintEdges:
                 self._printEdges(mesh, sprite, showHiddenEdges)

-            
+

         sprite.nextFrame()
         i = self.movie.add(sprite)
         # Remove the instance the next time
         sprite.nextFrame()
         i = self.movie.add(sprite)
         # Remove the instance the next time


@@ -1578,17 +1623,17 @@ class SWFVectorWriter(VectorWriter):
         if self.animation:
             self.movie.nextFrame()
 
         if self.animation:
             self.movie.nextFrame()
 

-    
-    ##  
+
+    ##

     # Private Methods
     #
     # Private Methods
     #

-    
+

     def _calcCanvasCoord(self, v):
         """Convert vertex in scene coordinates to canvas coordinates.
         """
 
         pt = Vector([0, 0, 0])
     def _calcCanvasCoord(self, v):
         """Convert vertex in scene coordinates to canvas coordinates.
         """
 
         pt = Vector([0, 0, 0])

-        
+

         mW = float(self.canvasSize[0])/2.0
         mH = float(self.canvasSize[1])/2.0
 
         mW = float(self.canvasSize[0])/2.0
         mH = float(self.canvasSize[1])/2.0
 


@@ -1596,15 +1641,15 @@ class SWFVectorWriter(VectorWriter):
         pt[0] = v.co[0]*mW + mW
         pt[1] = v.co[1]*mH + mH
         pt[2] = v.co[2]
         pt[0] = v.co[0]*mW + mW
         pt[1] = v.co[1]*mH + mH
         pt[2] = v.co[2]

-         
+

         # For now we want (0,0) in the top-left corner of the canvas.
         # Mirror and translate along y
         pt[1] *= -1
         pt[1] += self.canvasSize[1]
         # For now we want (0,0) in the top-left corner of the canvas.
         # Mirror and translate along y
         pt[1] *= -1
         pt[1] += self.canvasSize[1]

-        
+

         return pt
         return pt

-                
-    def _printPolygons(self, mesh, sprite): 
+
+    def _printPolygons(self, mesh, sprite):

         """Print the selected (visible) polygons.
         """
 
         """Print the selected (visible) polygons.
         """
 


@@ -1632,7 +1677,7 @@ class SWFVectorWriter(VectorWriter):
             for v in face.verts[1:]:
                 p = self._calcCanvasCoord(v)
                 s.drawLineTo(p[0], p[1])
             for v in face.verts[1:]:
                 p = self._calcCanvasCoord(v)
                 s.drawLineTo(p[0], p[1])

-            
+

             # Closing the shape
             s.drawLineTo(p0[0], p0[1])
 
             # Closing the shape
             s.drawLineTo(p0[0], p0[1])
 


@@ -1654,7 +1699,7 @@ class SWFVectorWriter(VectorWriter):
             # Next, we set the line width and color for our shape.
             s.setLine(stroke_width, stroke_col[0], stroke_col[1], stroke_col[2],
             255)
             # Next, we set the line width and color for our shape.
             s.setLine(stroke_width, stroke_col[0], stroke_col[1], stroke_col[2],
             255)

-            
+

             if e.sel == 0:
                 if showHiddenEdges == False:
                     continue
             if e.sel == 0:
                 if showHiddenEdges == False:
                     continue


@@ -1672,7 +1717,7 @@ class SWFVectorWriter(VectorWriter):
 
         s.end()
         sprite.add(s)
 
         s.end()
         sprite.add(s)

-            
+

 
 ## PDF Writer
 
 
 ## PDF Writer
 


@@ -1720,7 +1765,7 @@ class PDFVectorWriter(VectorWriter):
         context = scene.getRenderingContext()
         framenumber = context.currentFrame()
 
         context = scene.getRenderingContext()
         framenumber = context.currentFrame()
 

-        Objects = scene.getChildren()
+        Objects = scene.objects

 
         for obj in Objects:
 
 
         for obj in Objects:
 


@@ -1734,19 +1779,19 @@ class PDFVectorWriter(VectorWriter):
 
             if doPrintEdges:
                 self._printEdges(mesh, showHiddenEdges)
 
             if doPrintEdges:
                 self._printEdges(mesh, showHiddenEdges)

-            
+

         self.canvas.showPage()
         self.canvas.showPage()

-    
-    ##  
+
+    ##

     # Private Methods
     #
     # Private Methods
     #

-    
+

     def _calcCanvasCoord(self, v):
         """Convert vertex in scene coordinates to canvas coordinates.
         """
 
         pt = Vector([0, 0, 0])
     def _calcCanvasCoord(self, v):
         """Convert vertex in scene coordinates to canvas coordinates.
         """
 
         pt = Vector([0, 0, 0])

-        
+

         mW = float(self.canvasSize[0])/2.0
         mH = float(self.canvasSize[1])/2.0
 
         mW = float(self.canvasSize[0])/2.0
         mH = float(self.canvasSize[1])/2.0
 


@@ -1754,15 +1799,15 @@ class PDFVectorWriter(VectorWriter):
         pt[0] = v.co[0]*mW + mW
         pt[1] = v.co[1]*mH + mH
         pt[2] = v.co[2]
         pt[0] = v.co[0]*mW + mW
         pt[1] = v.co[1]*mH + mH
         pt[2] = v.co[2]

-         
+

         # For now we want (0,0) in the top-left corner of the canvas.
         # Mirror and translate along y
         pt[1] *= -1
         pt[1] += self.canvasSize[1]
         # For now we want (0,0) in the top-left corner of the canvas.
         # Mirror and translate along y
         pt[1] *= -1
         pt[1] += self.canvasSize[1]

-        
+

         return pt
         return pt

-                
-    def _printPolygons(self, mesh): 
+
+    def _printPolygons(self, mesh):

         """Print the selected (visible) polygons.
         """
 
         """Print the selected (visible) polygons.
         """
 


@@ -1793,7 +1838,7 @@ class PDFVectorWriter(VectorWriter):
             for v in face.verts[1:]:
                 p = self._calcCanvasCoord(v)
                 path.lineTo(p[0], p[1])
             for v in face.verts[1:]:
                 p = self._calcCanvasCoord(v)
                 path.lineTo(p[0], p[1])

-            
+

             # Closing the shape
             path.close()
 
             # Closing the shape
             path.close()
 


@@ -1805,7 +1850,7 @@ class PDFVectorWriter(VectorWriter):
 
         stroke_width = config.edges['WIDTH']
         stroke_col = config.edges['COLOR']
 
         stroke_width = config.edges['WIDTH']
         stroke_col = config.edges['COLOR']

-       
+

         self.canvas.setLineCap(1)
         self.canvas.setLineJoin(1)
         self.canvas.setLineWidth(stroke_width)
         self.canvas.setLineCap(1)
         self.canvas.setLineJoin(1)
         self.canvas.setLineWidth(stroke_width)


@@ -1858,7 +1903,7 @@ if PDFSupported:
 
 class Renderer:
     """Render a scene viewed from the active camera.
 
 class Renderer:
     """Render a scene viewed from the active camera.

-    
+

     This class is responsible of the rendering process, transformation and
     projection of the objects in the scene are invoked by the renderer.
 
     This class is responsible of the rendering process, transformation and
     projection of the objects in the scene are invoked by the renderer.
 


@@ -1874,7 +1919,7 @@ class Renderer:
 
         # Render the current Scene, this should be a READ-ONLY property
         self._SCENE = Scene.GetCurrent()
 
         # Render the current Scene, this should be a READ-ONLY property
         self._SCENE = Scene.GetCurrent()

-        
+

         # Use the aspect ratio of the scene rendering context
         context = self._SCENE.getRenderingContext()
 
         # Use the aspect ratio of the scene rendering context
         context = self._SCENE.getRenderingContext()
 


@@ -1883,8 +1928,8 @@ class Renderer:
                             float(context.aspectRatioY())
                             )
 
                             float(context.aspectRatioY())
                             )
 

-        # Render from the currently active camera 
-        #self.cameraObj = self._SCENE.getCurrentCamera()
+        # Render from the currently active camera
+        #self.cameraObj = self._SCENE.objects.camera

 
         self.lights = []
 
 
         self.lights = []
 


@@ -1895,13 +1940,13 @@ class Renderer:
 
     def doRendering(self, outputWriter, animation=False):
         """Render picture or animation and write it out.
 
     def doRendering(self, outputWriter, animation=False):
         """Render picture or animation and write it out.

-        
+

         The parameters are:
             - a Vector writer object that will be used to output the result.
             - a flag to tell if we want to render an animation or only the
               current frame.
         """
         The parameters are:
             - a Vector writer object that will be used to output the result.
             - a flag to tell if we want to render an animation or only the
               current frame.
         """

-        
+

         context = self._SCENE.getRenderingContext()
         origCurrentFrame = context.currentFrame()
 
         context = self._SCENE.getRenderingContext()
         origCurrentFrame = context.currentFrame()
 


@@ -1914,7 +1959,7 @@ class Renderer:
             startFrame = context.startFrame()
             endFrame = context.endFrame()
             outputWriter.open(startFrame, endFrame)
             startFrame = context.startFrame()
             endFrame = context.endFrame()
             outputWriter.open(startFrame, endFrame)

-        
+

         # Do the rendering process frame by frame
         print "Start Rendering of %d frames" % (endFrame-startFrame+1)
         for f in xrange(startFrame, endFrame+1):
         # Do the rendering process frame by frame
         print "Start Rendering of %d frames" % (endFrame-startFrame+1)
         for f in xrange(startFrame, endFrame+1):


@@ -1923,7 +1968,7 @@ class Renderer:
             # FIXME To get the correct camera position we have to use +1 here.
             # Is there a bug somewhere in the Scene module?
             context.currentFrame(f+1)
             # FIXME To get the correct camera position we have to use +1 here.
             # Is there a bug somewhere in the Scene module?
             context.currentFrame(f+1)

-            self.cameraObj = self._SCENE.getCurrentCamera()
+            self.cameraObj = self._SCENE.objects.camera

 
             # Use some temporary workspace, a full copy of the scene
             inputScene = self._SCENE.copy(2)
 
             # Use some temporary workspace, a full copy of the scene
             inputScene = self._SCENE.copy(2)


@@ -1947,7 +1992,7 @@ class Renderer:
                 print traceback.print_exc()
 
                 self._SCENE.makeCurrent()
                 print traceback.print_exc()
 
                 self._SCENE.makeCurrent()

-                Scene.unlink(inputScene)
+                Scene.Unlink(inputScene)

                 del inputScene
                 return
 
                 del inputScene
                 return
 


@@ -1955,10 +2000,10 @@ class Renderer:
                     doPrintPolygons = config.polygons['SHOW'],
                     doPrintEdges    = config.edges['SHOW'],
                     showHiddenEdges = config.edges['SHOW_HIDDEN'])
                     doPrintPolygons = config.polygons['SHOW'],
                     doPrintEdges    = config.edges['SHOW'],
                     showHiddenEdges = config.edges['SHOW_HIDDEN'])

-            
+

             # delete the rendered scene
             self._SCENE.makeCurrent()
             # delete the rendered scene
             self._SCENE.makeCurrent()

-            Scene.unlink(renderedScene)
+            Scene.Unlink(renderedScene)

             del renderedScene
 
         outputWriter.close()
             del renderedScene
 
         outputWriter.close()


@@ -1968,11 +2013,11 @@ class Renderer:
 
     def doRenderScene(self, workScene):
         """Control the rendering process.
 
     def doRenderScene(self, workScene):
         """Control the rendering process.

-        
+

         Here we control the entire rendering process invoking the operation
         needed to transform and project the 3D scene in two dimensions.
         """
         Here we control the entire rendering process invoking the operation
         needed to transform and project the 3D scene in two dimensions.
         """

-        
+

         # global processing of the scene
 
         self._filterHiddenObjects(workScene)
         # global processing of the scene
 
         self._filterHiddenObjects(workScene)


@@ -1987,10 +2032,10 @@ class Renderer:
             self._joinMeshObjectsInScene(workScene)
 
         self._doSceneDepthSorting(workScene)
             self._joinMeshObjectsInScene(workScene)
 
         self._doSceneDepthSorting(workScene)

-        
+

         # Per object activities
 
         # Per object activities
 

-        Objects = workScene.getChildren()
+        Objects = workScene.objects

 
         print "Total Objects: %d" % len(Objects)
         for i,obj in enumerate(Objects):
 
         print "Total Objects: %d" % len(Objects)
         for i,obj in enumerate(Objects):


@@ -2058,7 +2103,7 @@ class Renderer:
 
     def _isFaceVisible(self, face):
         """Determine if a face of an object is visible from the current camera.
 
     def _isFaceVisible(self, face):
         """Determine if a face of an object is visible from the current camera.

-        
+

         The view vector is calculated from the camera location and one of the
         vertices of the face (expressed in World coordinates, after applying
         modelview transformations).
         The view vector is calculated from the camera location and one of the
         vertices of the face (expressed in World coordinates, after applying
         modelview transformations).


@@ -2095,7 +2140,7 @@ class Renderer:
 
         # if d > 0 the face is visible from the camera
         d = view_vect * normal
 
         # if d > 0 the face is visible from the camera
         d = view_vect * normal

-        
+

         if d > 0:
             return True
         else:
         if d > 0:
             return True
         else:


@@ -2108,14 +2153,14 @@ class Renderer:
         """Discard object that are on hidden layers in the scene.
         """
 
         """Discard object that are on hidden layers in the scene.
         """
 

-        Objects = scene.getChildren()
+        Objects = scene.objects

 
         visible_obj_list = [ obj for obj in Objects if
                 set(obj.layers).intersection(set(scene.getLayers())) ]
 
         for o in Objects:
             if o not in visible_obj_list:
 
         visible_obj_list = [ obj for obj in Objects if
                 set(obj.layers).intersection(set(scene.getLayers())) ]
 
         for o in Objects:
             if o not in visible_obj_list:

-                scene.unlink(o)
+                scene.objects.unlink(o)

 
         scene.update()
 
 
         scene.update()
 


@@ -2123,7 +2168,7 @@ class Renderer:
 
     def _buildLightSetup(self, scene):
         # Get the list of lighting sources
 
     def _buildLightSetup(self, scene):
         # Get the list of lighting sources

-        obj_lst = scene.getChildren()
+        obj_lst = scene.objects

         self.lights = [ o for o in obj_lst if o.getType() == 'Lamp' ]
 
         # When there are no lights we use a default lighting source
         self.lights = [ o for o in obj_lst if o.getType() == 'Lamp' ]
 
         # When there are no lights we use a default lighting source


@@ -2132,7 +2177,7 @@ class Renderer:
             l = Lamp.New('Lamp')
             lobj = Object.New('Lamp')
             lobj.loc = self.cameraObj.loc
             l = Lamp.New('Lamp')
             lobj = Object.New('Lamp')
             lobj.loc = self.cameraObj.loc

-            lobj.link(l) 
+            lobj.link(l)

             self.lights.append(lobj)
 
 
             self.lights.append(lobj)
 
 


@@ -2152,7 +2197,7 @@ class Renderer:
         fovy = atan(0.5/aspect/(self.cameraObj.data.lens/32))
         fovy = fovy * 360.0/pi
 
         fovy = atan(0.5/aspect/(self.cameraObj.data.lens/32))
         fovy = fovy * 360.0/pi
 

-        Objects = scene.getChildren()
+        Objects = scene.objects

 
         for o in Objects:
             if o.getType() != 'Mesh': continue;
 
         for o in Objects:
             if o.getType() != 'Mesh': continue;


@@ -2162,17 +2207,17 @@ class Renderer:
 
             d = obj_vect*view_vect
             theta = AngleBetweenVecs(obj_vect, view_vect)
 
             d = obj_vect*view_vect
             theta = AngleBetweenVecs(obj_vect, view_vect)

-            
+

             # if the object is outside the view frustum, clip it away
             if (d < near) or (d > far) or (theta > fovy):
             # if the object is outside the view frustum, clip it away
             if (d < near) or (d > far) or (theta > fovy):

-                scene.unlink(o)
+                scene.objects.unlink(o)

             """
 
             # Use the object bounding box
             # (whose points are already in WorldSpace Coordinate)
 
             bb = o.getBoundBox()
             """
 
             # Use the object bounding box
             # (whose points are already in WorldSpace Coordinate)
 
             bb = o.getBoundBox()

-            
+

             points_outside = 0
             for p in bb:
                 p_vect = Vector(cam_pos) - Vector(p)
             points_outside = 0
             for p in bb:
                 p_vect = Vector(cam_pos) - Vector(p)


@@ -2187,7 +2232,7 @@ class Renderer:
             # If the bb is all outside the view frustum we clip the whole
             # object away
             if points_outside == len(bb):
             # If the bb is all outside the view frustum we clip the whole
             # object away
             if points_outside == len(bb):

-                scene.unlink(o)
+                scene.objects.unlink(o)

 
 
 
 
 
 


@@ -2197,14 +2242,14 @@ class Renderer:
         geometricObjTypes = ['Mesh', 'Surf', 'Curve', 'Text']
         #geometricObjTypes = ['Mesh', 'Surf', 'Curve']
 
         geometricObjTypes = ['Mesh', 'Surf', 'Curve', 'Text']
         #geometricObjTypes = ['Mesh', 'Surf', 'Curve']
 

-        Objects = scene.getChildren()
+        Objects = scene.objects

 
         objList = [ o for o in Objects if o.getType() in geometricObjTypes ]
         for obj in objList:
             old_obj = obj
             obj = self._convertToRawMeshObj(obj)
 
         objList = [ o for o in Objects if o.getType() in geometricObjTypes ]
         for obj in objList:
             old_obj = obj
             obj = self._convertToRawMeshObj(obj)

-            scene.link(obj)
-            scene.unlink(old_obj)
+            scene.objects.link(obj)
+            scene.objects.unlink(old_obj)

 
 
             # XXX Workaround for Text and Curve which have some normals
 
 
             # XXX Workaround for Text and Curve which have some normals


@@ -2243,22 +2288,22 @@ class Renderer:
                 )
             )
 
                 )
             )
 

-        
-        Objects = scene.getChildren()
+
+        Objects = list(scene.objects)

 
         #Objects.sort(by_obj_center_pos)
         Objects.sort(by_nearest_bbox_point)
 
         #Objects.sort(by_obj_center_pos)
         Objects.sort(by_nearest_bbox_point)

-        
+

         # update the scene
         for o in Objects:
         # update the scene
         for o in Objects:

-            scene.unlink(o)
-            scene.link(o)
+            scene.objects.unlink(o)
+            scene.objects.link(o)

 
     def _joinMeshObjectsInScene(self, scene):
         """Merge all the Mesh Objects in a scene into a single Mesh Object.
         """
 
 
     def _joinMeshObjectsInScene(self, scene):
         """Merge all the Mesh Objects in a scene into a single Mesh Object.
         """
 

-        oList = [o for o in scene.getChildren() if o.getType()=='Mesh']
+        oList = [o for o in scene.objects if o.getType()=='Mesh']

 
         # FIXME: Object.join() do not work if the list contains 1 object
         if len(oList) == 1:
 
         # FIXME: Object.join() do not work if the list contains 1 object
         if len(oList) == 1:


@@ -2268,23 +2313,23 @@ class Renderer:
         bigObj = Object.New('Mesh', 'BigOne')
         bigObj.link(mesh)
 
         bigObj = Object.New('Mesh', 'BigOne')
         bigObj.link(mesh)
 

-        scene.link(bigObj)
+        scene.objects.link(bigObj)

 
         try:
             bigObj.join(oList)
         except RuntimeError:
             print "\nWarning! - Can't Join Objects\n"
 
         try:
             bigObj.join(oList)
         except RuntimeError:
             print "\nWarning! - Can't Join Objects\n"

-            scene.unlink(bigObj)
+            scene.objects.unlink(bigObj)

             return
         except TypeError:
             print "Objects Type error?"
             return
         except TypeError:
             print "Objects Type error?"

-        
+

         for o in oList:
         for o in oList:

-            scene.unlink(o)
+            scene.objects.unlink(o)

 
         scene.update()
 
 
         scene.update()
 

- 
+

     # Per object/mesh methods
 
     def _convertToRawMeshObj(self, object):
     # Per object/mesh methods
 
     def _convertToRawMeshObj(self, object):


@@ -2320,16 +2365,16 @@ class Renderer:
 
     def _doBackFaceCulling(self, mesh):
         """Simple Backface Culling routine.
 
     def _doBackFaceCulling(self, mesh):
         """Simple Backface Culling routine.

-        
+

         At this level we simply do a visibility test face by face and then
         select the vertices belonging to visible faces.
         """
         At this level we simply do a visibility test face by face and then
         select the vertices belonging to visible faces.
         """

-        
+

         # Select all vertices, so edges can be displayed even if there are no
         # faces
         for v in mesh.verts:
             v.sel = 1
         # Select all vertices, so edges can be displayed even if there are no
         # faces
         for v in mesh.verts:
             v.sel = 1

-        
+

         Mesh.Mode(Mesh.SelectModes['FACE'])
         # Loop on faces
         for f in mesh.faces:
         Mesh.Mode(Mesh.SelectModes['FACE'])
         # Loop on faces
         for f in mesh.faces:


@@ -2394,7 +2439,7 @@ class Renderer:
                 light_obj = l
                 light_pos = self._getObjPosition(l)
                 light = light_obj.getData()
                 light_obj = l
                 light_pos = self._getObjPosition(l)
                 light = light_obj.getData()

-            
+

                 L = Vector(light_pos).normalize()
 
                 V = (Vector(camPos) - Vector(f.cent)).normalize()
                 L = Vector(light_pos).normalize()
 
                 V = (Vector(camPos) - Vector(f.cent)).normalize()


@@ -2484,7 +2529,7 @@ class Renderer:
 
         # The Canonical View Volume, 8 vertices, and 6 faces,
         # We consider its face normals pointing outside
 
         # The Canonical View Volume, 8 vertices, and 6 faces,
         # We consider its face normals pointing outside

-        
+

         v1 = NMesh.Vert(1, 1, -1)
         v2 = NMesh.Vert(1, -1, -1)
         v3 = NMesh.Vert(-1, -1, -1)
         v1 = NMesh.Vert(1, 1, -1)
         v2 = NMesh.Vert(1, -1, -1)
         v3 = NMesh.Vert(-1, -1, -1)


@@ -2517,8 +2562,9 @@ class Renderer:
             clippedfaces = []
 
             for f in facelist:
             clippedfaces = []
 
             for f in facelist:

-                
-                newfaces = HSR.splitOn(clipface, f, return_positive_faces=False)
+
+                #newfaces = HSR.splitOn(clipface, f, return_positive_faces=False)
+                newfaces = None

 
                 if not newfaces:
                     # Check if the face is all outside the view frustum
 
                 if not newfaces:
                     # Check if the face is all outside the view frustum


@@ -2545,7 +2591,7 @@ class Renderer:
 
         nmesh.faces = facelist
         nmesh.update()
 
         nmesh.faces = facelist
         nmesh.update()

-        
+

 
     # HSR routines
     def __simpleDepthSort(self, mesh):
 
     # HSR routines
     def __simpleDepthSort(self, mesh):


@@ -2617,7 +2663,7 @@ class Renderer:
         progress.setActivity("HSR: Newell", len(facelist))
         #progress.setQuiet(True)
 
         progress.setActivity("HSR: Newell", len(facelist))
         #progress.setQuiet(True)
 

-        
+

         while len(facelist):
             debug("\n----------------------\n")
             debug("len(facelits): %d\n" % len(facelist))
         while len(facelist):
             debug("\n----------------------\n")
             debug("len(facelits): %d\n" % len(facelist))


@@ -2641,7 +2687,7 @@ class Renderer:
 
                 qSign = sign(Q.normal[2])
                 # TODO: check also if Q is parallel??
 
                 qSign = sign(Q.normal[2])
                 # TODO: check also if Q is parallel??

- 
+

                 # Test 0: We need to test only those Qs whose furthest vertex
                 # is closer to the observer than the closest vertex of P.
 
                 # Test 0: We need to test only those Qs whose furthest vertex
                 # is closer to the observer than the closest vertex of P.
 


@@ -2659,7 +2705,7 @@ class Renderer:
                         debug("met a marked face\n")
                         continue
 
                         debug("met a marked face\n")
                         continue
 

- 
+

                 # Test 1: X extent overlapping
                 xP = [v.co[0] for v in P.v]
                 xQ = [v.co[0] for v in Q.v]
                 # Test 1: X extent overlapping
                 xP = [v.co[0] for v in P.v]
                 xQ = [v.co[0] for v in Q.v]


@@ -2682,7 +2728,7 @@ class Renderer:
                     debug("\nTest 2\n")
                     debug("NOT Y OVERLAP!\n")
                     continue
                     debug("\nTest 2\n")
                     debug("NOT Y OVERLAP!\n")
                     continue

-                
+

 
                 # Test 3: P vertices are all behind the plane of Q
                 n = 0
 
                 # Test 3: P vertices are all behind the plane of Q
                 n = 0


@@ -2732,7 +2778,7 @@ class Renderer:
 
                     facelist = HSR.facesplit(P, Q, facelist, nmesh)
                     split_done = 1
 
                     facelist = HSR.facesplit(P, Q, facelist, nmesh)
                     split_done = 1

-                    break 
+                    break

 
                 # The question now is: Does Q obscure P?
 
 
                 # The question now is: Does Q obscure P?
 


@@ -2762,7 +2808,7 @@ class Renderer:
                     debug("\nTest 4bis\n")
                     debug("P IN FRONT OF Q!\n")
 
                     debug("\nTest 4bis\n")
                     debug("P IN FRONT OF Q!\n")
 

-                
+

                 # We don't even know if Q does obscure P, so they should
                 # intersect each other, split one of them in two parts.
                 if not qVerticesBehindPlaneP and not pVerticesInFrontPlaneQ:
                 # We don't even know if Q does obscure P, so they should
                 # intersect each other, split one of them in two parts.
                 if not qVerticesBehindPlaneP and not pVerticesInFrontPlaneQ:


@@ -2772,16 +2818,16 @@ class Renderer:
 
                     facelist = HSR.facesplit(P, Q, facelist, nmesh)
                     split_done = 1
 
                     facelist = HSR.facesplit(P, Q, facelist, nmesh)
                     split_done = 1

-                    break 
-                    
+                    break
+

                 facelist.remove(Q)
                 facelist.insert(0, Q)
                 Q.smooth = 1
                 face_marked = 1
                 debug("Q marked!\n")
                 break
                 facelist.remove(Q)
                 facelist.insert(0, Q)
                 Q.smooth = 1
                 face_marked = 1
                 debug("Q marked!\n")
                 break

- 
-            # Write P!                     
+
+            # Write P!

             if split_done == 0 and face_marked == 0:
                 facelist.remove(P)
                 maplist.append(P)
             if split_done == 0 and face_marked == 0:
                 facelist.remove(P)
                 maplist.append(P)


@@ -2800,7 +2846,7 @@ class Renderer:
             #    break
 
             # end of while len(facelist)
             #    break
 
             # end of while len(facelist)

-         
+

 
         nmesh.faces = maplist
         #for f in nmesh.faces:
 
         nmesh.faces = maplist
         #for f in nmesh.faces:


@@ -2868,10 +2914,10 @@ from Blender import BGL, Draw
 from Blender.BGL import *
 
 class GUI:
 from Blender.BGL import *
 
 class GUI:

-    
+

     def _init():
 
     def _init():
 

-        # Output Format menu 
+        # Output Format menu

         output_format = config.output['FORMAT']
         default_value = outputWriters.keys().index(output_format)+1
         GUI.outFormatMenu = Draw.Create(default_value)
         output_format = config.output['FORMAT']
         default_value = outputWriters.keys().index(output_format)+1
         GUI.outFormatMenu = Draw.Create(default_value)


@@ -2888,7 +2934,7 @@ class GUI:
         # Render filled polygons
         GUI.polygonsToggle = Draw.Create(config.polygons['SHOW'])
 
         # Render filled polygons
         GUI.polygonsToggle = Draw.Create(config.polygons['SHOW'])
 

-        # Shading Style menu 
+        # Shading Style menu

         shading_style = config.polygons['SHADING']
         default_value = shadingStyles.keys().index(shading_style)+1
         GUI.shadingStyleMenu = Draw.Create(default_value)
         shading_style = config.polygons['SHADING']
         default_value = shadingStyles.keys().index(shading_style)+1
         GUI.shadingStyleMenu = Draw.Create(default_value)


@@ -2905,7 +2951,7 @@ class GUI:
         GUI.showHiddenEdgesToggle = Draw.Create(config.edges['SHOW_HIDDEN'])
         GUI.evtShowHiddenEdgesToggle = 5
 
         GUI.showHiddenEdgesToggle = Draw.Create(config.edges['SHOW_HIDDEN'])
         GUI.evtShowHiddenEdgesToggle = 5
 

-        # Edge Style menu 
+        # Edge Style menu

         edge_style = config.edges['STYLE']
         default_value = edgeStyles.keys().index(edge_style)+1
         GUI.edgeStyleMenu = Draw.Create(default_value)
         edge_style = config.edges['STYLE']
         default_value = edgeStyles.keys().index(edge_style)+1
         GUI.edgeStyleMenu = Draw.Create(default_value)


@@ -2926,6 +2972,9 @@ class GUI:
         # Exit Button
         GUI.evtExitButton = 9
 
         # Exit Button
         GUI.evtExitButton = 9
 

+        # Save default button
+        GUI.evtSaveDefaultButton = 99
+

     def draw():
 
         # initialize static members
     def draw():
 
         # initialize static members


@@ -2933,9 +2982,12 @@ class GUI:
 
         glClear(GL_COLOR_BUFFER_BIT)
         glColor3f(0.0, 0.0, 0.0)
 
         glClear(GL_COLOR_BUFFER_BIT)
         glColor3f(0.0, 0.0, 0.0)

-        glRasterPos2i(10, 350)
+        glRasterPos2i(10, 380)

         Draw.Text("VRM: Vector Rendering Method script. Version %s." %
                 __version__)
         Draw.Text("VRM: Vector Rendering Method script. Version %s." %
                 __version__)

+        glRasterPos2i(10, 365)
+        Draw.Text("%s (c) 2006, 2007" % __author__)
+

         glRasterPos2i(10, 335)
         Draw.Text("Press Q or ESC to quit.")
 
         glRasterPos2i(10, 335)
         Draw.Text("Press Q or ESC to quit.")
 


@@ -2963,6 +3015,9 @@ class GUI:
                 "Start Rendering")
         Draw.Button("Exit", GUI.evtExitButton, 95, 210-25, 75, 25+18, "Exit!")
 
                 "Start Rendering")
         Draw.Button("Exit", GUI.evtExitButton, 95, 210-25, 75, 25+18, "Exit!")
 

+        Draw.Button("Save settings as default", GUI.evtSaveDefaultButton, 10, 210-50, 160, 18,
+               "Save settings as default")
+

         # Rendering Styles
         glRasterPos2i(200, 310)
         Draw.Text("Rendering Style:")
         # Rendering Styles
         glRasterPos2i(200, 310)
         Draw.Text("Rendering Style:")


@@ -2989,7 +3044,7 @@ class GUI:
                 "Render polygon edges")
 
         if GUI.showEdgesToggle.val == 1:
                 "Render polygon edges")
 
         if GUI.showEdgesToggle.val == 1:

-            
+

             # Edge Style
             edgeStyleMenuStruct = "Edge Style %t"
             for t in edgeStyles.keys():
             # Edge Style
             edgeStyleMenuStruct = "Edge Style %t"
             for t in edgeStyles.keys():


@@ -3013,8 +3068,6 @@ class GUI:
                     200, 160, 160, 18, GUI.showHiddenEdgesToggle.val,
                     "Render hidden edges as dashed lines")
 
                     200, 160, 160, 18, GUI.showHiddenEdgesToggle.val,
                     "Render hidden edges as dashed lines")
 

-        glRasterPos2i(10, 160)
-        Draw.Text("%s (c) 2006" % __author__)

 
     def event(evt, val):
 
 
     def event(evt, val):
 


@@ -3072,6 +3125,9 @@ class GUI:
             global outputfile
             Blender.Window.FileSelector(vectorize, label, outputfile)
 
             global outputfile
             Blender.Window.FileSelector(vectorize, label, outputfile)
 

+        elif evt == GUI.evtSaveDefaultButton:
+            config.saveToRegistry()
+

         else:
             print "Event: %d not handled!" % evt
 
         else:
             print "Event: %d not handled!" % evt
 


@@ -3095,7 +3151,7 @@ class GUI:
 # A wrapper function for the vectorizing process
 def vectorize(filename):
     """The vectorizing process is as follows:
 # A wrapper function for the vectorizing process
 def vectorize(filename):
     """The vectorizing process is as follows:

-     
+

      - Instanciate the writer and the renderer
      - Render!
      """
      - Instanciate the writer and the renderer
      - Render!
      """


@@ -3110,11 +3166,11 @@ def vectorize(filename):
 
     actualWriter = outputWriters[config.output['FORMAT']]
     writer = actualWriter(filename)
 
     actualWriter = outputWriters[config.output['FORMAT']]
     writer = actualWriter(filename)

-    
+

     renderer = Renderer()
     renderer.doRendering(writer, config.output['ANIMATION'])
 
     renderer = Renderer()
     renderer.doRendering(writer, config.output['ANIMATION'])
 

-    if editmode: Window.EditMode(1) 
+    if editmode: Window.EditMode(1)

 
 
 
 
 
 


@@ -3123,6 +3179,13 @@ if __name__ == "__main__":
 
     global progress
 
 
     global progress
 

+    config.loadFromRegistry()
+
+    # initialize writer setting also here to configure writer specific
+    # settings on startup
+    actualWriter = outputWriters[config.output['FORMAT']]
+    writer = actualWriter("")
+

     outputfile = ""
     basename = Blender.sys.basename(Blender.Get('filename'))
     if basename != "":
     outputfile = ""
     basename = Blender.sys.basename(Blender.Get('filename'))
     if basename != "":