Flake8 compliance (except for unused variables)

3 files changed, 1105 insertions, 712 deletions

diff --git a/tools/export/blender25/godot_export_manager.py b/tools/export/blender25/godot_export_manager.py
index 293e0173e9..c91f55b51c 100644
--- a/tools/export/blender25/godot_export_manager.py
+++ b/tools/export/blender25/godot_export_manager.py
@@ -18,24 +18,27 @@
 
 # Script copyright (c) Andreas Esau
 
+import bpy
+from bpy.props import (StringProperty, BoolProperty, EnumProperty,
+                       FloatProperty, IntProperty, CollectionProperty)
+import os
+from bpy.app.handlers import persistent
+from mathutils import Matrix
+
 bl_info = {
     "name": "Godot Export Manager",
     "author": "Andreas Esau",
     "version": (1, 0),
     "blender": (2, 7, 0),
     "location": "Scene Properties > Godot Export Manager",
-    "description": "Godot Export Manager uses the Better Collada Exporter to manage Export Groups and automatically export the objects groups to Collada Files.",
+    "description": "Godot Export Manager uses the Better Collada Exporter"
+    "to manage Export Groups and automatically export the objects groups"
+    "to Collada Files.",
     "warning": "",
     "wiki_url": ("http://www.godotengine.org"),
     "tracker_url": "",
     "category": "Import-Export"}
 
-import bpy
-from bpy.props import StringProperty, BoolProperty, EnumProperty, FloatProperty, FloatVectorProperty, IntProperty, CollectionProperty, PointerProperty
-import os
-from bpy.app.handlers import persistent
-from mathutils import Vector, Matrix
-
 
 class godot_export_manager(bpy.types.Panel):
     bl_label = "Godot Export Manager"
@@ -45,8 +48,8 @@ class godot_export_manager(bpy.types.Panel):
 
     bpy.types.Scene.godot_export_on_save = BoolProperty(default=False)
 
-    ### draw function for all ui elements
     def draw(self, context):
+        """ Draw function for all ui elements """
         layout = self.layout
         split = self.layout.split()
         scene = bpy.data.scenes[0]
@@ -59,9 +62,13 @@ class godot_export_manager(bpy.types.Panel):
 
         row = layout.row()
         col = row.column(align=True)
-        op = col.operator("scene.godot_add_objects_to_group", text="Add selected objects to Group", icon="COPYDOWN")
+        op = col.operator("scene.godot_add_objects_to_group",
+                          text="Add selected objects to Group",
+                          icon="COPYDOWN")
 
-        op = col.operator("scene.godot_delete_objects_from_group", text="Delete selected objects from Group", icon="PASTEDOWN")
+        op = col.operator("scene.godot_delete_objects_from_group",
+                          text="Delete selected objects from Group",
+                          icon="PASTEDOWN")
 
         row = layout.row()
         col = row.column()
@@ -70,11 +77,15 @@ class godot_export_manager(bpy.types.Panel):
         row = layout.row()
         col = row.column()
 
-        col.template_list("UI_List_Godot", "dummy", scene, "godot_export_groups", scene, "godot_export_groups_index", rows=1, maxrows=10, type='DEFAULT')
+        col.template_list("UI_List_Godot", "dummy", scene,
+                          "godot_export_groups", scene,
+                          "godot_export_groups_index", rows=1, maxrows=10,
+                          type='DEFAULT')
 
         col = row.column(align=True)
         col.operator("scene.godot_add_export_group", text="", icon="ZOOMIN")
-        col.operator("scene.godot_delete_export_group", text="", icon="ZOOMOUT")
+        col.operator("scene.godot_delete_export_group", text="",
+                     icon="ZOOMOUT")
         col.operator("scene.godot_export_all_groups", text="", icon="EXPORT")
 
         if len(scene.godot_export_groups) > 0:
@@ -113,9 +124,10 @@ class godot_export_manager(bpy.types.Panel):
             col.prop(group, "use_metadata")
 
 
-### Custom template_list look
 class UI_List_Godot(bpy.types.UIList):
-    def draw_item(self, context, layout, data, item, icon, active_data, active_propname, index):
+    """ Custom template_list look """
+    def draw_item(self, context, layout, data, item, icon, active_data,
+                  active_propname, index):
         ob = data
         slot = item
         col = layout.row(align=True)
@@ -123,11 +135,14 @@ class UI_List_Godot(bpy.types.UIList):
         col.label(text=item.name, icon="GROUP")
         col.prop(item, "active", text="")
 
-        op = col.operator("scene.godot_select_group_objects", text="", emboss=False, icon="RESTRICT_SELECT_OFF")
+        op = col.operator("scene.godot_select_group_objects",
+                          text="", emboss=False, icon="RESTRICT_SELECT_OFF")
         op.idx = index
-        op = col.operator("scene.godot_export_group", text="", emboss=False, icon="EXPORT")
+        op = col.operator("scene.godot_export_group", text="", emboss=False,
+                          icon="EXPORT")
         op.idx = index
 
+
 class add_objects_to_group(bpy.types.Operator):
     bl_idname = "scene.godot_add_objects_to_group"
     bl_label = "Add Objects to Group"
@@ -141,20 +156,24 @@ class add_objects_to_group(bpy.types.Operator):
         objects_str = ""
         if len(scene.godot_export_groups) > 0:
             for i, object in enumerate(context.selected_objects):
-                if object.name not in scene.godot_export_groups[scene.godot_export_groups_index].nodes:
-                    node = scene.godot_export_groups[scene.godot_export_groups_index].nodes.add()
+                if object.name not in scene.godot_export_groups[
+                        scene.godot_export_groups_index].nodes:
+                    node = scene.godot_export_groups[
+                        scene.godot_export_groups_index].nodes.add()
                     node.name = object.name
                     if i == 0:
                         objects_str += object.name
                     else:
                         objects_str += ", "+object.name
 
-            self.report({'INFO'}, objects_str + " added to group." )
+            self.report({'INFO'}, objects_str + " added to group.")
             if self.undo:
                 bpy.ops.ed.undo_push(message="Objects added to group")
         else:
-            self.report({'WARNING'}, "Create a group first." )
-        return{'FINISHED'}
+            self.report({'WARNING'}, "Create a group first.")
+
+        return {'FINISHED'}
+
 
 class del_objects_from_group(bpy.types.Operator):
     bl_idname = "scene.godot_delete_objects_from_group"
@@ -172,21 +191,25 @@ class del_objects_from_group(bpy.types.Operator):
 
             objects_str = ""
             j = 0
-            for i, node in enumerate(scene.godot_export_groups[scene.godot_export_groups_index].nodes):
+            for i, node in enumerate(scene.godot_export_groups[
+                    scene.godot_export_groups_index].nodes):
                 if node.name in selected_objects:
-                    scene.godot_export_groups[scene.godot_export_groups_index].nodes.remove(i)
+                    scene.godot_export_groups[
+                        scene.godot_export_groups_index].nodes.remove(i)
 
                     if j == 0:
                             objects_str += object.name
                     else:
                         objects_str += ", "+object.name
-                    j+=1
+                    j += 1
 
-            self.report({'INFO'}, objects_str + " deleted from group." )
+            self.report({'INFO'}, objects_str + " deleted from group.")
             bpy.ops.ed.undo_push(message="Objects deleted from group")
         else:
-            self.report({'WARNING'}, "There is no group to delete from." )
-        return{'FINISHED'}
+            self.report({'WARNING'}, "There is no group to delete from.")
+
+        return {'FINISHED'}
+
 
 class select_group_objects(bpy.types.Operator):
     bl_idname = "scene.godot_select_group_objects"
@@ -203,7 +226,8 @@ class select_group_objects(bpy.types.Operator):
             if node.name in bpy.data.objects:
                 bpy.data.objects[node.name].select = True
                 context.scene.objects.active = bpy.data.objects[node.name]
-        return{'FINISHED'}
+
+        return {'FINISHED'}
 
 
 class export_groups_autosave(bpy.types.Operator):
@@ -217,9 +241,10 @@ class export_groups_autosave(bpy.types.Operator):
             for i in range(len(scene.godot_export_groups)):
                 if scene.godot_export_groups[i].active:
                     bpy.ops.scene.godot_export_group(idx=i)
-        self.report({'INFO'}, "All Groups exported." )
+        self.report({'INFO'}, "All Groups exported.")
         bpy.ops.ed.undo_push(message="Export all Groups")
-        return{'FINISHED'}
+
+        return {'FINISHED'}
 
 
 class export_all_groups(bpy.types.Operator):
@@ -233,46 +258,49 @@ class export_all_groups(bpy.types.Operator):
         for i in range(0, len(scene.godot_export_groups)):
             bpy.ops.scene.godot_export_group(idx=i, export_all=True)
 
-        self.report({'INFO'}, "All Groups exported." )
-        return{'FINISHED'}
+        self.report({'INFO'}, "All Groups exported.")
+
+        return {'FINISHED'}
 
 
 class export_group(bpy.types.Operator):
     bl_idname = "scene.godot_export_group"
     bl_label = "Export Group"
-    bl_description = "Exports the active group to destination folder as Collada file."
+    bl_description = "Exports the active group to destination folder"\
+                     " as Collada file."
 
     idx = IntProperty(default=0)
     export_all = BoolProperty(default=False)
 
-    def copy_object_recursive(self, ob, parent, single_user = True):
+    def copy_object_recursive(self, ob, parent, single_user=True):
         new_ob = bpy.data.objects[ob.name].copy()
-        if single_user or ob.type=="ARMATURE":
+        if single_user or ob.type == "ARMATURE":
             new_mesh_data = new_ob.data.copy()
             new_ob.data = new_mesh_data
         bpy.context.scene.objects.link(new_ob)
 
         if ob != parent:
-           new_ob.parent = parent
+            new_ob.parent = parent
         else:
             new_ob.parent = None
 
         for child in ob.children:
             self.copy_object_recursive(child, new_ob, single_user)
         new_ob.select = True
+
         return new_ob
 
     def delete_object(self, ob):
-        if ob != None:
+        if ob is not None:
             for child in ob.children:
                 self.delete_object(child)
             bpy.context.scene.objects.unlink(ob)
             bpy.data.objects.remove(ob)
 
     def convert_group_to_node(self, group):
-        if group.dupli_group != None:
+        if group.dupli_group is not None:
             for object in group.dupli_group.objects:
-                if object.parent == None:
+                if object.parent is None:
                     object = self.copy_object_recursive(object, object, True)
                     matrix = Matrix(object.matrix_local)
                     object.matrix_local = Matrix()
@@ -297,15 +325,16 @@ class export_group(bpy.types.Operator):
         bpy.ops.ed.undo_push(message="Clear not existent Group Nodes.")
 
         path = group[self.idx].export_path
-        if (path.find("//")==0 or path.find("\\\\")==0):
-            #if relative, convert to absolute
+        if (path.find("//") == 0 or path.find("\\\\") == 0):
+            # If relative, convert to absolute
             path = bpy.path.abspath(path)
             path = path.replace("\\", "/")
 
-        ### if path exists and group export name is set the group will be exported
-        if os.path.exists(path) and  group[self.idx].export_name != "":
+        # If path exists and group export name is set the group will be
+        # exported
+        if os.path.exists(path) and group[self.idx].export_name != "":
 
-            context.scene.layers = [True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True]
+            context.scene.layers = [True] * 20
 
             if group[self.idx].export_name.endswith(".dae"):
                 path = os.path.join(path, group[self.idx].export_name)
@@ -319,17 +348,19 @@ class export_group(bpy.types.Operator):
                 object.select = False
             context.scene.objects.active = None
 
-            ### make particle duplicates, parent and select them
+            # Make particle duplicates, parent and select them
             nodes_to_be_added = []
             if group[self.idx].use_include_particle_duplicates:
                 for i, object in enumerate(group[self.idx].nodes):
                     if bpy.data.objects[object.name].type != "EMPTY":
-                        context.scene.objects.active = bpy.data.objects[object.name]
+                        context.scene.objects.active = bpy.data.objects[
+                            object.name]
                         bpy.data.objects[object.name].select = True
                         bpy.ops.object.duplicates_make_real()
                         for object in context.selected_objects:
                             nodes_to_be_added.append(object)
-                        bpy.ops.object.parent_set(type="OBJECT", keep_transform=False)
+                        bpy.ops.object.parent_set(type="OBJECT",
+                                                  keep_transform=False)
 
                         for object in context.selected_objects:
                             object.select = False
@@ -338,17 +369,35 @@ class export_group(bpy.types.Operator):
             for object in nodes_to_be_added:
                 object.select = True
 
-            ### select all other nodes from the group
+            # Select all other nodes from the group
             for i, object in enumerate(group[self.idx].nodes):
                 if bpy.data.objects[object.name].type == "EMPTY":
                     self.convert_group_to_node(bpy.data.objects[object.name])
                 else:
                     bpy.data.objects[object.name].select = True
 
-            bpy.ops.object.transform_apply(location=group[self.idx].apply_loc, rotation=group[self.idx].apply_rot, scale=group[self.idx].apply_scale)
-            bpy.ops.export_scene.dae(check_existing=True, filepath=path, filter_glob="*.dae", object_types=group[self.idx].object_types, use_export_selected=group[self.idx].use_export_selected, use_mesh_modifiers=group[self.idx].use_mesh_modifiers, use_tangent_arrays=group[self.idx].use_tangent_arrays, use_triangles=group[self.idx].use_triangles, use_copy_images=group[self.idx].use_copy_images, use_active_layers=group[self.idx].use_active_layers, use_anim=group[self.idx].use_anim, use_anim_action_all=group[self.idx].use_anim_action_all, use_anim_skip_noexp=group[self.idx].use_anim_skip_noexp, use_anim_optimize=group[self.idx].use_anim_optimize, anim_optimize_precision=group[self.idx].anim_optimize_precision, use_metadata=group[self.idx].use_metadata)
-
-            self.report({'INFO'}, '"'+group[self.idx].name+'"' + " Group exported." )
+            bpy.ops.object.transform_apply(location=group[self.idx].apply_loc,
+                                           rotation=group[self.idx].apply_rot,
+                                           scale=group[self.idx].apply_scale)
+            bpy.ops.export_scene.dae(
+                check_existing=True, filepath=path, filter_glob="*.dae",
+                object_types=group[self.idx].object_types,
+                use_export_selected=group[self.idx].use_export_selected,
+                use_mesh_modifiers=group[self.idx].use_mesh_modifiers,
+                use_tangent_arrays=group[self.idx].use_tangent_arrays,
+                use_triangles=group[self.idx].use_triangles,
+                use_copy_images=group[self.idx].use_copy_images,
+                use_active_layers=group[self.idx].use_active_layers,
+                use_anim=group[self.idx].use_anim,
+                use_anim_action_all=group[self.idx].use_anim_action_all,
+                use_anim_skip_noexp=group[self.idx].use_anim_skip_noexp,
+                use_anim_optimize=group[self.idx].use_anim_optimize,
+                anim_optimize_precision=group[
+                    self.idx].anim_optimize_precision,
+                use_metadata=group[self.idx].use_metadata)
+
+            self.report({'INFO'},
+                        '"' + group[self.idx].name + '" Group exported.')
             msg = "Export Group "+group[self.idx].name
 
             bpy.ops.ed.undo_push(message="")
@@ -356,14 +405,16 @@ class export_group(bpy.types.Operator):
             bpy.ops.ed.undo_push(message=msg)
 
         else:
-            self.report({'INFO'}, "Define Export Name and Export Path." )
+            self.report({'INFO'}, "Define Export Name and Export Path.")
+
         return{'FINISHED'}
 
 
 class add_export_group(bpy.types.Operator):
     bl_idname = "scene.godot_add_export_group"
     bl_label = "Adds a new export Group"
-    bl_description = "Creates a new Export Group with the selected Objects assigned to it."
+    bl_description = "Creates a new Export Group with the selected"\
+                     " Objects assigned to it."
 
     def execute(self, context):
         scene = context.scene
@@ -375,6 +426,7 @@ class add_export_group(bpy.types.Operator):
             node.name = object.name
         scene.godot_export_groups_index = len(scene.godot_export_groups)-1
         bpy.ops.ed.undo_push(message="Create New Export Group")
+
         return{'FINISHED'}
 
 
@@ -385,6 +437,7 @@ class del_export_group(bpy.types.Operator):
 
     def invoke(self, context, event):
         wm = context.window_manager
+
         return wm.invoke_confirm(self, event)
 
     def execute(self, context):
@@ -394,7 +447,8 @@ class del_export_group(bpy.types.Operator):
         if scene.godot_export_groups_index > 0:
             scene.godot_export_groups_index -= 1
         bpy.ops.ed.undo_push(message="Delete Export Group")
-        return{'FINISHED'}
+
+        return {'FINISHED'}
 
 
 class godot_node_list(bpy.types.PropertyGroup):
@@ -408,28 +462,74 @@ class godot_export_groups(bpy.types.PropertyGroup):
     export_path = StringProperty(subtype="DIR_PATH")
     active = BoolProperty(default=True, description="Export Group")
 
-    object_types = EnumProperty(name="Object Types", options={'ENUM_FLAG'}, items=(('EMPTY', "Empty", ""), ('CAMERA', "Camera", ""), ('LAMP', "Lamp", ""), ('ARMATURE', "Armature", ""), ('MESH', "Mesh", ""), ('CURVE', "Curve", ""), ), default={'EMPTY', 'CAMERA', 'LAMP', 'ARMATURE', 'MESH', 'CURVE'})
-
-    apply_scale = BoolProperty(name="Apply Scale", description="Apply Scale before export.", default=False)
-    apply_rot = BoolProperty(name="Apply Rotation", description="Apply Rotation before export.", default=False)
-    apply_loc = BoolProperty(name="Apply Location", description="Apply Location before export.", default=False)
-
-    use_export_selected = BoolProperty(name="Selected Objects", description="Export only selected objects (and visible in active layers if that applies).", default=True)
-    use_mesh_modifiers = BoolProperty(name="Apply Modifiers", description="Apply modifiers to mesh objects (on a copy!).", default=True)
-    use_tangent_arrays = BoolProperty(name="Tangent Arrays", description="Export Tangent and Binormal arrays (for normalmapping).", default=False)
-    use_triangles = BoolProperty(name="Triangulate", description="Export Triangles instead of Polygons.", default=False)
-
-    use_copy_images = BoolProperty(name="Copy Images", description="Copy Images (create images/ subfolder)", default=False)
-    use_active_layers = BoolProperty(name="Active Layers", description="Export only objects on the active layers.", default=True)
-    use_anim = BoolProperty(name="Export Animation", description="Export keyframe animation", default=False)
-    use_anim_action_all = BoolProperty(name="All Actions", description=("Export all actions for the first armature found in separate DAE files"), default=False)
-    use_anim_skip_noexp = BoolProperty(name="Skip (-noexp) Actions", description="Skip exporting of actions whose name end in (-noexp). Useful to skip control animations.", default=True)
-    use_anim_optimize = BoolProperty(name="Optimize Keyframes", description="Remove double keyframes", default=True)
-
-    anim_optimize_precision = FloatProperty(name="Precision", description=("Tolerence for comparing double keyframes (higher for greater accuracy)"), min=1, max=16, soft_min=1, soft_max=16, default=6.0)
-
-    use_metadata = BoolProperty(name="Use Metadata", default=True, options={'HIDDEN'})
-    use_include_particle_duplicates = BoolProperty(name="Include Particle Duplicates", default=True)
+    object_types = EnumProperty(name="Object Types", options={'ENUM_FLAG'},
+                                items=(('EMPTY', "Empty", ""),
+                                       ('CAMERA', "Camera", ""),
+                                       ('LAMP', "Lamp", ""),
+                                       ('ARMATURE', "Armature", ""),
+                                       ('MESH', "Mesh", ""),
+                                       ('CURVE', "Curve", ""), ),
+                                default={'EMPTY', 'CAMERA', 'LAMP',
+                                         'ARMATURE', 'MESH', 'CURVE'})
+
+    apply_scale = BoolProperty(name="Apply Scale",
+                               description="Apply Scale before export.",
+                               default=False)
+    apply_rot = BoolProperty(name="Apply Rotation",
+                             description="Apply Rotation before export.",
+                             default=False)
+    apply_loc = BoolProperty(name="Apply Location",
+                             description="Apply Location before export.",
+                             default=False)
+
+    use_export_selected = BoolProperty(name="Selected Objects",
+                                       description="Export only selected"
+                                       "objects (and visible in active layers "
+                                       "if that applies).", default=True)
+    use_mesh_modifiers = BoolProperty(name="Apply Modifiers",
+                                      description="Apply modifiers to mesh"
+                                      " objects (on a copy!).", default=True)
+    use_tangent_arrays = BoolProperty(name="Tangent Arrays",
+                                      description="Export Tangent and Binormal"
+                                      " arrays (for normalmapping).",
+                                      default=False)
+    use_triangles = BoolProperty(name="Triangulate",
+                                 description="Export Triangles instead of"
+                                 " Polygons.", default=False)
+
+    use_copy_images = BoolProperty(name="Copy Images",
+                                   description="Copy Images (create images/ "
+                                   "subfolder)", default=False)
+    use_active_layers = BoolProperty(name="Active Layers",
+                                     description="Export only objects on the"
+                                     " active layers.", default=True)
+    use_anim = BoolProperty(name="Export Animation",
+                            description="Export keyframe animation",
+                            default=False)
+    use_anim_action_all = BoolProperty(name="All Actions",
+                                       description=("Export all actions for "
+                                                    "the first armature found"
+                                                    " in separate DAE files"),
+                                       default=False)
+    use_anim_skip_noexp = BoolProperty(name="Skip (-noexp) Actions",
+                                       description="Skip exporting of"
+                                       " actions whose name end in (-noexp)."
+                                       " Useful to skip control animations.",
+                                       default=True)
+    use_anim_optimize = BoolProperty(name="Optimize Keyframes",
+                                     description="Remove double keyframes",
+                                     default=True)
+
+    anim_optimize_precision = FloatProperty(
+        name="Precision", description=("Tolerence for comparing double "
+                                       "keyframes (higher for greater "
+                                       "accuracy)"), min=1, max=16,
+        soft_min=1, soft_max=16, default=6.0)
+
+    use_metadata = BoolProperty(name="Use Metadata", default=True,
+                                options={'HIDDEN'})
+    use_include_particle_duplicates = BoolProperty(
+        name="Include Particle Duplicates", default=True)
 
 
 def register():
@@ -446,7 +546,8 @@ def register():
     bpy.utils.register_class(select_group_objects)
     bpy.utils.register_class(UI_List_Godot)
 
-    bpy.types.Scene.godot_export_groups = CollectionProperty(type=godot_export_groups)
+    bpy.types.Scene.godot_export_groups = CollectionProperty(
+        type=godot_export_groups)
     bpy.types.Scene.godot_export_groups_index = IntProperty(default=0, min=0)
 
 
diff --git a/tools/export/blender25/io_scene_dae/__init__.py b/tools/export/blender25/io_scene_dae/__init__.py
index 3bde01f2df..0b82e1537b 100644
--- a/tools/export/blender25/io_scene_dae/__init__.py
+++ b/tools/export/blender25/io_scene_dae/__init__.py
@@ -18,35 +18,30 @@
 
 # <pep8-80 compliant>
 
+import bpy
+from bpy.props import StringProperty, BoolProperty, FloatProperty, EnumProperty
+
+from bpy_extras.io_utils import ExportHelper
 bl_info = {
     "name": "Better Collada Exporter",
     "author": "Juan Linietsky",
     "blender": (2, 5, 8),
     "api": 38691,
     "location": "File > Import-Export",
-    "description": ("Export DAE Scenes, This plugin actually works better! otherwise contact me."),
+    "description": ("Export DAE Scenes, This plugin actually works better! "
+                    "otherwise contact me."),
     "warning": "",
     "wiki_url": ("http://www.godotengine.org"),
     "tracker_url": "",
     "support": 'OFFICIAL',
     "category": "Import-Export"}
 
-
 if "bpy" in locals():
     import imp
     if "export_dae" in locals():
         imp.reload(export_dae)
 
 
-import bpy
-from bpy.props import StringProperty, BoolProperty, FloatProperty, EnumProperty
-
-from bpy_extras.io_utils import (ExportHelper,
-                                 path_reference_mode,
-                                 axis_conversion,
-                                 )
-
-
 class ExportDAE(bpy.types.Operator, ExportHelper):
     '''Selection to DAE'''
     bl_idname = "export_scene.dae"
@@ -74,7 +69,8 @@ class ExportDAE(bpy.types.Operator, ExportHelper):
 
     use_export_selected = BoolProperty(
         name="Selected Objects",
-        description="Export only selected objects (and visible in active layers if that applies).",
+        description="Export only selected objects (and visible in active "
+                    "layers if that applies).",
         default=False,
         )
     use_mesh_modifiers = BoolProperty(
@@ -84,7 +80,8 @@ class ExportDAE(bpy.types.Operator, ExportHelper):
         )
     use_tangent_arrays = BoolProperty(
         name="Tangent Arrays",
-        description="Export Tangent and Binormal arrays (for normalmapping).",
+        description="Export Tangent and Binormal arrays "
+                    "(for normalmapping).",
         default=False,
         )
     use_triangles = BoolProperty(
@@ -92,6 +89,7 @@ class ExportDAE(bpy.types.Operator, ExportHelper):
         description="Export Triangles instead of Polygons.",
         default=False,
         )
+
     use_copy_images = BoolProperty(
         name="Copy Images",
         description="Copy Images (create images/ subfolder)",
@@ -109,12 +107,14 @@ class ExportDAE(bpy.types.Operator, ExportHelper):
         )
     use_anim_action_all = BoolProperty(
         name="All Actions",
-        description=("Export all actions for the first armature found in separate DAE files"),
+        description=("Export all actions for the first armature found "
+                     "in separate DAE files"),
         default=False,
         )
     use_anim_skip_noexp = BoolProperty(
         name="Skip (-noexp) Actions",
-        description="Skip exporting of actions whose name end in (-noexp). Useful to skip control animations.",
+        description="Skip exporting of actions whose name end in (-noexp)."
+                    " Useful to skip control animations.",
         default=True,
         )
     use_anim_optimize = BoolProperty(
@@ -140,7 +140,8 @@ class ExportDAE(bpy.types.Operator, ExportHelper):
 
     @property
     def check_extension(self):
-        return True  # return self.batch_mode == 'OFF'
+        # return self.batch_mode == 'OFF'
+        return True
 
     def check(self, context):
         return True
diff --git a/tools/export/blender25/io_scene_dae/export_dae.py b/tools/export/blender25/io_scene_dae/export_dae.py
index 0b90a60eb8..9f8458c0da 100644
--- a/tools/export/blender25/io_scene_dae/export_dae.py
+++ b/tools/export/blender25/io_scene_dae/export_dae.py
@@ -46,101 +46,105 @@ import bpy
 import bmesh
 from mathutils import Vector, Matrix
 
-# according to collada spec, order matters
-S_ASSET=0
-S_IMGS=1
-S_FX=2
-S_MATS=3
-S_GEOM=4
-S_MORPH=5
-S_SKIN=6
-S_CONT=7
-S_CAMS=8
-S_LAMPS=9
-S_ANIM_CLIPS=10
-S_NODES=11
-S_ANIM=12
-
-CMP_EPSILON=0.0001
+# According to collada spec, order matters
+S_ASSET = 0
+S_IMGS = 1
+S_FX = 2
+S_MATS = 3
+S_GEOM = 4
+S_MORPH = 5
+S_SKIN = 6
+S_CONT = 7
+S_CAMS = 8
+S_LAMPS = 9
+S_ANIM_CLIPS = 10
+S_NODES = 11
+S_ANIM = 12
+
+CMP_EPSILON = 0.0001
+
 
 def snap_tup(tup):
-    ret=()
+    ret = ()
     for x in tup:
-        ret+=( x-math.fmod(x, 0.0001), )
+        ret += (x - math.fmod(x, 0.0001), )
 
     return tup
 
 
 def strmtx(mtx):
-    s=" "
+    s = " "
     for x in range(4):
         for y in range(4):
-            s+=str(mtx[x][y])
-            s+=" "
-    s+=" "
+            s += str(mtx[x][y])
+            s += " "
+    s += " "
     return s
 
+
 def numarr(a, mult=1.0):
-    s=" "
+    s = " "
     for x in a:
-        s+=" "+str(x*mult)
-    s+=" "
+        s += " " + str(x * mult)
+    s += " "
     return s
 
 
 def numarr_alpha(a, mult=1.0):
-    s=" "
+    s = " "
     for x in a:
-        s+=" "+str(x*mult)
+        s += " " + str(x * mult)
     if len(a) == 3:
-        s+=" 1.0"
-    s+=" "
+        s += " 1.0"
+    s += " "
     return s
 
 
 def strarr(arr):
-    s=" "
+    s = " "
     for x in arr:
-        s+=" "+str(x)
-    s+=" "
+        s += " " + str(x)
+    s += " "
     return s
 
 
 class DaeExporter:
 
     def validate_id(self, d):
-        if (d.find("id-")==0):
-            return "z"+d
+        if (d.find("id-") == 0):
+            return "z" + d
         return d
 
     def new_id(self, t):
-        self.last_id+=1
-        return "id-"+t+"-"+str(self.last_id)
+        self.last_id += 1
+        return "id-" + t + "-" + str(self.last_id)
 
     class Vertex:
 
-        def close_to(v):
-            if ( (self.vertex-v.vertex).length() > CMP_EPSILON ):
+        def close_to(self, v):
+            if self.vertex - v.vertex.length() > CMP_EPSILON:
                 return False
-            if ( (self.normal-v.normal).length() > CMP_EPSILON ):
+            if self.normal - v.normal.length() > CMP_EPSILON:
                 return False
-            if ( (self.uv-v.uv).length() > CMP_EPSILON ):
+            if self.uv - v.uv.length() > CMP_EPSILON:
                 return False
-            if ( (self.uv2-v.uv2).length() > CMP_EPSILON ):
+            if self.uv2 - v.uv2.length() > CMP_EPSILON:
                 return False
 
             return True
 
         def get_tup(self):
-            tup = (self.vertex.x, self.vertex.y, self.vertex.z, self.normal.x, self.normal.y, self.normal.z)
+            tup = (self.vertex.x, self.vertex.y, self.vertex.z, self.normal.x,
+                   self.normal.y, self.normal.z)
             for t in self.uv:
                 tup = tup + (t.x, t.y)
-            if (self.color!=None):
+            if self.color is not None:
                 tup = tup + (self.color.x, self.color.y, self.color.z)
-            if (self.tangent!=None):
+            if self.tangent is not None:
                 tup = tup + (self.tangent.x, self.tangent.y, self.tangent.z)
-            if (self.bitangent!=None):
-                tup = tup + (self.bitangent.x, self.bitangent.y, self.bitangent.z)
+            if self.bitangent is not None:
+                tup = tup + (self.bitangent.x, self.bitangent.y,
+                             self.bitangent.z)
             for t in self.bones:
                 tup = tup + (float(t), )
             for t in self.weights:
@@ -149,23 +153,23 @@ class DaeExporter:
             return tup
 
         def __init__(self):
-            self.vertex = Vector( (0.0, 0.0, 0.0) )
-            self.normal = Vector( (0.0, 0.0, 0.0) )
+            self.vertex = Vector((0.0, 0.0, 0.0))
+            self.normal = Vector((0.0, 0.0, 0.0))
             self.tangent = None
             self.bitangent = None
             self.color = None
             self.uv = []
-            self.uv2 = Vector( (0.0, 0.0) )
-            self.bones=[]
-            self.weights=[]
+            self.uv2 = Vector((0.0, 0.0))
+            self.bones = []
+            self.weights = []
 
     def writel(self, section, indent, text):
         if (not (section in self.sections)):
-            self.sections[section]=[]
-        line=""
+            self.sections[section] = []
+        line = ""
         for x in range(indent):
-            line+="\t"
-        line+=text
+            line += "\t"
+        line += text
         self.sections[section].append(line)
 
     def export_image(self, image):
@@ -173,62 +177,72 @@ class DaeExporter:
             return self.image_cache[image]
 
         imgpath = image.filepath
-        if (imgpath.find("//")==0 or imgpath.find("\\\\")==0):
-            #if relative, convert to absolute
+        if (imgpath.find("//") == 0 or imgpath.find("\\\\") == 0):
+            # If relative, convert to absolute
             imgpath = bpy.path.abspath(imgpath)
 
-        #path is absolute, now do something!
+        # Path is absolute, now do something!
+
         if (self.config["use_copy_images"]):
-            #copy image
-            basedir = os.path.dirname(self.path)+"/images"
+            # copy image
+            basedir = os.path.dirname(self.path) + "/images"
             if (not os.path.isdir(basedir)):
                 os.makedirs(basedir)
 
             if os.path.isfile(imgpath):
-                dstfile=basedir+"/"+os.path.basename(imgpath)
+                dstfile = basedir + "/" + os.path.basename(imgpath)
 
-                if (not os.path.isfile(dstfile)):
+                if not os.path.isfile(dstfile):
                     shutil.copy(imgpath, dstfile)
-                imgpath="images/"+os.path.basename(imgpath)
+                imgpath = "images/" + os.path.basename(imgpath)
             else:
-                ### if file is not found save it as png file in the destination folder
+                # If file is not found save it as png file in the destination
+                # folder
                 img_tmp_path = image.filepath
-                if img_tmp_path.endswith((".bmp", ".rgb", ".png", ".jpeg", ".jpg", ".jp2", ".tga", ".cin", ".dpx", ".exr", ".hdr", ".tif")):
-                    image.filepath = basedir+"/"+os.path.basename(img_tmp_path)
+                if img_tmp_path.endswith((".bmp", ".rgb", ".png", ".jpeg",
+                                          ".jpg", ".jp2", ".tga", ".cin",
+                                          ".dpx", ".exr", ".hdr", ".tif")):
+                    image.filepath = basedir + "/" + \
+                        os.path.basename(img_tmp_path)
                 else:
-                    image.filepath = basedir+"/"+image.name+".png"
-
-                dstfile=basedir+"/"+os.path.basename(image.filepath)
+                    image.filepath = basedir + "/" + image.name + ".png"
 
-                if (not os.path.isfile(dstfile)):
+                dstfile = basedir + "/" + os.path.basename(image.filepath)
 
+                if not os.path.isfile(dstfile):
                     image.save()
-                imgpath="images/"+os.path.basename(image.filepath)
+                imgpath = "images/" + os.path.basename(image.filepath)
                 image.filepath = img_tmp_path
 
         else:
-            #export relative, always, no one wants absolute paths.
+            # Export relative, always, no one wants absolute paths.
             try:
-                imgpath = os.path.relpath(imgpath, os.path.dirname(self.path)).replace("\\", "/") # export unix compatible always
+                # Export unix compatible always
+                imgpath = os.path.relpath(
+                    imgpath, os.path.dirname(self.path)).replace("\\", "/")
 
             except:
-                pass #fails sometimes, not sure why
+                # Fails sometimes, not sure why
+                pass
 
         imgid = self.new_id("image")
 
-        print("FOR: "+imgpath)
+        print("FOR: " + imgpath)
 
 #        if (not os.path.isfile(imgpath)):
 #            print("NOT FILE?")
-#            if imgpath.endswith((".bmp", ".rgb", ".png", ".jpeg", ".jpg", ".jp2", ".tga", ".cin", ".dpx", ".exr", ".hdr", ".tif")):
+#            if imgpath.endswith((".bmp", ".rgb", ".png", ".jpeg", ".jpg",
+#                                 ".jp2", ".tga", ".cin", ".dpx", ".exr",
+#                                 ".hdr", ".tif")):
 #                imgpath="images/"+os.path.basename(imgpath)
 #            else:
 #                imgpath="images/"+image.name+".png"
 
-        self.writel(S_IMGS, 1, '<image id="'+imgid+'" name="'+image.name+'">')
-        self.writel(S_IMGS, 2, '<init_from>'+imgpath+'</init_from>')
+        self.writel(S_IMGS, 1, '<image id="' + imgid +
+                    '" name="' + image.name + '">')
+        self.writel(S_IMGS, 2, '<init_from>' + imgpath + '</init_from>')
         self.writel(S_IMGS, 1, '</image>')
-        self.image_cache[image]=imgid
+        self.image_cache[image] = imgid
         return imgid
 
     def export_material(self, material, double_sided_hint=True):
@@ -236,117 +250,136 @@ class DaeExporter:
             return self.material_cache[material]
 
         fxid = self.new_id("fx")
-        self.writel(S_FX, 1, '<effect id="'+fxid+'" name="'+material.name+'-fx">')
+        self.writel(S_FX, 1, '<effect id="' + fxid + '" name="' +
+                    material.name + '-fx">')
         self.writel(S_FX, 2, '<profile_COMMON>')
 
-        #Find and fetch the textures and create sources
-        sampler_table={}
-        diffuse_tex=None
-        specular_tex=None
-        emission_tex=None
-        normal_tex=None
+        # Find and fetch the textures and create sources
+        sampler_table = {}
+        diffuse_tex = None
+        specular_tex = None
+        emission_tex = None
+        normal_tex = None
         for i in range(len(material.texture_slots)):
-            ts=material.texture_slots[i]
-            if (not ts):
+            ts = material.texture_slots[i]
+            if not ts:
                 continue
-            if (not ts.use):
+            if not ts.use:
                 continue
-            if (not ts.texture):
+            if not ts.texture:
                 continue
-            if (ts.texture.type!="IMAGE"):
+            if ts.texture.type != "IMAGE":
                 continue
 
-            if (ts.texture.image==None):
+            if ts.texture.image is None:
                 continue
 
-            #image
+            # Image
             imgid = self.export_image(ts.texture.image)
 
-            #surface
+            # Surface
             surface_sid = self.new_id("fx_surf")
-            self.writel(S_FX, 3, '<newparam sid="'+surface_sid+'">')
+            self.writel(S_FX, 3, '<newparam sid="' + surface_sid + '">')
             self.writel(S_FX, 4, '<surface type="2D">')
-            self.writel(S_FX, 5, '<init_from>'+imgid+'</init_from>') #this is sooo weird
+            # This is sooo weird
+            self.writel(S_FX, 5, '<init_from>' + imgid + '</init_from>')
             self.writel(S_FX, 5, '<format>A8R8G8B8</format>')
             self.writel(S_FX, 4, '</surface>')
             self.writel(S_FX, 3, '</newparam>')
-            #sampler, collada sure likes it difficult
+            # Sampler, collada sure likes it difficult
             sampler_sid = self.new_id("fx_sampler")
-            self.writel(S_FX, 3, '<newparam sid="'+sampler_sid+'">')
+            self.writel(S_FX, 3, '<newparam sid="' + sampler_sid + '">')
             self.writel(S_FX, 4, '<sampler2D>')
-            self.writel(S_FX, 5, '<source>'+surface_sid+'</source>')
+            self.writel(S_FX, 5, '<source>' + surface_sid + '</source>')
             self.writel(S_FX, 4, '</sampler2D>')
             self.writel(S_FX, 3, '</newparam>')
-            sampler_table[i]=sampler_sid
+            sampler_table[i] = sampler_sid
 
-            if (ts.use_map_color_diffuse and diffuse_tex==None):
-                diffuse_tex=sampler_sid
-            if (ts.use_map_color_spec and specular_tex==None):
-                specular_tex=sampler_sid
-            if (ts.use_map_emit and emission_tex==None):
-                emission_tex=sampler_sid
-            if (ts.use_map_normal and normal_tex==None):
-                normal_tex=sampler_sid
+            if ts.use_map_color_diffuse and diffuse_tex is None:
+                diffuse_tex = sampler_sid
+            if ts.use_map_color_spec and specular_tex is None:
+                specular_tex = sampler_sid
+            if ts.use_map_emit and emission_tex is None:
+                emission_tex = sampler_sid
+            if ts.use_map_normal and normal_tex is None:
+                normal_tex = sampler_sid
 
         self.writel(S_FX, 3, '<technique sid="common">')
-        shtype="blinn"
-        self.writel(S_FX, 4, '<'+shtype+'>')
-        #ambient? from where?
+        shtype = "blinn"
+        self.writel(S_FX, 4, '<' + shtype + '>')
+        # Ambient? from where?
 
         self.writel(S_FX, 5, '<emission>')
-        if (emission_tex!=None):
-            self.writel(S_FX, 6, '<texture texture="'+emission_tex+'" texcoord="CHANNEL1"/>')
+        if emission_tex is not None:
+            self.writel(S_FX, 6, '<texture texture="' + emission_tex +
+                        '" texcoord="CHANNEL1"/>')
         else:
-            self.writel(S_FX, 6, '<color>'+numarr_alpha(material.diffuse_color, material.emit)+' </color>') # not totally right but good enough
+            self.writel(S_FX, 6, '<color>' +
+                        numarr_alpha(material.diffuse_color, material.emit) +
+                        ' </color>')  # not totally right but good enough
         self.writel(S_FX, 5, '</emission>')
 
         self.writel(S_FX, 5, '<ambient>')
-        self.writel(S_FX, 6, '<color>'+numarr_alpha(self.scene.world.ambient_color, material.ambient)+' </color>')
+        self.writel(S_FX, 6, '<color>' +
+                    numarr_alpha(self.scene.world.ambient_color,
+                                 material.ambient) + ' </color>')
         self.writel(S_FX, 5, '</ambient>')
 
         self.writel(S_FX, 5, '<diffuse>')
-        if (diffuse_tex!=None):
-            self.writel(S_FX, 6, '<texture texture="'+diffuse_tex+'" texcoord="CHANNEL1"/>')
+        if diffuse_tex is not None:
+            self.writel(S_FX, 6, '<texture texture="' + diffuse_tex +
+                        '" texcoord="CHANNEL1"/>')
         else:
-            self.writel(S_FX, 6, '<color>'+numarr_alpha(material.diffuse_color, material.diffuse_intensity)+'</color>')
+            self.writel(S_FX, 6,
+                        '<color>' + numarr_alpha(material.diffuse_color,
+                                                 material.diffuse_intensity) +
+                        '</color>')
         self.writel(S_FX, 5, '</diffuse>')
 
         self.writel(S_FX, 5, '<specular>')
-        if (specular_tex!=None):
-            self.writel(S_FX, 6, '<texture texture="'+specular_tex+'" texcoord="CHANNEL1"/>')
+        if specular_tex is not None:
+            self.writel(S_FX, 6, '<texture texture="' + specular_tex +
+                        '" texcoord="CHANNEL1"/>')
         else:
-            self.writel(S_FX, 6, '<color>'+numarr_alpha(material.specular_color, material.specular_intensity)+'</color>')
+            self.writel(S_FX, 6, '<color>' + numarr_alpha(
+                material.specular_color, material.specular_intensity) +
+                '</color>')
         self.writel(S_FX, 5, '</specular>')
 
         self.writel(S_FX, 5, '<shininess>')
-        self.writel(S_FX, 6, '<float>'+str(material.specular_hardness)+'</float>')
+        self.writel(S_FX, 6, '<float>' + str(material.specular_hardness) +
+                    '</float>')
         self.writel(S_FX, 5, '</shininess>')
 
         self.writel(S_FX, 5, '<reflective>')
-        self.writel(S_FX, 6, '<color>'+numarr_alpha(material.mirror_color)+'</color>')
+        self.writel(S_FX, 6, '<color>' + numarr_alpha(material.mirror_color) +
+                    '</color>')
         self.writel(S_FX, 5, '</reflective>')
 
         if (material.use_transparency):
             self.writel(S_FX, 5, '<transparency>')
-            self.writel(S_FX, 6, '<float>'+str(material.alpha)+'</float>')
+            self.writel(S_FX, 6, '<float>' + str(material.alpha) + '</float>')
             self.writel(S_FX, 5, '</transparency>')
 
         self.writel(S_FX, 5, '<index_of_refraction>')
-        self.writel(S_FX, 6, '<float>'+str(material.specular_ior)+'</float>')
+        self.writel(S_FX, 6, '<float>' + str(material.specular_ior) +
+                    '</float>')
         self.writel(S_FX, 5, '</index_of_refraction>')
 
-        self.writel(S_FX, 4, '</'+shtype+'>')
+        self.writel(S_FX, 4, '</' + shtype + '>')
 
         self.writel(S_FX, 4, '<extra>')
         self.writel(S_FX, 5, '<technique profile="FCOLLADA">')
         if (normal_tex):
             self.writel(S_FX, 6, '<bump bumptype="NORMALMAP">')
-            self.writel(S_FX, 7, '<texture texture="'+normal_tex+'" texcoord="CHANNEL1"/>')
+            self.writel(S_FX, 7, '<texture texture="' + normal_tex +
+                        '" texcoord="CHANNEL1"/>')
             self.writel(S_FX, 6, '</bump>')
 
         self.writel(S_FX, 5, '</technique>')
         self.writel(S_FX, 5, '<technique profile="GOOGLEEARTH">')
-        self.writel(S_FX, 6, '<double_sided>'+["0", "1"][double_sided_hint]+"</double_sided>")
+        self.writel(S_FX, 6, '<double_sided>' + ["0", "1"][double_sided_hint] +
+                    "</double_sided>")
         self.writel(S_FX, 5, '</technique>')
 
         if (material.use_shadeless):
@@ -364,34 +397,37 @@ class DaeExporter:
 
         # Material
         matid = self.new_id("material")
-        self.writel(S_MATS, 1, '<material id="'+matid+'" name="'+material.name+'">')
-        self.writel(S_MATS, 2, '<instance_effect url="#'+fxid+'"/>')
+        self.writel(S_MATS, 1, '<material id="' + matid + '" name="' +
+                    material.name + '">')
+        self.writel(S_MATS, 2, '<instance_effect url="#' + fxid + '"/>')
         self.writel(S_MATS, 1, '</material>')
 
-        self.material_cache[material]=matid
+        self.material_cache[material] = matid
         return matid
 
-    def export_mesh(self, node, armature=None, skeyindex=-1, skel_source=None, custom_name=None):
+    def export_mesh(self, node, armature=None, skeyindex=-1, skel_source=None,
+                    custom_name=None):
         mesh = node.data
 
         if (node.data in self.mesh_cache):
             return self.mesh_cache[mesh]
 
-        if (skeyindex==-1 and mesh.shape_keys!=None and len(mesh.shape_keys.key_blocks)):
-            values=[]
-            morph_targets=[]
-            md=None
+        if (skeyindex == -1 and mesh.shape_keys is not None and len(
+                mesh.shape_keys.key_blocks)):
+            values = []
+            morph_targets = []
+            md = None
             for k in range(0, len(mesh.shape_keys.key_blocks)):
                 shape = node.data.shape_keys.key_blocks[k]
-                values+=[shape.value] #save value
-                shape.value=0
+                values += [shape.value]  # save value
+                shape.value = 0
 
             mid = self.new_id("morph")
 
             for k in range(0, len(mesh.shape_keys.key_blocks)):
 
                 shape = node.data.shape_keys.key_blocks[k]
-                node.show_only_shape_key=True
+                node.show_only_shape_key = True
                 node.active_shape_key_index = k
                 shape.value = 1.0
                 mesh.update()
@@ -405,10 +441,10 @@ class DaeExporter:
                 node.data = v
 #                self.export_node(node, il, shape.name)
                 node.data.update()
-                if (armature and k==0):
-                    md=self.export_mesh(node, armature, k, mid, shape.name)
+                if (armature and k == 0):
+                    md = self.export_mesh(node, armature, k, mid, shape.name)
                 else:
-                    md=self.export_mesh(node, None, k, None, shape.name)
+                    md = self.export_mesh(node, None, k, None, shape.name)
 
                 node.data = p
                 node.data.update()
@@ -418,84 +454,103 @@ class DaeExporter:
                 """
                 shape.value = oldval
                 """
-            node.show_only_shape_key=False
+            node.show_only_shape_key = False
             node.active_shape_key_index = 0
 
-            self.writel(S_MORPH, 1, '<controller id="'+mid+'" name="">')
-            #if ("skin_id" in morph_targets[0]):
-            #    self.writel(S_MORPH, 2, '<morph source="#'+morph_targets[0]["skin_id"]+'" method="NORMALIZED">')
-            #else:
-            self.writel(S_MORPH, 2, '<morph source="#'+morph_targets[0]["id"]+'" method="NORMALIZED">')
-
-            self.writel(S_MORPH, 3, '<source id="'+mid+'-morph-targets">')
-            self.writel(S_MORPH, 4, '<IDREF_array id="'+mid+'-morph-targets-array" count="'+str(len(morph_targets)-1)+'">')
-            marr=""
-            warr=""
+            self.writel(S_MORPH, 1, '<controller id="' + mid + '" name="">')
+            # if ("skin_id" in morph_targets[0]):
+            #    self.writel(S_MORPH, 2, '<morph source="#'+morph_targets[0][
+            #    "skin_id"]+'" method="NORMALIZED">')
+            # else:
+            self.writel(S_MORPH, 2, '<morph source="#' +
+                        morph_targets[0]["id"] + '" method="NORMALIZED">')
+
+            self.writel(S_MORPH, 3, '<source id="' + mid + '-morph-targets">')
+            self.writel(S_MORPH, 4, '<IDREF_array id="' + mid +
+                        '-morph-targets-array" count="' +
+                        str(len(morph_targets) - 1) + '">')
+            marr = ""
+            warr = ""
             for i in range(len(morph_targets)):
-                if (i==0):
+                if (i == 0):
                     continue
-                elif (i>1):
-                    marr+=" "
+                elif (i > 1):
+                    marr += " "
 
                 if ("skin_id" in morph_targets[i]):
-                    marr+=morph_targets[i]["skin_id"]
+                    marr += morph_targets[i]["skin_id"]
                 else:
-                    marr+=morph_targets[i]["id"]
+                    marr += morph_targets[i]["id"]
 
-                warr+=" 0"
+                warr += " 0"
 
             self.writel(S_MORPH, 5, marr)
             self.writel(S_MORPH, 4, '</IDREF_array>')
             self.writel(S_MORPH, 4, '<technique_common>')
-            self.writel(S_MORPH, 5, '<accessor source="#'+mid+'-morph-targets-array" count="'+str(len(morph_targets)-1)+'" stride="1">')
-            self.writel(S_MORPH, 6, '<param name="MORPH_TARGET" type="IDREF"/>')
+            self.writel(S_MORPH, 5, '<accessor source="#' + mid +
+                        '-morph-targets-array" count="' +
+                        str(len(morph_targets) - 1) + '" stride="1">')
+            self.writel(
+                S_MORPH, 6, '<param name="MORPH_TARGET" type="IDREF"/>')
             self.writel(S_MORPH, 5, '</accessor>')
             self.writel(S_MORPH, 4, '</technique_common>')
             self.writel(S_MORPH, 3, '</source>')
 
-            self.writel(S_MORPH, 3, '<source id="'+mid+'-morph-weights">')
-            self.writel(S_MORPH, 4, '<float_array id="'+mid+'-morph-weights-array" count="'+str(len(morph_targets)-1)+'" >')
+            self.writel(S_MORPH, 3, '<source id="' + mid + '-morph-weights">')
+            self.writel(S_MORPH, 4, '<float_array id="' + mid +
+                        '-morph-weights-array" count="' +
+                        str(len(morph_targets) - 1) + '" >')
             self.writel(S_MORPH, 5, warr)
             self.writel(S_MORPH, 4, '</float_array>')
             self.writel(S_MORPH, 4, '<technique_common>')
-            self.writel(S_MORPH, 5, '<accessor source="#'+mid+'-morph-weights-array" count="'+str(len(morph_targets)-1)+'" stride="1">')
-            self.writel(S_MORPH, 6, '<param name="MORPH_WEIGHT" type="float"/>')
+            self.writel(S_MORPH, 5, '<accessor source="#' + mid +
+                        '-morph-weights-array" count="' +
+                        str(len(morph_targets) - 1) + '" stride="1">')
+            self.writel(
+                S_MORPH, 6, '<param name="MORPH_WEIGHT" type="float"/>')
             self.writel(S_MORPH, 5, '</accessor>')
             self.writel(S_MORPH, 4, '</technique_common>')
             self.writel(S_MORPH, 3, '</source>')
 
             self.writel(S_MORPH, 3, '<targets>')
-            self.writel(S_MORPH, 4, '<input semantic="MORPH_TARGET" source="#'+mid+'-morph-targets"/>')
-            self.writel(S_MORPH, 4, '<input semantic="MORPH_WEIGHT" source="#'+mid+'-morph-weights"/>')
+            self.writel(
+                S_MORPH, 4, '<input semantic="MORPH_TARGET" source="#' + mid +
+                '-morph-targets"/>')
+            self.writel(
+                S_MORPH, 4, '<input semantic="MORPH_WEIGHT" source="#' + mid +
+                '-morph-weights"/>')
             self.writel(S_MORPH, 3, '</targets>')
             self.writel(S_MORPH, 2, '</morph>')
             self.writel(S_MORPH, 1, '</controller>')
-            if (armature!=None):
+            if armature is not None:
 
-                self.armature_for_morph[node]=armature
+                self.armature_for_morph[node] = armature
 
-            meshdata={}
+            meshdata = {}
             if (armature):
                 meshdata = morph_targets[0]
-                meshdata["morph_id"]=mid
+                meshdata["morph_id"] = mid
             else:
-                meshdata["id"]=morph_targets[0]["id"]
-                meshdata["morph_id"]=mid
-                meshdata["material_assign"]=morph_targets[0]["material_assign"]
+                meshdata["id"] = morph_targets[0]["id"]
+                meshdata["morph_id"] = mid
+                meshdata["material_assign"] = morph_targets[
+                    0]["material_assign"]
 
-            self.mesh_cache[node.data]=meshdata
+            self.mesh_cache[node.data] = meshdata
             return meshdata
 
-        apply_modifiers = len(node.modifiers) and self.config["use_mesh_modifiers"]
+        apply_modifiers = len(node.modifiers) and self.config[
+            "use_mesh_modifiers"]
 
         name_to_use = mesh.name
-        #print("name to use: "+mesh.name)
-        if (custom_name!=None and custom_name!=""):
-            name_to_use=custom_name
+        # print("name to use: "+mesh.name)
+        if (custom_name is not None and custom_name != ""):
+            name_to_use = custom_name
 
-        mesh=node.to_mesh(self.scene, apply_modifiers, "RENDER") #is this allright?
+        mesh = node.to_mesh(self.scene, apply_modifiers,
+                            "RENDER")  # is this allright?
 
-        triangulate=self.config["use_triangles"]
+        triangulate = self.config["use_triangles"]
         if (triangulate):
             bm = bmesh.new()
             bm.from_mesh(mesh)
@@ -504,60 +559,66 @@ class DaeExporter:
             bm.free()
 
         mesh.update(calc_tessface=True)
-        vertices=[]
-        vertex_map={}
-        surface_indices={}
-        materials={}
-
-        materials={}
-
-        si=None
-        if (armature!=None):
-            si=self.skeleton_info[armature]
-
-        has_uv=False
-        has_uv2=False
-        has_weights=armature!=None
-        has_tangents=self.config["use_tangent_arrays"] # could detect..
-        has_colors=len(mesh.vertex_colors)
-        mat_assign=[]
-
-        uv_layer_count=len(mesh.uv_textures)
-        if (has_tangents and len(mesh.uv_textures)):
+        vertices = []
+        vertex_map = {}
+        surface_indices = {}
+        materials = {}
+
+        materials = {}
+
+        si = None
+        if armature is not None:
+            si = self.skeleton_info[armature]
+
+        has_uv = False
+        has_uv2 = False
+        has_weights = armature is not None
+        has_tangents = self.config["use_tangent_arrays"]  # could detect..
+        has_colors = len(mesh.vertex_colors)
+        mat_assign = []
+
+        uv_layer_count = len(mesh.uv_textures)
+        if has_tangents and len(mesh.uv_textures):
             try:
                 mesh.calc_tangents()
             except:
-                self.operator.report({'WARNING'}, 'CalcTangets failed for mesh "'+mesh.name+'", no tangets will be exported.')
-                #uv_layer_count=0
+                self.operator.report(
+                    {'WARNING'}, 'CalcTangets failed for mesh "' + mesh.name +
+                    '", no tangets will be exported.')
+                # uv_layer_count=0
                 mesh.calc_normals_split()
-                has_tangents=False
+                has_tangents = False
 
         else:
             mesh.calc_normals_split()
-            has_tangents=False
+            has_tangents = False
 
         for fi in range(len(mesh.polygons)):
-            f=mesh.polygons[fi]
+            f = mesh.polygons[fi]
 
-            if (not (f.material_index in surface_indices)):
-                surface_indices[f.material_index]=[]
-                #print("Type: "+str(type(f.material_index)))
-                #print("IDX: "+str(f.material_index)+"/"+str(len(mesh.materials)))
+            if not (f.material_index in surface_indices):
+                surface_indices[f.material_index] = []
+                # print("Type: " + str(type(f.material_index)))
+                # print("IDX: " + str(f.material_index) + "/" + str(
+                #     len(mesh.materials)))
 
                 try:
-                    #Bizarre blender behavior i don't understand, so catching exception
+                    # Bizarre blender behavior i don't understand,
+                    # so catching exception
                     mat = mesh.materials[f.material_index]
                 except:
-                    mat= None
+                    mat = None
 
-                if (mat!=None):
-                    materials[f.material_index]=self.export_material( mat, mesh.show_double_sided )
+                if (mat is not None):
+                    materials[f.material_index] = self.export_material(
+                        mat, mesh.show_double_sided)
                 else:
-                    materials[f.material_index]=None #weird, has no material?
+                    # weird, has no material?
+                    materials[f.material_index] = None
 
             indices = surface_indices[f.material_index]
-            vi=[]
-            #vertices always 3
+            vi = []
+            # Vertices always 3
             """
             if (len(f.vertices)==3):
                 vi.append(0)
@@ -579,78 +640,92 @@ class DaeExporter:
                 mv = mesh.vertices[ml.vertex_index]
 
                 v = self.Vertex()
-                v.vertex = Vector( mv.co )
+                v.vertex = Vector(mv.co)
 
                 for xt in mesh.uv_layers:
-                    v.uv.append( Vector( xt.data[loop_index].uv ) )
+                    v.uv.append(Vector(xt.data[loop_index].uv))
 
                 if (has_colors):
-                    v.color = Vector( mesh.vertex_colors[0].data[loop_index].color )
+                    v.color = Vector(
+                        mesh.vertex_colors[0].data[loop_index].color)
 
-                v.normal = Vector( ml.normal )
+                v.normal = Vector(ml.normal)
 
                 if (has_tangents):
-                    v.tangent = Vector( ml.tangent )
-                    v.bitangent = Vector( ml.bitangent )
+                    v.tangent = Vector(ml.tangent)
+                    v.bitangent = Vector(ml.bitangent)
 
-                   # if (armature):
-                   #         v.vertex = node.matrix_world * v.vertex
+                    # if (armature):
+                    #         v.vertex = node.matrix_world * v.vertex
 
-                #v.color=Vertex(mv. ???
+                # v.color=Vertex(mv. ???
 
-                if (armature!=None):
-                    wsum=0.0
-                    zero_bones=[]
+                if armature is not None:
+                    wsum = 0.0
+                    zero_bones = []
 
                     for vg in mv.groups:
                         if vg.group >= len(node.vertex_groups):
-                            continue;
+                            continue
                         name = node.vertex_groups[vg.group].name
 
                         if (name in si["bone_index"]):
-                            #could still put the weight as 0.0001 maybe
-                            if (vg.weight>0.001): #blender has a lot of zero weight stuff
+                            # could still put the weight as 0.0001 maybe
+                            # blender has a lot of zero weight stuff
+                            if (vg.weight > 0.001):
                                 v.bones.append(si["bone_index"][name])
                                 v.weights.append(vg.weight)
-                                wsum+=vg.weight
-                    if (wsum==0.0):
+                                wsum += vg.weight
+                    if (wsum == 0.0):
                         if not self.wrongvtx_report:
-                            self.operator.report({'WARNING'}, 'Mesh for object "'+node.name+'" has unassigned weights. This may look wrong in exported model.')
-                            self.wrongvtx_report=True
-
-                        #blender can have bones assigned that weight zero so they remain local
-                        #this is the best it can be done?
+                            self.operator.report(
+                                {'WARNING'}, 'Mesh for object "' + node.name +
+                                '" has unassigned weights. '
+                                'This may look wrong in exported model.')
+                            self.wrongvtx_report = True
+
+                        # blender can have bones assigned that weight zero
+                        # so they remain local
+                        # this is the best it can be done?
                         v.bones.append(0)
                         v.weights.append(1)
 
                 tup = v.get_tup()
                 idx = 0
-                if (skeyindex==-1 and tup in vertex_map): #do not optmize if using shapekeys
+                # do not optmize if using shapekeys
+                if (skeyindex == -1 and tup in vertex_map):
                     idx = vertex_map[tup]
                 else:
                     idx = len(vertices)
                     vertices.append(v)
-                    vertex_map[tup]=idx
+                    vertex_map[tup] = idx
 
                 vi.append(idx)
 
-            if (len(vi)>2):
-                #only triangles and above
+            if (len(vi) > 2):
+                # only triangles and above
                 indices.append(vi)
 
         meshid = self.new_id("mesh")
-        self.writel(S_GEOM, 1, '<geometry id="'+meshid+'" name="'+name_to_use+'">')
+        self.writel(S_GEOM, 1, '<geometry id="' + meshid +
+                    '" name="' + name_to_use + '">')
 
         self.writel(S_GEOM, 2, '<mesh>')
 
         # Vertex Array
-        self.writel(S_GEOM, 3, '<source id="'+meshid+'-positions">')
-        float_values=""
+        self.writel(S_GEOM, 3, '<source id="' + meshid + '-positions">')
+        float_values = ""
         for v in vertices:
-             float_values+=" "+str(v.vertex.x)+" "+str(v.vertex.y)+" "+str(v.vertex.z)
-        self.writel(S_GEOM, 4, '<float_array id="'+meshid+'-positions-array" count="'+str(len(vertices)*3)+'">'+float_values+'</float_array>')
+            float_values += " " + str(v.vertex.x) + " " + \
+                str(v.vertex.y) + " " + str(v.vertex.z)
+        self.writel(S_GEOM, 4, '<float_array id="' + meshid +
+                    '-positions-array" count="' +
+                    str(len(vertices) * 3) + '">' + float_values +
+                    '</float_array>')
         self.writel(S_GEOM, 4, '<technique_common>')
-        self.writel(S_GEOM, 4, '<accessor source="#'+meshid+'-positions-array" count="'+str(len(vertices))+'" stride="3">')
+        self.writel(S_GEOM, 4, '<accessor source="#' + meshid +
+                    '-positions-array" count="' + str(len(vertices)) +
+                    '" stride="3">')
         self.writel(S_GEOM, 5, '<param name="X" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Y" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Z" type="float"/>')
@@ -660,13 +735,19 @@ class DaeExporter:
 
         # Normal Array
 
-        self.writel(S_GEOM, 3, '<source id="'+meshid+'-normals">')
-        float_values=""
+        self.writel(S_GEOM, 3, '<source id="' + meshid + '-normals">')
+        float_values = ""
         for v in vertices:
-             float_values+=" "+str(v.normal.x)+" "+str(v.normal.y)+" "+str(v.normal.z)
-        self.writel(S_GEOM, 4, '<float_array id="'+meshid+'-normals-array" count="'+str(len(vertices)*3)+'">'+float_values+'</float_array>')
+            float_values += " " + str(v.normal.x) + " " + \
+                str(v.normal.y) + " " + str(v.normal.z)
+        self.writel(S_GEOM, 4, '<float_array id="' + meshid +
+                    '-normals-array" count="' +
+                    str(len(vertices) * 3) + '">' + float_values +
+                    '</float_array>')
         self.writel(S_GEOM, 4, '<technique_common>')
-        self.writel(S_GEOM, 4, '<accessor source="#'+meshid+'-normals-array" count="'+str(len(vertices))+'" stride="3">')
+        self.writel(S_GEOM, 4, '<accessor source="#' + meshid +
+                    '-normals-array" count="' + str(len(vertices)) +
+                    '" stride="3">')
         self.writel(S_GEOM, 5, '<param name="X" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Y" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Z" type="float"/>')
@@ -675,13 +756,20 @@ class DaeExporter:
         self.writel(S_GEOM, 3, '</source>')
 
         if (has_tangents):
-            self.writel(S_GEOM, 3, '<source id="'+meshid+'-tangents">')
-            float_values=""
+            self.writel(S_GEOM, 3, '<source id="' + meshid + '-tangents">')
+            float_values = ""
             for v in vertices:
-                float_values+=" "+str(v.tangent.x)+" "+str(v.tangent.y)+" "+str(v.tangent.z)
-            self.writel(S_GEOM, 4, '<float_array id="'+meshid+'-tangents-array" count="'+str(len(vertices)*3)+'">'+float_values+'</float_array>')
+                float_values += " " + \
+                    str(v.tangent.x) + " " + \
+                    str(v.tangent.y) + " " + str(v.tangent.z)
+            self.writel(S_GEOM, 4, '<float_array id="' + meshid +
+                        '-tangents-array" count="' +
+                        str(len(vertices) * 3) + '">' + float_values +
+                        '</float_array>')
             self.writel(S_GEOM, 4, '<technique_common>')
-            self.writel(S_GEOM, 4, '<accessor source="#'+meshid+'-tangents-array" count="'+str(len(vertices))+'" stride="3">')
+            self.writel(S_GEOM, 4, '<accessor source="#' + meshid +
+                        '-tangents-array" count="' + str(len(vertices)) +
+                        '" stride="3">')
             self.writel(S_GEOM, 5, '<param name="X" type="float"/>')
             self.writel(S_GEOM, 5, '<param name="Y" type="float"/>')
             self.writel(S_GEOM, 5, '<param name="Z" type="float"/>')
@@ -689,13 +777,20 @@ class DaeExporter:
             self.writel(S_GEOM, 4, '</technique_common>')
             self.writel(S_GEOM, 3, '</source>')
 
-            self.writel(S_GEOM, 3, '<source id="'+meshid+'-bitangents">')
-            float_values=""
+            self.writel(S_GEOM, 3, '<source id="' + meshid + '-bitangents">')
+            float_values = ""
             for v in vertices:
-                float_values+=" "+str(v.bitangent.x)+" "+str(v.bitangent.y)+" "+str(v.bitangent.z)
-            self.writel(S_GEOM, 4, '<float_array id="'+meshid+'-bitangents-array" count="'+str(len(vertices)*3)+'">'+float_values+'</float_array>')
+                float_values += " " + \
+                    str(v.bitangent.x) + " " + \
+                    str(v.bitangent.y) + " " + str(v.bitangent.z)
+            self.writel(S_GEOM, 4, '<float_array id="' + meshid +
+                        '-bitangents-array" count="' +
+                        str(len(vertices) * 3) + '">' + float_values +
+                        '</float_array>')
             self.writel(S_GEOM, 4, '<technique_common>')
-            self.writel(S_GEOM, 4, '<accessor source="#'+meshid+'-bitangents-array" count="'+str(len(vertices))+'" stride="3">')
+            self.writel(S_GEOM, 4, '<accessor source="#' + meshid +
+                        '-bitangents-array" count="' + str(len(vertices)) +
+                        '" stride="3">')
             self.writel(S_GEOM, 5, '<param name="X" type="float"/>')
             self.writel(S_GEOM, 5, '<param name="Y" type="float"/>')
             self.writel(S_GEOM, 5, '<param name="Z" type="float"/>')
@@ -704,20 +799,30 @@ class DaeExporter:
             self.writel(S_GEOM, 3, '</source>')
 
         # UV Arrays
+
         for uvi in range(uv_layer_count):
 
-            self.writel(S_GEOM, 3, '<source id="'+meshid+'-texcoord-'+str(uvi)+'">')
-            float_values=""
+            self.writel(S_GEOM, 3, '<source id="' + meshid +
+                        '-texcoord-' + str(uvi) + '">')
+            float_values = ""
             for v in vertices:
                 try:
-                    float_values+=" "+str(v.uv[uvi].x)+" "+str(v.uv[uvi].y)
+                    float_values += " " + \
+                        str(v.uv[uvi].x) + " " + str(v.uv[uvi].y)
                 except:
-                    # I don't understand this weird multi-uv-layer API, but with this it seems to works
-                    float_values+=" 0 0 "
-
-            self.writel(S_GEOM, 4, '<float_array id="'+meshid+'-texcoord-'+str(uvi)+'-array" count="'+str(len(vertices)*2)+'">'+float_values+'</float_array>')
+                    # I don't understand this weird multi-uv-layer API, but
+                    # with this it seems to works
+                    float_values += " 0 0 "
+
+            self.writel(S_GEOM, 4, '<float_array id="' + meshid +
+                        '-texcoord-' + str(uvi) +
+                        '-array" count="' + str(len(vertices) * 2) + '">' +
+                        float_values + '</float_array>')
             self.writel(S_GEOM, 4, '<technique_common>')
-            self.writel(S_GEOM, 4, '<accessor source="#'+meshid+'-texcoord-'+str(uvi)+'-array" count="'+str(len(vertices))+'" stride="2">')
+            self.writel(S_GEOM, 4, '<accessor source="#' + meshid +
+                        '-texcoord-' +
+                        str(uvi) + '-array" count="' + str(len(vertices)) +
+                        '" stride="2">')
             self.writel(S_GEOM, 5, '<param name="S" type="float"/>')
             self.writel(S_GEOM, 5, '<param name="T" type="float"/>')
             self.writel(S_GEOM, 4, '</accessor>')
@@ -727,13 +832,20 @@ class DaeExporter:
         # Color Arrays
 
         if (has_colors):
-            self.writel(S_GEOM, 3, '<source id="'+meshid+'-colors">')
-            float_values=""
+            self.writel(S_GEOM, 3, '<source id="' + meshid + '-colors">')
+            float_values = ""
             for v in vertices:
-                float_values+=" "+str(v.color.x)+" "+str(v.color.y)+" "+str(v.color.z)
-            self.writel(S_GEOM, 4, '<float_array id="'+meshid+'-colors-array" count="'+str(len(vertices)*3)+'">'+float_values+'</float_array>')
+                float_values += " " + \
+                    str(v.color.x) + " " + \
+                    str(v.color.y) + " " + str(v.color.z)
+            self.writel(S_GEOM, 4, '<float_array id="' + meshid +
+                        '-colors-array" count="' +
+                        str(len(vertices) * 3) + '">' + float_values +
+                        '</float_array>')
             self.writel(S_GEOM, 4, '<technique_common>')
-            self.writel(S_GEOM, 4, '<accessor source="#'+meshid+'-colors-array" count="'+str(len(vertices))+'" stride="3">')
+            self.writel(S_GEOM, 4, '<accessor source="#' + meshid +
+                        '-colors-array" count="' + str(len(vertices)) +
+                        '" stride="3">')
             self.writel(S_GEOM, 5, '<param name="X" type="float"/>')
             self.writel(S_GEOM, 5, '<param name="Y" type="float"/>')
             self.writel(S_GEOM, 5, '<param name="Z" type="float"/>')
@@ -742,203 +854,257 @@ class DaeExporter:
             self.writel(S_GEOM, 3, '</source>')
 
         # Triangle Lists
-        self.writel(S_GEOM, 3, '<vertices id="'+meshid+'-vertices">')
-        self.writel(S_GEOM, 4, '<input semantic="POSITION" source="#'+meshid+'-positions"/>')
+        self.writel(S_GEOM, 3, '<vertices id="' + meshid + '-vertices">')
+        self.writel(
+            S_GEOM, 4, '<input semantic="POSITION" source="#' + meshid +
+            '-positions"/>')
         self.writel(S_GEOM, 3, '</vertices>')
 
-        prim_type=""
+        prim_type = ""
         if (triangulate):
-            prim_type="triangles"
+            prim_type = "triangles"
         else:
-            prim_type="polygons"
+            prim_type = "polygons"
 
         for m in surface_indices:
             indices = surface_indices[m]
             mat = materials[m]
 
-            if (mat!=None):
+            if (mat is not None):
                 matref = self.new_id("trimat")
-                self.writel(S_GEOM, 3, '<'+prim_type+' count="'+str(int(len(indices)))+'" material="'+matref+'">') # todo material
-                mat_assign.append( (mat, matref) )
+                self.writel(S_GEOM, 3, '<' + prim_type + ' count="' + str(
+                    int(len(indices))) + '" material="' + matref +
+                            '">')  # todo material
+                mat_assign.append((mat, matref))
             else:
-                self.writel(S_GEOM, 3, '<'+prim_type+' count="'+str(int(len(indices)))+'">') # todo material
+                self.writel(S_GEOM, 3, '<' + prim_type + ' count="' +
+                            str(int(len(indices))) + '">')  # todo material
 
-            self.writel(S_GEOM, 4, '<input semantic="VERTEX" source="#'+meshid+'-vertices" offset="0"/>')
-            self.writel(S_GEOM, 4, '<input semantic="NORMAL" source="#'+meshid+'-normals" offset="0"/>')
+            self.writel(S_GEOM, 4, '<input semantic="VERTEX" source="#' +
+                        meshid + '-vertices" offset="0"/>')
+            self.writel(S_GEOM, 4, '<input semantic="NORMAL" source="#' +
+                        meshid + '-normals" offset="0"/>')
 
             for uvi in range(uv_layer_count):
-                self.writel(S_GEOM, 4, '<input semantic="TEXCOORD" source="#'+meshid+'-texcoord-'+str(uvi)+'" offset="0" set="'+str(uvi)+'"/>')
+                self.writel(S_GEOM, 4, '<input semantic="TEXCOORD" source="#' +
+                            meshid +
+                            '-texcoord-' + str(uvi) + '" offset="0" set="' +
+                            str(uvi) + '"/>')
 
             if (has_colors):
-                self.writel(S_GEOM, 4, '<input semantic="COLOR" source="#'+meshid+'-colors" offset="0"/>')
+                self.writel(S_GEOM, 4, '<input semantic="COLOR" source="#' +
+                            meshid + '-colors" offset="0"/>')
             if (has_tangents):
-                self.writel(S_GEOM, 4, '<input semantic="TEXTANGENT" source="#'+meshid+'-tangents" offset="0"/>')
-                self.writel(S_GEOM, 4, '<input semantic="TEXBINORMAL" source="#'+meshid+'-bitangents" offset="0"/>')
+                self.writel(S_GEOM, 4,
+                            '<input semantic="TEXTANGENT" source="#' +
+                            meshid + '-tangents" offset="0"/>')
+                self.writel(S_GEOM, 4,
+                            '<input semantic="TEXBINORMAL" source="#' +
+                            meshid + '-bitangents" offset="0"/>')
 
             if (triangulate):
-                int_values="<p>"
+                int_values = "<p>"
                 for p in indices:
                     for i in p:
-                        int_values+=" "+str(i)
-                int_values+=" </p>"
+                        int_values += " " + str(i)
+                int_values += " </p>"
                 self.writel(S_GEOM, 4, int_values)
             else:
                 for p in indices:
-                    int_values="<p>"
+                    int_values = "<p>"
                     for i in p:
-                        int_values+=" "+str(i)
-                    int_values+=" </p>"
+                        int_values += " " + str(i)
+                    int_values += " </p>"
                     self.writel(S_GEOM, 4, int_values)
 
-            self.writel(S_GEOM, 3, '</'+prim_type+'>')
+            self.writel(S_GEOM, 3, '</' + prim_type + '>')
 
         self.writel(S_GEOM, 2, '</mesh>')
         self.writel(S_GEOM, 1, '</geometry>')
 
-        meshdata={}
-        meshdata["id"]=meshid
-        meshdata["material_assign"]=mat_assign
-        if (skeyindex==-1):
-            self.mesh_cache[node.data]=meshdata
+        meshdata = {}
+        meshdata["id"] = meshid
+        meshdata["material_assign"] = mat_assign
+        if (skeyindex == -1):
+            self.mesh_cache[node.data] = meshdata
 
         # Export armature data (if armature exists)
-        if (armature!=None and (skel_source!=None or skeyindex==-1)):
+
+        if (armature is not None and (
+                skel_source is not None or skeyindex == -1)):
 
             contid = self.new_id("controller")
 
-            self.writel(S_SKIN, 1, '<controller id="'+contid+'">')
-            if (skel_source!=None):
-                self.writel(S_SKIN, 2, '<skin source="#'+skel_source+'">')
+            self.writel(S_SKIN, 1, '<controller id="' + contid + '">')
+            if (skel_source is not None):
+                self.writel(S_SKIN, 2, '<skin source="#' + skel_source + '">')
             else:
-                self.writel(S_SKIN, 2, '<skin source="#'+meshid+'">')
+                self.writel(S_SKIN, 2, '<skin source="#' + meshid + '">')
 
-            self.writel(S_SKIN, 3, '<bind_shape_matrix>'+strmtx(node.matrix_world)+'</bind_shape_matrix>')
-            #Joint Names
-            self.writel(S_SKIN, 3, '<source id="'+contid+'-joints">')
-            name_values=""
+            self.writel(S_SKIN, 3, '<bind_shape_matrix>' +
+                        strmtx(node.matrix_world) + '</bind_shape_matrix>')
+            # Joint Names
+            self.writel(S_SKIN, 3, '<source id="' + contid + '-joints">')
+            name_values = ""
             for v in si["bone_names"]:
-                name_values+=" "+v
+                name_values += " " + v
 
-            self.writel(S_SKIN, 4, '<Name_array id="'+contid+'-joints-array" count="'+str(len(si["bone_names"]))+'">'+name_values+'</Name_array>')
+            self.writel(S_SKIN, 4, '<Name_array id="' + contid +
+                        '-joints-array" count="' +
+                        str(len(si["bone_names"])) + '">' + name_values +
+                        '</Name_array>')
             self.writel(S_SKIN, 4, '<technique_common>')
-            self.writel(S_SKIN, 4, '<accessor source="#'+contid+'-joints-array" count="'+str(len(si["bone_names"]))+'" stride="1">')
+            self.writel(S_SKIN, 4, '<accessor source="#' + contid +
+                        '-joints-array" count="' + str(len(si["bone_names"])) +
+                        '" stride="1">')
             self.writel(S_SKIN, 5, '<param name="JOINT" type="Name"/>')
             self.writel(S_SKIN, 4, '</accessor>')
             self.writel(S_SKIN, 4, '</technique_common>')
             self.writel(S_SKIN, 3, '</source>')
-            #Pose Matrices!
-            self.writel(S_SKIN, 3, '<source id="'+contid+'-bind_poses">')
-            pose_values=""
+            # Pose Matrices!
+            self.writel(S_SKIN, 3, '<source id="' + contid + '-bind_poses">')
+            pose_values = ""
             for v in si["bone_bind_poses"]:
-                pose_values+=" "+strmtx(v)
+                pose_values += " " + strmtx(v)
 
-            self.writel(S_SKIN, 4, '<float_array id="'+contid+'-bind_poses-array" count="'+str(len(si["bone_bind_poses"])*16)+'">'+pose_values+'</float_array>')
+            self.writel(S_SKIN, 4, '<float_array id="' + contid +
+                        '-bind_poses-array" count="' +
+                        str(len(si["bone_bind_poses"]) * 16) + '">' +
+                        pose_values + '</float_array>')
             self.writel(S_SKIN, 4, '<technique_common>')
-            self.writel(S_SKIN, 4, '<accessor source="#'+contid+'-bind_poses-array" count="'+str(len(si["bone_bind_poses"]))+'" stride="16">')
+            self.writel(S_SKIN, 4, '<accessor source="#' + contid +
+                        '-bind_poses-array" count="' +
+                        str(len(si["bone_bind_poses"])) + '" stride="16">')
             self.writel(S_SKIN, 5, '<param name="TRANSFORM" type="float4x4"/>')
             self.writel(S_SKIN, 4, '</accessor>')
             self.writel(S_SKIN, 4, '</technique_common>')
             self.writel(S_SKIN, 3, '</source>')
-            #Skin Weights!
-            self.writel(S_SKIN, 3, '<source id="'+contid+'-skin_weights">')
-            skin_weights=""
-            skin_weights_total=0
+            # Skin Weights!
+            self.writel(S_SKIN, 3, '<source id="' + contid + '-skin_weights">')
+            skin_weights = ""
+            skin_weights_total = 0
             for v in vertices:
-                skin_weights_total+=len(v.weights)
+                skin_weights_total += len(v.weights)
                 for w in v.weights:
-                    skin_weights+=" "+str(w)
+                    skin_weights += " " + str(w)
 
-            self.writel(S_SKIN, 4, '<float_array id="'+contid+'-skin_weights-array" count="'+str(skin_weights_total)+'">'+skin_weights+'</float_array>')
+            self.writel(S_SKIN, 4, '<float_array id="' + contid +
+                        '-skin_weights-array" count="' +
+                        str(skin_weights_total) + '">' + skin_weights +
+                        '</float_array>')
             self.writel(S_SKIN, 4, '<technique_common>')
-            self.writel(S_SKIN, 4, '<accessor source="#'+contid+'-skin_weights-array" count="'+str(skin_weights_total)+'" stride="1">')
+            self.writel(S_SKIN, 4, '<accessor source="#' + contid +
+                        '-skin_weights-array" count="' +
+                        str(skin_weights_total) + '" stride="1">')
             self.writel(S_SKIN, 5, '<param name="WEIGHT" type="float"/>')
             self.writel(S_SKIN, 4, '</accessor>')
             self.writel(S_SKIN, 4, '</technique_common>')
             self.writel(S_SKIN, 3, '</source>')
 
             self.writel(S_SKIN, 3, '<joints>')
-            self.writel(S_SKIN, 4, '<input semantic="JOINT" source="#'+contid+'-joints"/>')
-            self.writel(S_SKIN, 4, '<input semantic="INV_BIND_MATRIX" source="#'+contid+'-bind_poses"/>')
+            self.writel(
+                S_SKIN, 4, '<input semantic="JOINT" source="#' + contid +
+                '-joints"/>')
+            self.writel(
+                S_SKIN, 4, '<input semantic="INV_BIND_MATRIX" source="#' +
+                contid + '-bind_poses"/>')
             self.writel(S_SKIN, 3, '</joints>')
-            self.writel(S_SKIN, 3, '<vertex_weights count="'+str(len(vertices))+'">')
-            self.writel(S_SKIN, 4, '<input semantic="JOINT" source="#'+contid+'-joints" offset="0"/>')
-            self.writel(S_SKIN, 4, '<input semantic="WEIGHT" source="#'+contid+'-skin_weights" offset="1"/>')
-            vcounts=""
-            vs=""
-            vcount=0
+            self.writel(S_SKIN, 3, '<vertex_weights count="' +
+                        str(len(vertices)) + '">')
+            self.writel(S_SKIN, 4, '<input semantic="JOINT" source="#' +
+                        contid + '-joints" offset="0"/>')
+            self.writel(S_SKIN, 4, '<input semantic="WEIGHT" source="#' +
+                        contid + '-skin_weights" offset="1"/>')
+            vcounts = ""
+            vs = ""
+            vcount = 0
             for v in vertices:
-                vcounts+=" "+str(len(v.weights))
+                vcounts += " " + str(len(v.weights))
                 for b in v.bones:
-                    vs+=" "+str(b)
-                    vs+=" "+str(vcount)
-                    vcount+=1
-            self.writel(S_SKIN, 4, '<vcount>'+vcounts+'</vcount>')
-            self.writel(S_SKIN, 4, '<v>'+vs+'</v>')
+                    vs += " " + str(b)
+                    vs += " " + str(vcount)
+                    vcount += 1
+            self.writel(S_SKIN, 4, '<vcount>' + vcounts + '</vcount>')
+            self.writel(S_SKIN, 4, '<v>' + vs + '</v>')
             self.writel(S_SKIN, 3, '</vertex_weights>')
 
             self.writel(S_SKIN, 2, '</skin>')
             self.writel(S_SKIN, 1, '</controller>')
-            meshdata["skin_id"]=contid
+            meshdata["skin_id"] = contid
 
         return meshdata
 
     def export_mesh_node(self, node, il):
-        if (node.data==None):
+        if (node.data is None):
             return
 
-        armature=None
-        armcount=0
+        armature = None
+        armcount = 0
         for n in node.modifiers:
-            if (n.type=="ARMATURE"):
-                armcount+=1
-
-        if (node.parent!=None):
-            if (node.parent.type=="ARMATURE"):
-                armature=node.parent
-                if (armcount>1):
-                    self.operator.report({'WARNING'}, 'Object "'+node.name+'" refers to more than one armature! This is unsupported.')
-                if (armcount==0):
-                    self.operator.report({'WARNING'}, 'Object "'+node.name+'" is child of an armature, but has no armature modifier.')
-
-        if (armcount>0 and not armature):
-            self.operator.report({'WARNING'}, 'Object "'+node.name+'" has armature modifier, but is not a child of an armature. This is unsupported.')
-
-        if (node.data.shape_keys!=None):
-                sk = node.data.shape_keys
-                if (sk.animation_data):
-                    #print("HAS ANIM")
-                    #print("DRIVERS: "+str(len(sk.animation_data.drivers)))
-                    for d in sk.animation_data.drivers:
-                        if (d.driver):
-                            for v in d.driver.variables:
-                                for t in v.targets:
-                                    if (t.id!=None and t.id.name in self.scene.objects):
-                                        #print("LINKING "+str(node)+" WITH "+str(t.id.name))
-                                        self.armature_for_morph[node]=self.scene.objects[t.id.name]
+            if (n.type == "ARMATURE"):
+                armcount += 1
+
+        if (node.parent is not None):
+            if (node.parent.type == "ARMATURE"):
+                armature = node.parent
+                if (armcount > 1):
+                    self.operator.report({'WARNING'}, 'Object "' + node.name +
+                                         '" refers to more than one armature! '
+                                         'This is unsupported.')
+                if (armcount == 0):
+                    self.operator.report({'WARNING'}, 'Object "' + node.name +
+                                         '" is child of an armature, but has '
+                                         'no armature modifier.')
+
+        if (armcount > 0 and not armature):
+            self.operator.report({'WARNING'}, 'Object "' + node.name +
+                                 '" has armature modifier, but is not a child '
+                                 'of an armature. This is unsupported.')
+
+        if (node.data.shape_keys is not None):
+            sk = node.data.shape_keys
+            if (sk.animation_data):
+                    # print("HAS ANIM")
+                    # print("DRIVERS: "+str(len(sk.animation_data.drivers)))
+                for d in sk.animation_data.drivers:
+                    if (d.driver):
+                        for v in d.driver.variables:
+                            for t in v.targets:
+                                if (t.id is not None and
+                                        t.id.name in self.scene.objects):
+                                    # print("LINKING " + str(node) + " WITH " +
+                                    #     str(t.id.name))
+                                    self.armature_for_morph[
+                                        node] = self.scene.objects[t.id.name]
 
         meshdata = self.export_mesh(node, armature)
-        close_controller=False
+        close_controller = False
 
         if ("skin_id" in meshdata):
-            close_controller=True
-            self.writel(S_NODES, il, '<instance_controller url="#'+meshdata["skin_id"]+'">')
+            close_controller = True
+            self.writel(S_NODES, il, '<instance_controller url="#' +
+                        meshdata["skin_id"] + '">')
             for sn in self.skeleton_info[armature]["skeleton_nodes"]:
-                self.writel(S_NODES, il+1, '<skeleton>#'+sn+'</skeleton>')
+                self.writel(S_NODES, il + 1, '<skeleton>#' +
+                            sn + '</skeleton>')
         elif ("morph_id" in meshdata):
-            self.writel(S_NODES, il, '<instance_controller url="#'+meshdata["morph_id"]+'">')
-            close_controller=True
-        elif (armature==None):
-            self.writel(S_NODES, il, '<instance_geometry url="#'+meshdata["id"]+'">')
+            self.writel(S_NODES, il, '<instance_controller url="#' +
+                        meshdata["morph_id"] + '">')
+            close_controller = True
+        elif (armature is None):
+            self.writel(S_NODES, il, '<instance_geometry url="#' +
+                        meshdata["id"] + '">')
 
-        if (len(meshdata["material_assign"])>0):
+        if (len(meshdata["material_assign"]) > 0):
 
-            self.writel(S_NODES, il+1, '<bind_material>')
-            self.writel(S_NODES, il+2, '<technique_common>')
+            self.writel(S_NODES, il + 1, '<bind_material>')
+            self.writel(S_NODES, il + 2, '<technique_common>')
             for m in meshdata["material_assign"]:
-                self.writel(S_NODES, il+3, '<instance_material symbol="'+m[1]+'" target="#'+m[0]+'"/>')
+                self.writel(S_NODES, il + 3, '<instance_material symbol="' +
+                            m[1] + '" target="#' + m[0] + '"/>')
 
-            self.writel(S_NODES, il+2, '</technique_common>')
-            self.writel(S_NODES, il+1, '</bind_material>')
+            self.writel(S_NODES, il + 2, '</technique_common>')
+            self.writel(S_NODES, il + 1, '</bind_material>')
 
         if (close_controller):
             self.writel(S_NODES, il, '</instance_controller>')
@@ -948,143 +1114,179 @@ class DaeExporter:
     def export_armature_bone(self, bone, il, si):
         boneid = self.new_id("bone")
         boneidx = si["bone_count"]
-        si["bone_count"]+=1
-        bonesid = si["id"]+"-"+str(boneidx)
+        si["bone_count"] += 1
+        bonesid = si["id"] + "-" + str(boneidx)
         if (bone.name in self.used_bones):
             if (self.config["use_anim_action_all"]):
-                self.operator.report({'WARNING'}, 'Bone name "'+bone.name+'" used in more than one skeleton. Actions might export wrong.')
+                self.operator.report({'WARNING'}, 'Bone name "' + bone.name +
+                                     '" used in more than one skeleton. '
+                                     'Actions might export wrong.')
         else:
             self.used_bones.append(bone.name)
 
-        si["bone_index"][bone.name]=boneidx
-        si["bone_ids"][bone]=boneid
+        si["bone_index"][bone.name] = boneidx
+        si["bone_ids"][bone] = boneid
         si["bone_names"].append(bonesid)
-        self.writel(S_NODES, il, '<node id="'+boneid+'" sid="'+bonesid+'" name="'+bone.name+'" type="JOINT">')
-        il+=1
+        self.writel(S_NODES, il, '<node id="' + boneid + '" sid="' +
+                    bonesid + '" name="' + bone.name + '" type="JOINT">')
+        il += 1
         xform = bone.matrix_local
         si["bone_bind_poses"].append((si["armature_xform"] * xform).inverted())
 
-        if (bone.parent!=None):
+        if (bone.parent is not None):
             xform = bone.parent.matrix_local.inverted() * xform
         else:
             si["skeleton_nodes"].append(boneid)
 
-        self.writel(S_NODES, il, '<matrix sid="transform">'+strmtx(xform)+'</matrix>')
+        self.writel(S_NODES, il, '<matrix sid="transform">' +
+                    strmtx(xform) + '</matrix>')
         for c in bone.children:
             self.export_armature_bone(c, il, si)
-        il-=1
+        il -= 1
         self.writel(S_NODES, il, '</node>')
 
     def export_armature_node(self, node, il):
-        if (node.data==None):
+        if (node.data is None):
             return
 
         self.skeletons.append(node)
 
         armature = node.data
-        self.skeleton_info[node]={ "bone_count":0, "id":self.new_id("skelbones"), "name":node.name, "bone_index":{}, "bone_ids":{}, "bone_names":[], "bone_bind_poses":[], "skeleton_nodes":[], "armature_xform":node.matrix_world }
+        self.skeleton_info[node] = {
+            "bone_count": 0,
+            "id": self.new_id("skelbones"),
+            "name": node.name, "bone_index": {},
+            "bone_ids": {}, "bone_names": [], "bone_bind_poses": [],
+            "skeleton_nodes": [],
+            "armature_xform": node.matrix_world}
 
         for b in armature.bones:
-            if (b.parent!=None):
+            if (b.parent is not None):
                 continue
             self.export_armature_bone(b, il, self.skeleton_info[node])
 
         if (node.pose):
             for b in node.pose.bones:
                 for x in b.constraints:
-                    if (x.type=='ACTION'):
+                    if (x.type == 'ACTION'):
                         self.action_constraints.append(x.action)
 
     def export_camera_node(self, node, il):
-        if (node.data==None):
+        if (node.data is None):
             return
 
-        camera=node.data
-        camid=self.new_id("camera")
-        self.writel(S_CAMS, 1, '<camera id="'+camid+'" name="'+camera.name+'">')
+        camera = node.data
+        camid = self.new_id("camera")
+        self.writel(S_CAMS, 1, '<camera id="' + camid +
+                    '" name="' + camera.name + '">')
         self.writel(S_CAMS, 2, '<optics>')
         self.writel(S_CAMS, 3, '<technique_common>')
-        if (camera.type=="PERSP"):
+        if (camera.type == "PERSP"):
             self.writel(S_CAMS, 4, '<perspective>')
-            self.writel(S_CAMS, 5, '<yfov> '+str(math.degrees(camera.angle))+' </yfov>') # I think?
-            self.writel(S_CAMS, 5, '<aspect_ratio> '+str(self.scene.render.resolution_x / self.scene.render.resolution_y)+' </aspect_ratio>')
-            self.writel(S_CAMS, 5, '<znear> '+str(camera.clip_start)+' </znear>')
-            self.writel(S_CAMS, 5, '<zfar> '+str(camera.clip_end)+' </zfar>')
+            self.writel(S_CAMS, 5, '<yfov> ' +
+                        # I think?
+                        str(math.degrees(camera.angle)) + ' </yfov>')
+            self.writel(S_CAMS, 5, '<aspect_ratio> ' +
+                        str(self.scene.render.resolution_x /
+                            self.scene.render.resolution_y) +
+                        ' </aspect_ratio>')
+            self.writel(S_CAMS, 5, '<znear> ' +
+                        str(camera.clip_start) + ' </znear>')
+            self.writel(S_CAMS, 5, '<zfar> ' +
+                        str(camera.clip_end) + ' </zfar>')
             self.writel(S_CAMS, 4, '</perspective>')
         else:
             self.writel(S_CAMS, 4, '<orthographic>')
-            self.writel(S_CAMS, 5, '<xmag> '+str(camera.ortho_scale*0.5)+' </xmag>') # I think?
-            self.writel(S_CAMS, 5, '<aspect_ratio> '+str(self.scene.render.resolution_x / self.scene.render.resolution_y)+' </aspect_ratio>')
-            self.writel(S_CAMS, 5, '<znear> '+str(camera.clip_start)+' </znear>')
-            self.writel(S_CAMS, 5, '<zfar> '+str(camera.clip_end)+' </zfar>')
+            self.writel(S_CAMS, 5, '<xmag> ' +
+                        str(camera.ortho_scale * 0.5) + ' </xmag>')  # I think?
+            self.writel(S_CAMS, 5, '<aspect_ratio> ' + str(
+                self.scene.render.resolution_x /
+                self.scene.render.resolution_y) + ' </aspect_ratio>')
+            self.writel(S_CAMS, 5, '<znear> ' +
+                        str(camera.clip_start) + ' </znear>')
+            self.writel(S_CAMS, 5, '<zfar> ' +
+                        str(camera.clip_end) + ' </zfar>')
             self.writel(S_CAMS, 4, '</orthographic>')
 
         self.writel(S_CAMS, 3, '</technique_common>')
         self.writel(S_CAMS, 2, '</optics>')
         self.writel(S_CAMS, 1, '</camera>')
 
-        self.writel(S_NODES, il, '<instance_camera url="#'+camid+'"/>')
+        self.writel(S_NODES, il, '<instance_camera url="#' + camid + '"/>')
 
     def export_lamp_node(self, node, il):
-        if (node.data==None):
+        if (node.data is None):
             return
 
-        light=node.data
-        lightid=self.new_id("light")
-        self.writel(S_LAMPS, 1, '<light id="'+lightid+'" name="'+light.name+'">')
-        #self.writel(S_LAMPS, 2, '<optics>')
+        light = node.data
+        lightid = self.new_id("light")
+        self.writel(S_LAMPS, 1, '<light id="' + lightid +
+                    '" name="' + light.name + '">')
+        # self.writel(S_LAMPS, 2, '<optics>')
         self.writel(S_LAMPS, 3, '<technique_common>')
 
-        if (light.type=="POINT"):
+        if (light.type == "POINT"):
             self.writel(S_LAMPS, 4, '<point>')
-            self.writel(S_LAMPS, 5, '<color>'+strarr(light.color)+'</color>')
-            att_by_distance = 2.0 / light.distance # convert to linear attenuation
-            self.writel(S_LAMPS, 5, '<linear_attenuation>'+str(att_by_distance)+'</linear_attenuation>')
+            self.writel(S_LAMPS, 5, '<color>' +
+                        strarr(light.color) + '</color>')
+            # convert to linear attenuation
+            att_by_distance = 2.0 / light.distance
+            self.writel(S_LAMPS, 5, '<linear_attenuation>' +
+                        str(att_by_distance) + '</linear_attenuation>')
             if (light.use_sphere):
-                self.writel(S_LAMPS, 5, '<zfar>'+str(light.distance)+'</zfar>')
+                self.writel(S_LAMPS, 5, '<zfar>' +
+                            str(light.distance) + '</zfar>')
 
             self.writel(S_LAMPS, 4, '</point>')
-        elif (light.type=="SPOT"):
+        elif (light.type == "SPOT"):
             self.writel(S_LAMPS, 4, '<spot>')
-            self.writel(S_LAMPS, 5, '<color>'+strarr(light.color)+'</color>')
-            att_by_distance = 2.0 / light.distance # convert to linear attenuation
-            self.writel(S_LAMPS, 5, '<linear_attenuation>'+str(att_by_distance)+'</linear_attenuation>')
-            self.writel(S_LAMPS, 5, '<falloff_angle>'+str(math.degrees(light.spot_size/2))+'</falloff_angle>')
+            self.writel(S_LAMPS, 5, '<color>' +
+                        strarr(light.color) + '</color>')
+            # convert to linear attenuation
+            att_by_distance = 2.0 / light.distance
+            self.writel(S_LAMPS, 5, '<linear_attenuation>' +
+                        str(att_by_distance) + '</linear_attenuation>')
+            self.writel(S_LAMPS, 5, '<falloff_angle>' +
+                        str(math.degrees(light.spot_size / 2)) +
+                        '</falloff_angle>')
             self.writel(S_LAMPS, 4, '</spot>')
 
-        else: #write a sun lamp for everything else (not supported)
+        else:  # write a sun lamp for everything else (not supported)
             self.writel(S_LAMPS, 4, '<directional>')
-            self.writel(S_LAMPS, 5, '<color>'+strarr(light.color)+'</color>')
+            self.writel(S_LAMPS, 5, '<color>' +
+                        strarr(light.color) + '</color>')
             self.writel(S_LAMPS, 4, '</directional>')
 
         self.writel(S_LAMPS, 3, '</technique_common>')
-        #self.writel(S_LAMPS, 2, '</optics>')
+        # self.writel(S_LAMPS, 2, '</optics>')
         self.writel(S_LAMPS, 1, '</light>')
 
-        self.writel(S_NODES, il, '<instance_light url="#'+lightid+'"/>')
+        self.writel(S_NODES, il, '<instance_light url="#' + lightid + '"/>')
 
     def export_empty_node(self, node, il):
         self.writel(S_NODES, 4, '<extra>')
         self.writel(S_NODES, 5, '<technique profile="GODOT">')
-        self.writel(S_NODES, 6, '<empty_draw_type>'+node.empty_draw_type+'</empty_draw_type>')
+        self.writel(S_NODES, 6, '<empty_draw_type>' +
+                    node.empty_draw_type + '</empty_draw_type>')
         self.writel(S_NODES, 5, '</technique>')
         self.writel(S_NODES, 4, '</extra>')
 
     def export_curve(self, curve):
         splineid = self.new_id("spline")
 
-        self.writel(S_GEOM, 1, '<geometry id="'+splineid+'" name="'+curve.name+'">')
+        self.writel(S_GEOM, 1, '<geometry id="' +
+                    splineid + '" name="' + curve.name + '">')
         self.writel(S_GEOM, 2, '<spline closed="0">')
 
-        points=[]
-        interps=[]
-        handles_in=[]
-        handles_out=[]
-        tilts=[]
+        points = []
+        interps = []
+        handles_in = []
+        handles_out = []
+        tilts = []
 
         for cs in curve.splines:
 
-            if (cs.type=="BEZIER"):
+            if (cs.type == "BEZIER"):
                 for s in cs.bezier_points:
                     points.append(s.co[0])
                     points.append(s.co[1])
@@ -1115,73 +1317,103 @@ class DaeExporter:
                     tilts.append(s.tilt)
                     interps.append("LINEAR")
 
-        self.writel(S_GEOM, 3, '<source id="'+splineid+'-positions">')
-        position_values=""
+        self.writel(S_GEOM, 3, '<source id="' + splineid + '-positions">')
+        position_values = ""
         for x in points:
-            position_values+=" "+str(x)
-        self.writel(S_GEOM, 4, '<float_array id="'+splineid+'-positions-array" count="'+str(len(points))+'">'+position_values+'</float_array>')
+            position_values += " " + str(x)
+        self.writel(S_GEOM, 4, '<float_array id="' + splineid +
+                    '-positions-array" count="' +
+                    str(len(points)) + '">' + position_values +
+                    '</float_array>')
         self.writel(S_GEOM, 4, '<technique_common>')
-        self.writel(S_GEOM, 4, '<accessor source="#'+splineid+'-positions-array" count="'+str(len(points)/3)+'" stride="3">')
+        self.writel(S_GEOM, 4, '<accessor source="#' + splineid +
+                    '-positions-array" count="' + str(len(points) / 3) +
+                    '" stride="3">')
         self.writel(S_GEOM, 5, '<param name="X" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Y" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Z" type="float"/>')
         self.writel(S_GEOM, 4, '</accessor>')
         self.writel(S_GEOM, 3, '</source>')
 
-        self.writel(S_GEOM, 3, '<source id="'+splineid+'-intangents">')
-        intangent_values=""
+        self.writel(S_GEOM, 3, '<source id="' + splineid + '-intangents">')
+        intangent_values = ""
         for x in handles_in:
-            intangent_values+=" "+str(x)
-        self.writel(S_GEOM, 4, '<float_array id="'+splineid+'-intangents-array" count="'+str(len(points))+'">'+intangent_values+'</float_array>')
+            intangent_values += " " + str(x)
+        self.writel(S_GEOM, 4, '<float_array id="' + splineid +
+                    '-intangents-array" count="' +
+                    str(len(points)) + '">' + intangent_values +
+                    '</float_array>')
         self.writel(S_GEOM, 4, '<technique_common>')
-        self.writel(S_GEOM, 4, '<accessor source="#'+splineid+'-intangents-array" count="'+str(len(points)/3)+'" stride="3">')
+        self.writel(S_GEOM, 4, '<accessor source="#' + splineid +
+                    '-intangents-array" count="' + str(len(points) / 3) +
+                    '" stride="3">')
         self.writel(S_GEOM, 5, '<param name="X" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Y" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Z" type="float"/>')
         self.writel(S_GEOM, 4, '</accessor>')
         self.writel(S_GEOM, 3, '</source>')
 
-        self.writel(S_GEOM, 3, '<source id="'+splineid+'-outtangents">')
-        outtangent_values=""
+        self.writel(S_GEOM, 3, '<source id="' + splineid + '-outtangents">')
+        outtangent_values = ""
         for x in handles_out:
-            outtangent_values+=" "+str(x)
-        self.writel(S_GEOM, 4, '<float_array id="'+splineid+'-outtangents-array" count="'+str(len(points))+'">'+outtangent_values+'</float_array>')
+            outtangent_values += " " + str(x)
+        self.writel(S_GEOM, 4, '<float_array id="' + splineid +
+                    '-outtangents-array" count="' +
+                    str(len(points)) + '">' + outtangent_values +
+                    '</float_array>')
         self.writel(S_GEOM, 4, '<technique_common>')
-        self.writel(S_GEOM, 4, '<accessor source="#'+splineid+'-outtangents-array" count="'+str(len(points)/3)+'" stride="3">')
+        self.writel(S_GEOM, 4, '<accessor source="#' + splineid +
+                    '-outtangents-array" count="' + str(len(points) / 3) +
+                    '" stride="3">')
         self.writel(S_GEOM, 5, '<param name="X" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Y" type="float"/>')
         self.writel(S_GEOM, 5, '<param name="Z" type="float"/>')
         self.writel(S_GEOM, 4, '</accessor>')
         self.writel(S_GEOM, 3, '</source>')
 
-        self.writel(S_GEOM, 3, '<source id="'+splineid+'-interpolations">')
-        interpolation_values=""
+        self.writel(S_GEOM, 3, '<source id="' + splineid + '-interpolations">')
+        interpolation_values = ""
         for x in interps:
-            interpolation_values+=" "+x
-        self.writel(S_GEOM, 4, '<Name_array id="'+splineid+'-interpolations-array" count="'+str(len(interps))+'">'+interpolation_values+'</Name_array>')
+            interpolation_values += " " + x
+        self.writel(S_GEOM, 4, '<Name_array id="' + splineid +
+                    '-interpolations-array" count="' +
+                    str(len(interps)) + '">' + interpolation_values +
+                    '</Name_array>')
         self.writel(S_GEOM, 4, '<technique_common>')
-        self.writel(S_GEOM, 4, '<accessor source="#'+splineid+'-interpolations-array" count="'+str(len(interps))+'" stride="1">')
+        self.writel(S_GEOM, 4, '<accessor source="#' + splineid +
+                    '-interpolations-array" count="' + str(len(interps)) +
+                    '" stride="1">')
         self.writel(S_GEOM, 5, '<param name="INTERPOLATION" type="name"/>')
         self.writel(S_GEOM, 4, '</accessor>')
         self.writel(S_GEOM, 3, '</source>')
 
-        self.writel(S_GEOM, 3, '<source id="'+splineid+'-tilts">')
-        tilt_values=""
+        self.writel(S_GEOM, 3, '<source id="' + splineid + '-tilts">')
+        tilt_values = ""
         for x in tilts:
-            tilt_values+=" "+str(x)
-        self.writel(S_GEOM, 4, '<float_array id="'+splineid+'-tilts-array" count="'+str(len(tilts))+'">'+tilt_values+'</float_array>')
+            tilt_values += " " + str(x)
+        self.writel(S_GEOM, 4, '<float_array id="' + splineid +
+                    '-tilts-array" count="' +
+                    str(len(tilts)) + '">' + tilt_values + '</float_array>')
         self.writel(S_GEOM, 4, '<technique_common>')
-        self.writel(S_GEOM, 4, '<accessor source="#'+splineid+'-tilts-array" count="'+str(len(tilts))+'" stride="1">')
+        self.writel(S_GEOM, 4, '<accessor source="#' + splineid +
+                    '-tilts-array" count="' + str(len(tilts)) +
+                    '" stride="1">')
         self.writel(S_GEOM, 5, '<param name="TILT" type="float"/>')
         self.writel(S_GEOM, 4, '</accessor>')
         self.writel(S_GEOM, 3, '</source>')
 
         self.writel(S_GEOM, 3, '<control_vertices>')
-        self.writel(S_GEOM, 4, '<input semantic="POSITION" source="#'+splineid+'-positions"/>')
-        self.writel(S_GEOM, 4, '<input semantic="IN_TANGENT" source="#'+splineid+'-intangents"/>')
-        self.writel(S_GEOM, 4, '<input semantic="OUT_TANGENT" source="#'+splineid+'-outtangents"/>')
-        self.writel(S_GEOM, 4, '<input semantic="INTERPOLATION" source="#'+splineid+'-interpolations"/>')
-        self.writel(S_GEOM, 4, '<input semantic="TILT" source="#'+splineid+'-tilts"/>')
+        self.writel(
+            S_GEOM, 4, '<input semantic="POSITION" source="#' + splineid +
+            '-positions"/>')
+        self.writel(S_GEOM, 4, '<input semantic="IN_TANGENT" source="#' +
+                    splineid + '-intangents"/>')
+        self.writel(S_GEOM, 4, '<input semantic="OUT_TANGENT" source="#' +
+                    splineid + '-outtangents"/>')
+        self.writel(S_GEOM, 4, '<input semantic="INTERPOLATION" source="#' +
+                    splineid + '-interpolations"/>')
+        self.writel(S_GEOM, 4, '<input semantic="TILT" source="#' +
+                    splineid + '-tilts"/>')
         self.writel(S_GEOM, 3, '</control_vertices>')
 
         self.writel(S_GEOM, 2, '</spline>')
@@ -1190,56 +1422,59 @@ class DaeExporter:
         return splineid
 
     def export_curve_node(self, node, il):
-        if (node.data==None):
+        if (node.data is None):
             return
 
         curveid = self.export_curve(node.data)
 
-        self.writel(S_NODES, il, '<instance_geometry url="#'+curveid+'">')
+        self.writel(S_NODES, il, '<instance_geometry url="#' + curveid + '">')
         self.writel(S_NODES, il, '</instance_geometry>')
 
     def export_node(self, node, il):
-        if (not node in self.valid_nodes):
+        if (node not in self.valid_nodes):
             return
 
         prev_node = bpy.context.scene.objects.active
         bpy.context.scene.objects.active = node
 
-        self.writel(S_NODES, il, '<node id="'+self.validate_id(node.name)+'" name="'+node.name+'" type="NODE">')
-        il+=1
+        self.writel(S_NODES, il, '<node id="' + self.validate_id(node.name) +
+                    '" name="' + node.name + '" type="NODE">')
+        il += 1
 
-        self.writel(S_NODES, il, '<matrix sid="transform">'+strmtx(node.matrix_local)+'</matrix>')
-        #print("NODE TYPE: "+node.type+" NAME: "+node.name)
-        if (node.type=="MESH"):
+        self.writel(S_NODES, il, '<matrix sid="transform">' +
+                    strmtx(node.matrix_local) + '</matrix>')
+        # print("NODE TYPE: "+node.type+" NAME: "+node.name)
+        if (node.type == "MESH"):
             self.export_mesh_node(node, il)
-        elif (node.type=="CURVE"):
+        elif (node.type == "CURVE"):
             self.export_curve_node(node, il)
-        elif (node.type=="ARMATURE"):
+        elif (node.type == "ARMATURE"):
             self.export_armature_node(node, il)
-        elif (node.type=="CAMERA"):
+        elif (node.type == "CAMERA"):
             self.export_camera_node(node, il)
-        elif (node.type=="LAMP"):
+        elif (node.type == "LAMP"):
             self.export_lamp_node(node, il)
-        elif (node.type=="EMPTY"):
+        elif (node.type == "EMPTY"):
             self.export_empty_node(node, il)
 
         for x in node.children:
             self.export_node(x, il)
 
-        il-=1
+        il -= 1
         self.writel(S_NODES, il, '</node>')
-        bpy.context.scene.objects.active = prev_node #make previous node active again
+        # make previous node active again
+        bpy.context.scene.objects.active = prev_node
 
     def is_node_valid(self, node):
-        if (not node.type in self.config["object_types"]):
+        if (node.type not in self.config["object_types"]):
             return False
 
         if (self.config["use_active_layers"]):
-            valid=False
+            valid = False
             # print("NAME: "+node.name)
             for i in range(20):
-                if (node.layers[i] and  self.scene.layers[i]):
-                    valid=True
+                if (node.layers[i] and self.scene.layers[i]):
+                    valid = True
                     break
             if (not valid):
                 return False
@@ -1251,7 +1486,8 @@ class DaeExporter:
 
     def export_scene(self):
         self.writel(S_NODES, 0, '<library_visual_scenes>')
-        self.writel(S_NODES, 1, '<visual_scene id="'+self.scene_name+'" name="scene">')
+        self.writel(S_NODES, 1, '<visual_scene id="' +
+                    self.scene_name + '" name="scene">')
 
         # validate nodes
         for obj in self.scene.objects:
@@ -1259,13 +1495,13 @@ class DaeExporter:
                 continue
             if (self.is_node_valid(obj)):
                 n = obj
-                while (n!=None):
-                    if (not n in self.valid_nodes):
+                while (n is not None):
+                    if (n not in self.valid_nodes):
                         self.valid_nodes.append(n)
-                    n=n.parent
+                    n = n.parent
 
         for obj in self.scene.objects:
-            if (obj in self.valid_nodes and obj.parent==None):
+            if (obj in self.valid_nodes and obj.parent is None):
                 self.export_node(obj, 2)
 
         self.writel(S_NODES, 1, '</visual_scene>')
@@ -1275,37 +1511,47 @@ class DaeExporter:
         self.writel(S_ASSET, 0, '<asset>')
         # Why is this time stuff mandatory?, no one could care less...
         self.writel(S_ASSET, 1, '<contributor>')
-        self.writel(S_ASSET, 2, '<author> Anonymous </author>') #Who made Collada, the FBI ?
-        self.writel(S_ASSET, 2, '<authoring_tool> Collada Exporter for Blender 2.6+, by Juan Linietsky (juan@codenix.com) </authoring_tool>') #Who made Collada, the FBI ?
+        # Who made Collada, the FBI ?
+        self.writel(S_ASSET, 2, '<author> Anonymous </author>')
+        # Who made Collada, the FBI ?
+        self.writel(
+            S_ASSET, 2, '<authoring_tool> Collada Exporter for Blender 2.6+, '
+            'by Juan Linietsky (juan@codenix.com) </authoring_tool>')
         self.writel(S_ASSET, 1, '</contributor>')
-        self.writel(S_ASSET, 1, '<created>'+time.strftime("%Y-%m-%dT%H:%M:%SZ     ")+'</created>')
-        self.writel(S_ASSET, 1, '<modified>'+time.strftime("%Y-%m-%dT%H:%M:%SZ")+'</modified>')
+        self.writel(S_ASSET, 1, '<created>' +
+                    time.strftime("%Y-%m-%dT%H:%M:%SZ     ") + '</created>')
+        self.writel(S_ASSET, 1, '<modified>' +
+                    time.strftime("%Y-%m-%dT%H:%M:%SZ") + '</modified>')
         self.writel(S_ASSET, 1, '<unit meter="1.0" name="meter"/>')
         self.writel(S_ASSET, 1, '<up_axis>Z_UP</up_axis>')
         self.writel(S_ASSET, 0, '</asset>')
 
     def export_animation_transform_channel(self, target, keys, matrices=True):
-        frame_total=len(keys)
-        anim_id=self.new_id("anim")
-        self.writel(S_ANIM, 1, '<animation id="'+anim_id+'">')
+        frame_total = len(keys)
+        anim_id = self.new_id("anim")
+        self.writel(S_ANIM, 1, '<animation id="' + anim_id + '">')
         source_frames = ""
         source_transforms = ""
         source_interps = ""
 
         for k in keys:
-            source_frames += " "+str(k[0])
+            source_frames += " " + str(k[0])
             if (matrices):
-                source_transforms += " "+strmtx(k[1])
+                source_transforms += " " + strmtx(k[1])
             else:
-                source_transforms += " "+str(k[1])
+                source_transforms += " " + str(k[1])
 
-            source_interps +=" LINEAR"
+            source_interps += " LINEAR"
 
         # Time Source
-        self.writel(S_ANIM, 2, '<source id="'+anim_id+'-input">')
-        self.writel(S_ANIM, 3, '<float_array id="'+anim_id+'-input-array" count="'+str(frame_total)+'">'+source_frames+'</float_array>')
+        self.writel(S_ANIM, 2, '<source id="' + anim_id + '-input">')
+        self.writel(S_ANIM, 3, '<float_array id="' + anim_id +
+                    '-input-array" count="' +
+                    str(frame_total) + '">' + source_frames + '</float_array>')
         self.writel(S_ANIM, 3, '<technique_common>')
-        self.writel(S_ANIM, 4, '<accessor source="#'+anim_id+'-input-array" count="'+str(frame_total)+'" stride="1">')
+        self.writel(S_ANIM, 4, '<accessor source="#' + anim_id +
+                    '-input-array" count="' + str(frame_total) +
+                    '" stride="1">')
         self.writel(S_ANIM, 5, '<param name="TIME" type="float"/>')
         self.writel(S_ANIM, 4, '</accessor>')
         self.writel(S_ANIM, 3, '</technique_common>')
@@ -1313,44 +1559,66 @@ class DaeExporter:
 
         if (matrices):
             # Transform Source
-            self.writel(S_ANIM, 2, '<source id="'+anim_id+'-transform-output">')
-            self.writel(S_ANIM, 3, '<float_array id="'+anim_id+'-transform-output-array" count="'+str(frame_total*16)+'">'+source_transforms+'</float_array>')
+            self.writel(S_ANIM, 2, '<source id="' +
+                        anim_id + '-transform-output">')
+            self.writel(S_ANIM, 3, '<float_array id="' + anim_id +
+                        '-transform-output-array" count="' +
+                        str(frame_total * 16) + '">' + source_transforms +
+                        '</float_array>')
             self.writel(S_ANIM, 3, '<technique_common>')
-            self.writel(S_ANIM, 4, '<accessor source="#'+anim_id+'-transform-output-array" count="'+str(frame_total)+'" stride="16">')
+            self.writel(S_ANIM, 4, '<accessor source="#' + anim_id +
+                        '-transform-output-array" count="' + str(frame_total) +
+                        '" stride="16">')
             self.writel(S_ANIM, 5, '<param name="TRANSFORM" type="float4x4"/>')
             self.writel(S_ANIM, 4, '</accessor>')
             self.writel(S_ANIM, 3, '</technique_common>')
             self.writel(S_ANIM, 2, '</source>')
         else:
             # Value Source
-            self.writel(S_ANIM, 2, '<source id="'+anim_id+'-transform-output">')
-            self.writel(S_ANIM, 3, '<float_array id="'+anim_id+'-transform-output-array" count="'+str(frame_total)+'">'+source_transforms+'</float_array>')
+            self.writel(S_ANIM, 2, '<source id="' +
+                        anim_id + '-transform-output">')
+            self.writel(S_ANIM, 3, '<float_array id="' + anim_id +
+                        '-transform-output-array" count="' +
+                        str(frame_total) + '">' + source_transforms +
+                        '</float_array>')
             self.writel(S_ANIM, 3, '<technique_common>')
-            self.writel(S_ANIM, 4, '<accessor source="#'+anim_id+'-transform-output-array" count="'+str(frame_total)+'" stride="1">')
+            self.writel(S_ANIM, 4, '<accessor source="#' + anim_id +
+                        '-transform-output-array" count="' + str(frame_total) +
+                        '" stride="1">')
             self.writel(S_ANIM, 5, '<param name="X" type="float"/>')
             self.writel(S_ANIM, 4, '</accessor>')
             self.writel(S_ANIM, 3, '</technique_common>')
             self.writel(S_ANIM, 2, '</source>')
 
         # Interpolation Source
-        self.writel(S_ANIM, 2, '<source id="'+anim_id+'-interpolation-output">')
-        self.writel(S_ANIM, 3, '<Name_array id="'+anim_id+'-interpolation-output-array" count="'+str(frame_total)+'">'+source_interps+'</Name_array>')
+        self.writel(S_ANIM, 2, '<source id="' +
+                    anim_id + '-interpolation-output">')
+        self.writel(S_ANIM, 3, '<Name_array id="' + anim_id +
+                    '-interpolation-output-array" count="' +
+                    str(frame_total) + '">' + source_interps + '</Name_array>')
         self.writel(S_ANIM, 3, '<technique_common>')
-        self.writel(S_ANIM, 4, '<accessor source="#'+anim_id+'-interpolation-output-array" count="'+str(frame_total)+'" stride="1">')
+        self.writel(S_ANIM, 4, '<accessor source="#' + anim_id +
+                    '-interpolation-output-array" count="' + str(frame_total) +
+                    '" stride="1">')
         self.writel(S_ANIM, 5, '<param name="INTERPOLATION" type="Name"/>')
         self.writel(S_ANIM, 4, '</accessor>')
         self.writel(S_ANIM, 3, '</technique_common>')
         self.writel(S_ANIM, 2, '</source>')
 
-        self.writel(S_ANIM, 2, '<sampler id="'+anim_id+'-sampler">')
-        self.writel(S_ANIM, 3, '<input semantic="INPUT" source="#'+anim_id+'-input"/>')
-        self.writel(S_ANIM, 3, '<input semantic="OUTPUT" source="#'+anim_id+'-transform-output"/>')
-        self.writel(S_ANIM, 3, '<input semantic="INTERPOLATION" source="#'+anim_id+'-interpolation-output"/>')
+        self.writel(S_ANIM, 2, '<sampler id="' + anim_id + '-sampler">')
+        self.writel(S_ANIM, 3, '<input semantic="INPUT" source="#' +
+                    anim_id + '-input"/>')
+        self.writel(S_ANIM, 3, '<input semantic="OUTPUT" source="#' +
+                    anim_id + '-transform-output"/>')
+        self.writel(S_ANIM, 3, '<input semantic="INTERPOLATION" source="#' +
+                    anim_id + '-interpolation-output"/>')
         self.writel(S_ANIM, 2, '</sampler>')
         if (matrices):
-            self.writel(S_ANIM, 2, '<channel source="#'+anim_id+'-sampler" target="'+target+'/transform"/>')
+            self.writel(S_ANIM, 2, '<channel source="#' + anim_id +
+                        '-sampler" target="' + target + '/transform"/>')
         else:
-            self.writel(S_ANIM, 2, '<channel source="#'+anim_id+'-sampler" target="'+target+'"/>')
+            self.writel(S_ANIM, 2, '<channel source="#' +
+                        anim_id + '-sampler" target="' + target + '"/>')
         self.writel(S_ANIM, 1, '</animation>')
 
         return [anim_id]
@@ -1365,95 +1633,111 @@ class DaeExporter:
         frame_len = 1.0 / self.scene.render.fps
         frame_total = end - start + 1
         frame_sub = 0
-        if (start>0):
-            frame_sub=start*frame_len
+        if (start > 0):
+            frame_sub = start * frame_len
 
         tcn = []
-        xform_cache={}
-        blend_cache={}
+        xform_cache = {}
+        blend_cache = {}
         # Change frames first, export objects last
         # This improves performance enormously
 
-        #print("anim from: "+str(start)+" to "+str(end)+" allowed: "+str(allowed))
-        for t in range(start, end+1):
+        # print("anim from: " + str(start) + " to " + str(end) + " allowed: " +
+        #     str(allowed))
+        for t in range(start, end + 1):
             self.scene.frame_set(t)
             key = t * frame_len - frame_sub
 #            print("Export Anim Frame "+str(t)+"/"+str(self.scene.frame_end+1))
 
             for node in self.scene.objects:
 
-                if (not node in self.valid_nodes):
+                if (node not in self.valid_nodes):
                     continue
-                if (allowed!=None and not (node in allowed)):
-                    if (node.type=="MESH" and node.data!=None and (node in self.armature_for_morph) and (self.armature_for_morph[node] in allowed)):
-                        pass #all good you pass with flying colors for morphs inside of action
+                if (allowed is not None and not (node in allowed)):
+                    if (node.type == "MESH" and node.data is not None and
+                        (node in self.armature_for_morph) and (
+                            self.armature_for_morph[node] in allowed)):
+                        # all good you pass with flying colors for morphs
+                        # inside of action
+                        pass
                     else:
-                        #print("fail "+str((node in self.armature_for_morph)))
+                        # print("fail "+str((node in self.armature_for_morph)))
                         continue
-                if (node.type=="MESH" and node.data!=None and node.data.shape_keys!=None and (node.data in self.mesh_cache) and len(node.data.shape_keys.key_blocks)):
+                if (node.type == "MESH" and node.data is not None and
+                    node.data.shape_keys is not None and (
+                        node.data in self.mesh_cache) and len(
+                            node.data.shape_keys.key_blocks)):
                     target = self.mesh_cache[node.data]["morph_id"]
                     for i in range(len(node.data.shape_keys.key_blocks)):
 
-                        if (i==0):
+                        if (i == 0):
                             continue
 
-                        name=target+"-morph-weights("+str(i-1)+")"
+                        name = target + "-morph-weights(" + str(i - 1) + ")"
                         if (not (name in blend_cache)):
-                            blend_cache[name]=[]
+                            blend_cache[name] = []
 
-                        blend_cache[name].append( (key, node.data.shape_keys.key_blocks[i].value) )
+                        blend_cache[name].append(
+                            (key, node.data.shape_keys.key_blocks[i].value))
 
-                if (node.type=="MESH" and node.parent and node.parent.type=="ARMATURE"):
+                if (node.type == "MESH" and node.parent and
+                        node.parent.type == "ARMATURE"):
 
-                    continue #In Collada, nodes that have skin modifier must not export animation, animate the skin instead.
+                    # In Collada, nodes that have skin modifier must not export
+                    # animation, animate the skin instead.
+                    continue
 
-                if (len(node.constraints)>0 or node.animation_data!=None):
-                    #If the node has constraints, or animation data, then export a sampled animation track
-                    name=self.validate_id(node.name)
+                if (len(node.constraints) > 0 or
+                        node.animation_data is not None):
+                    # If the node has constraints, or animation data, then
+                    # export a sampled animation track
+                    name = self.validate_id(node.name)
                     if (not (name in xform_cache)):
-                        xform_cache[name]=[]
+                        xform_cache[name] = []
 
                     mtx = node.matrix_world.copy()
                     if (node.parent):
                         mtx = node.parent.matrix_world.inverted() * mtx
 
-                    xform_cache[name].append( (key, mtx) )
+                    xform_cache[name].append((key, mtx))
 
-                if (node.type=="ARMATURE"):
-                    #All bones exported for now
+                if (node.type == "ARMATURE"):
+                    # All bones exported for now
 
                     for bone in node.data.bones:
 
-                        bone_name=self.skeleton_info[node]["bone_ids"][bone]
+                        bone_name = self.skeleton_info[node]["bone_ids"][bone]
 
                         if (not (bone_name in xform_cache)):
-                            #print("has bone: "+bone_name)
-                            xform_cache[bone_name]=[]
+                            # print("has bone: " + bone_name)
+                            xform_cache[bone_name] = []
 
                         posebone = node.pose.bones[bone.name]
-                        parent_posebone=None
+                        parent_posebone = None
 
                         mtx = posebone.matrix.copy()
                         if (bone.parent):
-                            parent_posebone=node.pose.bones[bone.parent.name]
-                            parent_invisible=False
+                            parent_posebone = node.pose.bones[bone.parent.name]
+                            parent_invisible = False
 
                             for i in range(3):
-                                if (parent_posebone.scale[i]==0.0):
-                                    parent_invisible=True
+                                if (parent_posebone.scale[i] == 0.0):
+                                    parent_invisible = True
 
                             if (not parent_invisible):
                                 mtx = parent_posebone.matrix.inverted() * mtx
 
-                        xform_cache[bone_name].append( (key, mtx) )
+                        xform_cache[bone_name].append((key, mtx))
 
         self.scene.frame_set(frame_orig)
 
-        #export animation xml
+        # export animation xml
         for nid in xform_cache:
-            tcn+=self.export_animation_transform_channel(nid, xform_cache[nid], True)
+            tcn += self.export_animation_transform_channel(
+                nid, xform_cache[nid], True)
         for nid in blend_cache:
-            tcn+=self.export_animation_transform_channel(nid, blend_cache[nid], False)
+            tcn += self.export_animation_transform_channel(
+                nid, blend_cache[nid], False)
 
         return tcn
 
@@ -1469,6 +1753,7 @@ class DaeExporter:
         self.writel(S_ANIM, 0, '<library_animations>')
 
         if (self.config["use_anim_action_all"] and len(self.skeletons)):
+
             cached_actions = {}
 
             for s in self.skeletons:
@@ -1478,31 +1763,32 @@ class DaeExporter:
             self.writel(S_ANIM_CLIPS, 0, '<library_animation_clips>')
 
             for x in bpy.data.actions[:]:
-                if x.users==0 or x in self.action_constraints:
+                if x.users == 0 or x in self.action_constraints:
                     continue
-                if (self.config["use_anim_skip_noexp"] and x.name.endswith("-noexp")):
+                if (self.config["use_anim_skip_noexp"] and
+                        x.name.endswith("-noexp")):
                     continue
 
-                bones=[]
-                #find bones used
+                bones = []
+                # find bones used
                 for p in x.fcurves:
                     dp = str(p.data_path)
                     base = "pose.bones[\""
-                    if (dp.find(base)==0):
-                        dp=dp[len(base):]
-                        if (dp.find('"')!=-1):
-                            dp=dp[:dp.find('"')]
-                            if (not dp in bones):
+                    if (dp.find(base) == 0):
+                        dp = dp[len(base):]
+                        if (dp.find('"') != -1):
+                            dp = dp[:dp.find('"')]
+                            if (dp not in bones):
                                 bones.append(dp)
 
-                allowed_skeletons=[]
+                allowed_skeletons = []
                 for i, y in enumerate(self.skeletons):
                     if (y.animation_data):
                         for z in y.pose.bones:
                             if (z.bone.name in bones):
-                                if (not y in allowed_skeletons):
+                                if (y not in allowed_skeletons):
                                     allowed_skeletons.append(y)
-                        y.animation_data.action=x;
+                        y.animation_data.action = x
 
                         y.matrix_local = tmp_mat[i][0]
                         for j, bone in enumerate(s.pose.bones):
@@ -1512,25 +1798,32 @@ class DaeExporter:
 
                 # print(str(x))
 
-                tcn = self.export_animation(int(x.frame_range[0]), int(x.frame_range[1]+0.5), allowed_skeletons)
-                framelen=(1.0/self.scene.render.fps)
-                start = x.frame_range[0]*framelen
-                end = x.frame_range[1]*framelen
-                #print("Export anim: "+x.name)
-                self.writel(S_ANIM_CLIPS, 1, '<animation_clip name="'+x.name+'" start="'+str(start)+'" end="'+str(end)+'">')
+                tcn = self.export_animation(int(x.frame_range[0]), int(
+                    x.frame_range[1] + 0.5), allowed_skeletons)
+                framelen = (1.0 / self.scene.render.fps)
+                start = x.frame_range[0] * framelen
+                end = x.frame_range[1] * framelen
+                # print("Export anim: "+x.name)
+                self.writel(
+                    S_ANIM_CLIPS, 1, '<animation_clip name="' + x.name +
+                    '" start="' + str(start) + '" end="' + str(end) + '">')
                 for z in tcn:
-                    self.writel(S_ANIM_CLIPS, 2, '<instance_animation url="#'+z+'"/>')
+                    self.writel(S_ANIM_CLIPS, 2,
+                                '<instance_animation url="#' + z + '"/>')
                 self.writel(S_ANIM_CLIPS, 1, '</animation_clip>')
-                if (len(tcn)==0):
-                    self.operator.report({'WARNING'}, 'Animation clip "'+x.name+'" contains no tracks.')
+                if (len(tcn) == 0):
+                    self.operator.report(
+                        {'WARNING'}, 'Animation clip "' + x.name +
+                        '" contains no tracks.')
 
             self.writel(S_ANIM_CLIPS, 0, '</library_animation_clips>')
 
             for i, s in enumerate(self.skeletons):
-                if (s.animation_data==None):
+                if (s.animation_data is None):
                     continue
                 if s in cached_actions:
-                    s.animation_data.action = bpy.data.actions[cached_actions[s]]
+                    s.animation_data.action = bpy.data.actions[
+                        cached_actions[s]]
                 else:
                     s.animation_data.action = None
                     for j, bone in enumerate(s.pose.bones):
@@ -1550,20 +1843,20 @@ class DaeExporter:
         self.writel(S_MATS, 0, '<library_materials>')
         self.writel(S_FX, 0, '<library_effects>')
 
-        self.skeletons=[]
-        self.action_constraints=[]
+        self.skeletons = []
+        self.action_constraints = []
         self.export_asset()
         self.export_scene()
 
         self.writel(S_GEOM, 0, '</library_geometries>')
 
-        #morphs always go before skin controllers
+        # morphs always go before skin controllers
         if S_MORPH in self.sections:
             for l in self.sections[S_MORPH]:
                 self.writel(S_CONT, 0, l)
             del self.sections[S_MORPH]
 
-        #morphs always go before skin controllers
+        # morphs always go before skin controllers
         if S_SKIN in self.sections:
             for l in self.sections[S_SKIN]:
                 self.writel(S_CONT, 0, l)
@@ -1585,47 +1878,45 @@ class DaeExporter:
             return False
 
         f.write(bytes('<?xml version="1.0" encoding="utf-8"?>\n', "UTF-8"))
-        f.write(bytes('<COLLADA xmlns="http://www.collada.org/2005/11/COLLADASchema" version="1.4.1">\n', "UTF-8"))
+        f.write(bytes(
+            '<COLLADA xmlns="http://www.collada.org/2005/11/COLLADASchema" '
+            'version="1.4.1">\n', "UTF-8"))
 
-        s=[]
+        s = []
         for x in self.sections.keys():
             s.append(x)
         s.sort()
         for x in s:
             for l in self.sections[x]:
-                f.write(bytes(l+"\n", "UTF-8"))
+                f.write(bytes(l + "\n", "UTF-8"))
 
         f.write(bytes('<scene>\n', "UTF-8"))
-        f.write(bytes('\t<instance_visual_scene url="#'+self.scene_name+'" />\n', "UTF-8"))
+        f.write(bytes('\t<instance_visual_scene url="#' +
+                      self.scene_name + '" />\n', "UTF-8"))
         f.write(bytes('</scene>\n', "UTF-8"))
         f.write(bytes('</COLLADA>\n', "UTF-8"))
         return True
 
     def __init__(self, path, kwargs, operator):
-        self.operator=operator
-        self.scene=bpy.context.scene
-        self.last_id=0
-        self.scene_name=self.new_id("scene")
-        self.sections={}
-        self.path=path
-        self.mesh_cache={}
-        self.curve_cache={}
-        self.material_cache={}
-        self.image_cache={}
-        self.skeleton_info={}
-        self.config=kwargs
-        self.valid_nodes=[]
-        self.armature_for_morph={}
-        self.used_bones=[]
-        self.wrongvtx_report=False
-
-
-def save(operator, context,
-    filepath="",
-    use_selection=False,
-    **kwargs
-    ):
-
+        self.operator = operator
+        self.scene = bpy.context.scene
+        self.last_id = 0
+        self.scene_name = self.new_id("scene")
+        self.sections = {}
+        self.path = path
+        self.mesh_cache = {}
+        self.curve_cache = {}
+        self.material_cache = {}
+        self.image_cache = {}
+        self.skeleton_info = {}
+        self.config = kwargs
+        self.valid_nodes = []
+        self.armature_for_morph = {}
+        self.used_bones = []
+        self.wrongvtx_report = False
+
+
+def save(operator, context, filepath="", use_selection=False, **kwargs):
     exp = DaeExporter(filepath, kwargs, operator)
     exp.export()