def poll(cls, context):
#restoration exists and is in scene
if bridge_methods.active_spanning_restoration(context) != [None]:
bridge = bridge_methods.active_spanning_restoration(context)[0]#TODO:...make this poll work for all selected teeth...
if bridge:
return True
else:
return False
else:
return False
def bridge_help_parser(scene):
if not hasattr(scene, 'odc_props'):
print('no ODC')
return
global help_display_box
help_text = 'Bridge Help Wizard \n'
if len(scene.odc_bridges) == 0:
help_text += 'Need to plan a bridge \n'
help_text += 'Select multiple single units and "Units to Bridge"'
return help_text
bridges = bridge_methods.active_spanning_restoration(bpy.context)
for bridge in bridges:
help_text += bridge_help_text(bridge)
if help_text != help_display_box.raw_text:
help_display_box.raw_text = help_text
help_display_box.format_and_wrap_text()
help_display_box.fit_box_width_to_text_lines()
help_display_box.fit_box_height_to_text_lines()
help_display_box.snap_to_corner(bpy.context, corner=[0, 1])
def poll(cls, context):
bridges = bridge_methods.active_spanning_restoration(context)
if len(bridges):
bridge = bridges[0]
condition_1 = bridge.bridge and bridge.bridge in bpy.data.objects
else:
condition_1 = False
return condition_1
def poll(cls,context):
bridges = bridge_methods.active_spanning_restoration(context)
if len(bridges):
bridge = bridges[0]
condition_1 = bridge.bridge and bridge.bridge in bpy.data.objects
else:
condition_1 = False
return condition_1
def execute(self,context):
settings = get_settings()
dbg = settings.debug
layers_copy = [layer for layer in context.scene.layers]
context.scene.layers[0] = True
odc_bridge = bridge_methods.active_spanning_restoration(context)[0]
bridge_methods.make_pre_bridge(context, odc_bridge, debug=dbg) #TODO: debug settings
for i, layer in enumerate(layers_copy):
context.scene.layers[i] = layer
context.scene.layers[5] = True
odcutils.layer_management(context.scene.odc_bridges, debug = dbg)
return {'FINISHED'}
def invoke(self, context, event):
if context.space_data.type == 'VIEW_3D':
self.odc_bridge = bridge_methods.active_spanning_restoration(
context)[0]
#list of all teeth in the bridge
self.units = self.odc_bridge.tooth_string.split(sep=":")
self.target_index = 0
self.a = self.units[0]
self.b = self.units[1]
self.a_group = "_Mesial Connector"
self.b_group = "_Distal Connector"
self.mes_distal_determine()
if self.b not in self.units:
self.report({
'ERROR'
}, "No neighboring tooth or I haven't figured out how to deal with non adjacent teeth"
)
return {'CANCELLED'}
self._handle = bpy.types.SpaceView3D.draw_handler_add(
bgl_utils.general_func_callback, (self, context), 'WINDOW',
'POST_PIXEL')
context.window_manager.modal_handler_add(self)
#guess which teeth we want to bridge
#TODO: International vs Universal
self.message = "Bridge between %s and %s" % (self.a, self.b)
help_message = [
"Scroll wheel to select connector", "SPC to confirm",
"Leftmouse to confirm and advance", "Esc to cancel"
]
self.wrap = max([len(string) for string in help_message]) + 5
self.help = ""
for message in help_message:
jmessage = message + " " * (self.wrap - len(message))
self.help += jmessage
return {'RUNNING_MODAL'}
else:
self.report({'WARNING'}, "Active space must be a View3d")
return {'CANCELLED'}
def invoke(self, context, event):
if context.space_data.type == 'VIEW_3D':
self.odc_bridge = bridge_methods.active_spanning_restoration(context)[0]
#list of all teeth in the bridge
self.units = self.odc_bridge.tooth_string.split(sep=":")
self.target_index = 0
self.a = self.units[0]
self.b = self.units[1]
self.a_group = "_Mesial Connector"
self.b_group = "_Distal Connector"
self.mes_distal_determine()
if self.b not in self.units:
self.report({'ERROR'}, "No neighboring tooth or I haven't figured out how to deal with non adjacent teeth")
return {'CANCELLED'}
self._handle = bpy.types.SpaceView3D.draw_handler_add(bgl_utils.general_func_callback, (self, context), 'WINDOW', 'POST_PIXEL')
context.window_manager.modal_handler_add(self)
#guess which teeth we want to bridge
#TODO: International vs Universal
self.message = "Bridge between %s and %s" % (self.a, self.b)
help_message = ["Scroll wheel to select connector","SPC to confirm","Leftmouse to confirm and advance","Esc to cancel"]
self.wrap = max([len(string) for string in help_message]) + 5
self.help = ""
for message in help_message:
jmessage = message + " " * (self.wrap - len(message))
self.help += jmessage
return {'RUNNING_MODAL'}
else:
self.report({'WARNING'}, "Active space must be a View3d")
return {'CANCELLED'}
def execute(self, context):
settings = get_settings()
dbg = settings.debug
odc_bridge = bridge_methods.active_spanning_restoration(context)[0]
sce = context.scene
Bridge = bpy.data.objects.get(odc_bridge.bridge)
if not Bridge:
self.report({
'ERROR'
}, 'Use "Boolean Bridge" to join individual units to an outer shell first'
)
go_local = False
if context.space_data.local_view:
go_local = True
bpy.ops.view3d.localview()
if len(Bridge.modifiers):
me = Bridge.to_mesh(context.scene, True, 'PREVIEW')
mods = [mod for mod in Bridge.modifiers]
for mod in mods:
Bridge.modifiers.remove(mod)
Bridge.data = me
### Remove the bottom 3 edge loops
bridge_bme = bmesh.new()
bridge_bme.from_object(Bridge, context.scene)
bridge_bme.edges.ensure_lookup_table()
bridge_bme.verts.ensure_lookup_table()
bridge_bme.faces.ensure_lookup_table()
for i in range(0, 3):
non_man_eds = [ed for ed in bridge_bme.edges if not ed.is_manifold]
bmesh.ops.delete(bridge_bme, geom=non_man_eds, context=2)
non_man_vs = [v for v in bridge_bme.verts if not v.is_manifold]
bmesh.ops.delete(bridge_bme, geom=non_man_vs, context=1)
bridge_bme.edges.ensure_lookup_table()
bridge_bme.verts.ensure_lookup_table()
bridge_bme.faces.ensure_lookup_table()
bridge_bme.to_mesh(Bridge.data)
### DONE Removing bottom 3 edge loops ###
bridge_teeth = [
context.scene.odc_teeth[name]
for name in odc_bridge.tooth_string.split(sep=":")
]
intag_objects = [
bpy.data.objects.get(tooth.intaglio) for tooth in bridge_teeth
if tooth.rest_type != '1'
]
if None in intag_objects:
self.report({'ERROR'}, 'Missing Intaglio for some abutments')
bpy.ops.object.select_all(action='DESELECT')
join_obs = []
for ob in intag_objects:
new_me = ob.to_mesh(context.scene, True, 'PREVIEW')
new_ob = bpy.data.objects.new(ob.name + ' dupli', new_me)
new_ob.matrix_world = ob.matrix_world
context.scene.objects.link(new_ob)
join_obs.append(new_ob)
print(join_obs)
bpy.ops.object.select_all(action='DESELECT')
for ob in join_obs:
ob.select = True
Bridge.hide = False
Bridge.select = True
context.scene.objects.active = Bridge
Bridge.name += '_solid'
bpy.ops.object.join()
bridge_bme.free()
bridge_bme = bmesh.new()
bridge_bme.from_mesh(Bridge.data, True)
bridge_bme.edges.ensure_lookup_table()
bridge_bme.verts.ensure_lookup_table()
bridge_bme.faces.ensure_lookup_table()
non_man = [ed for ed in bridge_bme.edges if not ed.is_manifold]
bmesh.ops.bridge_loops(bridge_bme, edges=non_man, use_pairs=True)
#non_man = [ed.index for ed in bridge_bme.edges if not ed.is_manifold]
#loops = mesh_cut.edge_loops_from_bmedges(bridge_bme, non_man)
#for loop in loops:
#for i in loop:
#bridge_bme.verts[i].select_set(True)
bmesh.ops.recalc_face_normals(bridge_bme, faces=bridge_bme.faces[:])
bridge_bme.to_mesh(Bridge.data)
#bridge_bme.transform(Bridge.matrix_world)
#new_me = bpy.data.meshes.new(odc_bridge.name + '_solid')
#bridge_bme.to_mesh(new_me)
bridge_bme.free()
#new_ob = bpy.data.objects.new(odc_bridge.name + '_solid', new_me)
#context.scene.objects.link(new_ob)
if go_local:
bpy.ops.view3d.localview()
return {'FINISHED'}
def execute(self, context):
settings = get_settings()
dbg = settings.debug
odc_bridge = bridge_methods.active_spanning_restoration(context)[0]
layers_copy = [layer for layer in context.scene.layers]
context.scene.layers[0] = True
bridge_teeth = [
context.scene.odc_teeth[name]
for name in odc_bridge.tooth_string.split(sep=":")
]
contour_obs = [
bpy.data.objects.get(tooth.contour) for tooth in bridge_teeth
]
if None in contour_obs:
bad_unit = contour_obs.index(None)
bad_tooth = bridge_teeth[bad_unit].name
self.report({'ERROR'},
'Full Contour design missing for ' + bad_tooth)
return {'CANCELLED'}
left_teeth = []
right_teeth = []
for tooth in bridge_teeth:
if tooth.name.startswith('2') or tooth.name.startswith('3'):
left_teeth.append(tooth)
else:
right_teeth.append(tooth)
print('left teeth')
print([tooth.name for tooth in left_teeth])
def get_key(tooth):
return tooth.name
print([
tooth.name
for tooth in sorted(left_teeth, key=get_key, reverse=True)
])
if len(left_teeth):
left_teeth_sorted = [
tooth
for tooth in sorted(left_teeth, key=get_key, reverse=True)
]
left_contours = [
bpy.data.objects.get(tooth.contour)
for tooth in left_teeth_sorted
]
left_base_ob = left_contours[0]
print(left_base_ob.name)
left_bridge_me = left_base_ob.to_mesh(context.scene,
apply_modifiers=True,
settings='PREVIEW')
left_bridge_ob = bpy.data.objects.new(odc_bridge.name,
left_bridge_me)
left_bridge_ob.matrix_world = left_base_ob.matrix_world
context.scene.objects.link(left_bridge_ob)
print(left_bridge_ob.name)
for i in range(1, len(left_contours)):
print('adding boolean modifier')
mod = left_bridge_ob.modifiers.new(str(i), 'BOOLEAN')
mod.operation = 'UNION'
mod.object = left_contours[i]
print(left_contours[i].name)
left_final_me = left_bridge_ob.to_mesh(context.scene,
apply_modifiers=True,
settings='PREVIEW')
mods = [mod for mod in left_bridge_ob.modifiers]
for mod in mods:
left_bridge_ob.modifiers.remove(mod)
left_bridge_ob.data = left_final_me
odc_bridge.bridge = left_bridge_ob.name
if len(right_teeth):
right_teeth_sorted = [
tooth
for tooth in sorted(right_teeth, key=get_key, reverse=True)
]
right_contours = [
bpy.data.objects.get(tooth.contour)
for tooth in right_teeth_sorted
]
right_base_ob = right_contours[0]
right_bridge_me = right_base_ob.to_mesh(context.scene,
apply_modifiers=True,
settings='PREVIEW')
right_bridge_ob = bpy.data.objects.new(odc_bridge.name,
right_bridge_me)
right_bridge_ob.matrix_world = right_base_ob.matrix_world
context.scene.objects.link(right_bridge_ob)
for i in range(1, len(right_contours)):
mod = right_bridge_ob.modifiers.new(str(i), 'BOOLEAN')
mod.operation = 'UNION'
mod.object = right_contours[i]
right_final_me = right_bridge_ob.to_mesh(context.scene,
apply_modifiers=True,
settings='PREVIEW')
mods = [mod for mod in right_bridge_ob.modifiers]
for mod in mods:
right_bridge_ob.modifiers.remove(mod)
right_bridge_ob.data = right_final_me
odc_bridge.bridge = right_bridge_ob.name
if len(left_teeth) and len(right_teeth):
mod = left_bridge_ob.modifiers.new('Midline', 'BOOLEAN')
mod.operation = 'UNION'
mod.object = right_bridge_ob
left_bridge_ob.update_tag()
context.scene.update()
final_me = left_bridge_ob.to_mesh(context.scene,
apply_modifiers=True,
settings='PREVIEW')
mods = [mod for mod in left_bridge_ob.modifiers]
for mod in mods:
left_bridge_ob.modifiers.remove(mod)
left_bridge_ob.data = final_me
context.scene.objects.unlink(right_bridge_ob)
bpy.data.objects.remove(right_bridge_ob)
bpy.data.meshes.remove(right_bridge_me)
odc_bridge.bridge = left_bridge_ob.name
return {'FINISHED'}
def execute(self,context):
settings = get_settings()
dbg = settings.debug
odc_bridge = bridge_methods.active_spanning_restoration(context)[0]
layers_copy = [layer for layer in context.scene.layers]
context.scene.layers[0] = True
bridge_teeth = [context.scene.odc_teeth[name] for name in odc_bridge.tooth_string.split(sep=":")]
contour_obs = [bpy.data.objects.get(tooth.contour) for tooth in bridge_teeth]
if None in contour_obs:
bad_unit = contour_obs.index(None)
bad_tooth = bridge_teeth[bad_unit].name
self.report({'ERROR'}, 'Full Contour design missing for ' + bad_tooth)
return {'CANCELLED'}
left_teeth = []
right_teeth = []
for tooth in bridge_teeth:
if tooth.name.startswith('2') or tooth.name.startswith('3'):
left_teeth.append(tooth)
else:
right_teeth.append(tooth)
print('left teeth')
print([tooth.name for tooth in left_teeth])
def get_key(tooth):
return tooth.name
print([tooth.name for tooth in sorted(left_teeth, key = get_key, reverse = True)])
if len(left_teeth):
left_teeth_sorted = [tooth for tooth in sorted(left_teeth, key = get_key, reverse = True)]
left_contours = [bpy.data.objects.get(tooth.contour) for tooth in left_teeth_sorted]
left_base_ob = left_contours[0]
print(left_base_ob.name)
left_bridge_me = left_base_ob.to_mesh(context.scene, apply_modifiers = True, settings = 'PREVIEW')
left_bridge_ob = bpy.data.objects.new(odc_bridge.name, left_bridge_me)
left_bridge_ob.matrix_world = left_base_ob.matrix_world
context.scene.objects.link(left_bridge_ob)
print(left_bridge_ob.name)
for i in range(1, len(left_contours)):
print('adding boolean modifier')
mod = left_bridge_ob.modifiers.new(str(i), 'BOOLEAN')
mod.operation = 'INTERSECT'
mod.object = left_contours[i]
print(left_contours[i].name)
left_final_me = left_bridge_ob.to_mesh(context.scene, apply_modifiers = True, settings = 'PREVIEW')
mods = [mod for mod in left_bridge_ob.modifiers]
for mod in mods:
left_bridge_ob.modifiers.remove(mod)
left_bridge_ob.data = left_final_me
odc_bridge.bridge = left_bridge_ob.name
if len(right_teeth):
right_teeth_sorted = [tooth for tooth in sorted(right_teeth, key = get_key, reverse = True)]
right_contours = [bpy.data.objects.get(tooth.contour) for tooth in right_teeth_sorted]
right_base_ob = right_contours[0]
right_bridge_me = right_base_ob.to_mesh(context.scene, apply_modifiers = True, settings = 'PREVIEW')
right_bridge_ob = bpy.data.objects.new(odc_bridge.name, right_bridge_me)
right_bridge_ob.matrix_world = right_base_ob.matrix_world
context.scene.objects.link(right_bridge_ob)
for i in range(1, len(right_contours)):
mod = right_bridge_ob.modifiers.new(str(i), 'BOOLEAN')
mod.operation = 'UNION'
mod.object = right_contours[i]
right_final_me = right_bridge_ob.to_mesh(context.scene, apply_modifiers = True, settings = 'PREVIEW')
mods = [mod for mod in right_bridge_ob.modifiers]
for mod in mods:
right_bridge_ob.modifiers.remove(mod)
right_bridge_ob.data = right_final_me
odc_bridge.bridge = right_bridge_ob.name
if len(left_teeth) and len(right_teeth):
mod = left_bridge_ob.modifiers.new('Midline', 'BOOLEAN')
mod.operation = 'DIFFERENCE'
mod.object = right_bridge_ob
left_bridge_ob.update_tag()
context.scene.update()
final_me = left_bridge_ob.to_mesh(context.scene, apply_modifiers = True, settings = 'PREVIEW')
mods = [mod for mod in left_bridge_ob.modifiers]
for mod in mods:
left_bridge_ob.modifiers.remove(mod)
left_bridge_ob.data = final_me
context.scene.objects.unlink(right_bridge_ob)
bpy.data.objects.remove(right_bridge_ob)
bpy.data.meshes.remove(right_bridge_me)
odc_bridge.bridge = left_bridge_ob.name
return {'FINISHED'}
def execute(self,context):
settings = get_settings()
dbg = settings.debug
odc_bridge = bridge_methods.active_spanning_restoration(context)[0]
sce = context.scene
Bridge = bpy.data.objects.get(odc_bridge.bridge)
if not Bridge:
self.report({'ERROR'}, 'Use "Boolean Bridge" to join individual units to an outer shell first')
go_local = False
if context.space_data.local_view:
go_local = True
bpy.ops.view3d.localview()
if len(Bridge.modifiers):
me = Bridge.to_mesh(context.scene, True, 'PREVIEW')
mods = [mod for mod in Bridge.modifiers]
for mod in mods:
Bridge.modifiers.remove(mod)
Bridge.data = me
### Remove the bottom 3 edge loops
bridge_bme = bmesh.new()
bridge_bme.from_object(Bridge, context.scene)
bridge_bme.edges.ensure_lookup_table()
bridge_bme.verts.ensure_lookup_table()
bridge_bme.faces.ensure_lookup_table()
for i in range(0,3):
non_man_eds = [ed for ed in bridge_bme.edges if not ed.is_manifold]
bmesh.ops.delete(bridge_bme, geom = non_man_eds, context = 2)
non_man_vs = [v for v in bridge_bme.verts if not v.is_manifold]
bmesh.ops.delete(bridge_bme, geom = non_man_vs, context = 1)
bridge_bme.edges.ensure_lookup_table()
bridge_bme.verts.ensure_lookup_table()
bridge_bme.faces.ensure_lookup_table()
bridge_bme.to_mesh(Bridge.data)
### DONE Removing bottom 3 edge loops ###
bridge_teeth = [context.scene.odc_teeth[name] for name in odc_bridge.tooth_string.split(sep=":")]
intag_objects = [bpy.data.objects.get(tooth.intaglio) for tooth in bridge_teeth if tooth.rest_type != '1']
if None in intag_objects:
self.report({'ERROR'}, 'Missing Intaglio for some abutments')
bpy.ops.object.select_all(action = 'DESELECT')
join_obs = []
for ob in intag_objects:
new_me = ob.to_mesh(context.scene, True, 'PREVIEW')
new_ob = bpy.data.objects.new(ob.name + ' dupli', new_me)
new_ob.matrix_world = ob.matrix_world
context.scene.objects.link(new_ob)
join_obs.append(new_ob)
print(join_obs)
bpy.ops.object.select_all(action = 'DESELECT')
for ob in join_obs:
ob.select = True
Bridge.select = True
context.scene.objects.active = Bridge
Bridge.name += '_solid'
bpy.ops.object.join()
bridge_bme.free()
bridge_bme = bmesh.new()
bridge_bme.from_mesh(Bridge.data, True)
bridge_bme.edges.ensure_lookup_table()
bridge_bme.verts.ensure_lookup_table()
bridge_bme.faces.ensure_lookup_table()
non_man = [ed for ed in bridge_bme.edges if not ed.is_manifold]
bmesh.ops.bridge_loops(bridge_bme, edges = non_man, use_pairs = True)
#non_man = [ed.index for ed in bridge_bme.edges if not ed.is_manifold]
#loops = mesh_cut.edge_loops_from_bmedges(bridge_bme, non_man)
#for loop in loops:
#for i in loop:
#bridge_bme.verts[i].select_set(True)
bmesh.ops.recalc_face_normals(bridge_bme, faces = bridge_bme.faces[:])
bridge_bme.to_mesh(Bridge.data)
#bridge_bme.transform(Bridge.matrix_world)
#new_me = bpy.data.meshes.new(odc_bridge.name + '_solid')
#bridge_bme.to_mesh(new_me)
bridge_bme.free()
#new_ob = bpy.data.objects.new(odc_bridge.name + '_solid', new_me)
#context.scene.objects.link(new_ob)
if go_local:
bpy.ops.view3d.localview()
return {'FINISHED'}
