async def add_shape(sid: int, data: Dict[str, Any]): pr: PlayerRoom = game_state.get(sid) if "temporary" not in data: data["temporary"] = False floor = pr.active_location.floors.select().where( Floor.name == data["shape"]["floor"])[0] layer = floor.layers.where(Layer.name == data["shape"]["layer"])[0] if pr.role != Role.DM and not layer.player_editable: logger.warning( f"{pr.player.name} attempted to add a shape to a dm layer") return if data["temporary"]: game_state.add_temp(sid, data["shape"]["uuid"]) else: with db.atomic(): data["shape"]["layer"] = layer data["shape"]["index"] = layer.shapes.count() # Shape itself shape = Shape.create(**reduce_data_to_model(Shape, data["shape"])) # Subshape type_table = get_table(shape.type_) type_table.create( shape=shape, **type_table.pre_create( **reduce_data_to_model(type_table, data["shape"])), ) # Owners for owner in data["shape"]["owners"]: ShapeOwner.create( shape=shape, user=User.by_name(owner["user"]), edit_access=owner["edit_access"], movement_access=owner["movement_access"], vision_access=owner["vision_access"], ) # Trackers for tracker in data["shape"]["trackers"]: Tracker.create(**reduce_data_to_model(Tracker, tracker), shape=shape) # Auras for aura in data["shape"]["auras"]: Aura.create(**reduce_data_to_model(Aura, aura), shape=shape) for room_player in pr.room.players: is_dm = room_player.role == Role.DM for psid in game_state.get_sids(player=room_player.player, active_location=pr.active_location): if psid == sid: continue if not is_dm and not layer.player_visible: continue if not data["temporary"]: data["shape"] = shape.as_dict(room_player.player, is_dm) await sio.emit("Shape.Add", data["shape"], room=psid, namespace=GAME_NS)
async def update_shape_position(sid, data): sid_data = state.sid_map[sid] user = sid_data["user"] room = sid_data["room"] location = sid_data["location"] shape, layer = await _get_shape(data, location, user) if not await has_ownership(layer, room, data, user, shape): return # Overwrite the old data with the new data if not data["temporary"]: with db.atomic(): data["shape"]["layer"] = Layer.get(location=location, name=data["shape"]["layer"]) # Shape model = reduce_data_to_model(Shape, data["shape"]) update_model_from_dict(shape, model) shape.save() if shape.type_ in ["polygon", "multiline"]: # Subshape type_table = get_table(shape.type_) type_instance = type_table.get(uuid=shape.uuid) # no backrefs on these tables update_model_from_dict(type_instance, data["shape"], ignore_unknown=True) type_instance.save() await sync_shape_update(layer, room, data, sid, shape)
async def add_shape(sid, data): sid_data = state.sid_map[sid] user = sid_data["user"] room = sid_data["room"] location = sid_data["location"] if "temporary" not in data: data["temporary"] = False floor = location.floors.select().where( Floor.name == data["shape"]["floor"])[0] layer = floor.layers.where(Layer.name == data["shape"]["layer"])[0] if room.creator != user and not layer.player_editable: logger.warning(f"{user.name} attempted to add a shape to a dm layer") return if data["temporary"]: state.add_temp(sid, data["shape"]["uuid"]) else: with db.atomic(): data["shape"]["layer"] = layer data["shape"]["index"] = layer.shapes.count() # Shape itself shape = Shape.create(**reduce_data_to_model(Shape, data["shape"])) # Subshape type_table = get_table(shape.type_) type_table.create(shape=shape, **reduce_data_to_model(type_table, data["shape"])) # Owners ShapeOwner.create(shape=shape, user=user) # Trackers for tracker in data["shape"]["trackers"]: Tracker.create(**reduce_data_to_model(Tracker, tracker), shape=shape) # Auras for aura in data["shape"]["auras"]: Aura.create(**reduce_data_to_model(Aura, aura), shape=shape) if layer.player_visible: for room_player in room.players: for psid in state.get_sids(user=room_player.player, room=room): if psid == sid: continue if not data["temporary"]: data["shape"] = shape.as_dict(room_player.player, False) await sio.emit("Shape.Add", data["shape"], room=psid, namespace="/planarally") for csid in state.get_sids(user=room.creator, room=room): if csid == sid: continue if not data["temporary"]: data["shape"] = shape.as_dict(room.creator, True) await sio.emit("Shape.Add", data["shape"], room=csid, namespace="/planarally")
async def update_shape(sid, data): sid_data = state.sid_map[sid] user = sid_data["user"] room = sid_data["room"] location = sid_data["location"] # We're first gonna retrieve the existing server side shape for some validation checks if data["temporary"]: # This stuff is not stored so we cannot do any server side validation /shrug shape = data["shape"] layer = location.layers.where(Layer.name == data["shape"]["layer"])[0] else: # Use the server version of the shape. try: shape = Shape.get(uuid=data["shape"]["uuid"]) except Shape.DoesNotExist: logger.warning(f"Attempt to update unknown shape by {user.name}") return layer = shape.layer # Ownership validatation if room.creator != user: if not layer.player_editable: logger.warning( f"{user.name} attempted to move a shape on a dm layer") return if data["temporary"]: if user.name not in shape["owners"]: logger.warning( f"{user.name} attempted to move asset it does not own") return else: if not ShapeOwner.get_or_none(shape=shape, user=user): logger.warning( f"{user.name} attempted to move asset it does not own") return # Overwrite the old data with the new data if not data["temporary"]: with db.atomic(): data["shape"]["layer"] = Layer.get(location=location, name=data["shape"]["layer"]) # Otherwise backrefs can cause errors as they need to be handled separately update_model_from_dict(shape, reduce_data_to_model(Shape, data["shape"])) shape.save() type_table = get_table(shape.type_) type_instance = type_table.get(uuid=shape.uuid) # no backrefs on these tables update_model_from_dict(type_instance, data["shape"], ignore_unknown=True) type_instance.save() old_owners = {owner.user.name for owner in shape.owners} new_owners = set(data["shape"]["owners"]) for owner in old_owners ^ new_owners: if owner == "": continue delta_owner = User.by_name(owner) if owner in new_owners: ShapeOwner.create(shape=shape, user=delta_owner) else: ShapeOwner.get(shape=shape, user=delta_owner).delete_instance(True) await send_client_initiatives(room, location, delta_owner) # Send to players if layer.player_visible: for room_player in room.players: for psid in state.get_sids(user=room_player.player, room=room): if psid == sid: continue if not data["temporary"]: data["shape"] = shape.as_dict(room_player.player, False) await sio.emit("Shape.Update", data, room=psid, namespace="/planarally") # Send to DM for csid in state.get_sids(user=room.creator, room=room): if csid == sid: continue if not data["temporary"]: data["shape"] = shape.as_dict(room.creator, True) await sio.emit("Shape.Update", data, room=csid, namespace="/planarally")
async def update_shape(sid, data): sid_data = state.sid_map[sid] user = sid_data["user"] room = sid_data["room"] location = sid_data["location"] shape, layer = await _get_shape(data, location, user) if not await has_ownership(layer, room, data, user, shape): return # Overwrite the old data with the new data if not data["temporary"]: with db.atomic(): data["shape"]["layer"] = Layer.get(location=location, name=data["shape"]["layer"]) # Shape update_model_from_dict(shape, reduce_data_to_model(Shape, data["shape"])) shape.save() # Subshape type_table = get_table(shape.type_) type_instance = type_table.get(uuid=shape.uuid) # no backrefs on these tables update_model_from_dict(type_instance, data["shape"], ignore_unknown=True) type_instance.save() # Owners old_owners = {owner.user.name for owner in shape.owners} new_owners = set(data["shape"]["owners"]) for owner in old_owners ^ new_owners: if owner == "": continue delta_owner = User.by_name(owner) if owner in new_owners: ShapeOwner.create(shape=shape, user=delta_owner) else: ShapeOwner.get(shape=shape, user=delta_owner).delete_instance(True) await send_client_initiatives(room, location, delta_owner) # Trackers for tracker in data["shape"]["trackers"]: tracker_db = Tracker.get_or_none(uuid=tracker["uuid"]) reduced = reduce_data_to_model(Tracker, tracker) reduced["shape"] = shape if tracker_db: update_model_from_dict(tracker_db, reduced) tracker_db.save() else: Tracker.create(**reduced) # Auras for aura in data["shape"]["auras"]: aura_db = Aura.get_or_none(uuid=aura["uuid"]) reduced = reduce_data_to_model(Aura, aura) reduced["shape"] = shape if aura_db: update_model_from_dict(aura_db, reduced) aura_db.save() else: Aura.create(**reduced) await sync_shape_update(layer, room, data, sid, shape)