예제 #1
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 def buildObjectCancel(self, oldobj, user):
     """Cancel a partially built object do it being destroyed or maually cancelled during
     construction"""
     u =  User.all().filter('FacebookID =', user.FacebookID).get()
     
     # Proximity fetch
     milesToMeters = 1609.4
     distance = Constants.getBaseDistance() * Constants.latToMiles() * milesToMeters
     
     # Find the build object
     cls = oldobj.getClass()
     query = cls.all().filter('isComplete =', False).filter('user =', u)
     obj = cls.proximity_fetch(query, oldobj.getPosition()[0], max_results = 1, max_distance = distance)
     if obj is None:
         logging.error("Unknown objects" + str(oldobj) + ":" + str(user))
         return
     if len(obj) == 0:
         for val in query.fetch(1000):
             logging.error(val.toXML())
             logging.error(val.location)
             logging.error(val.location_geocells)
         # Find out where the error is
         logging.error(str(distance))
         pt = oldobj.getPosition()
         pos = pt[0]
         logging.error(pt)
         logging.error(pos)
         return
         
     obj = obj[0]                # Get the first value of the fetch
     # Delete the built object
     obj.delete()            
예제 #2
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def check_save():
    if not os.path.isfile(SAVE_FILE):
        logger.warning(
            "Provided save file does not exist.  Creating a new one.")
        db.create_tables(ALL_MODELS)
        Constants.create(
            save_version=SAVE_VERSION,
            secret_token=secrets.token_bytes(32),
            api_token=secrets.token_hex(32),
        )
    else:
        try:
            save_version = get_save_version()
        except:
            logger.error(
                "Database does not conform to expected format. Failed to start."
            )
            sys.exit(2)
        if save_version != SAVE_VERSION:
            logger.warning(
                f"Save format {save_version} does not match the required version {SAVE_VERSION}!"
            )
            logger.warning("Attempting upgrade")

        updated = False
        while save_version != SAVE_VERSION:
            updated = True
            save_backups = Path("save_backups")
            if not save_backups.is_dir():
                save_backups.mkdir()
            backup_path = (save_backups.resolve() /
                           f"{Path(SAVE_FILE).name}.{save_version}")
            logger.warning(f"Backing up old save as {backup_path}")
            shutil.copyfile(SAVE_FILE, backup_path)
            logger.warning(f"Starting upgrade to {save_version + 1}")
            try:
                upgrade(save_version)
            except Exception as e:
                logger.exception(e)
                logger.error("ERROR: Could not start server")
                sys.exit(2)
                break
            else:
                logger.warning(f"Upgrade to {save_version + 1} done.")
                save_version = get_save_version()
        else:
            if updated:
                logger.warning("Upgrade process completed successfully.")
예제 #3
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 def logoutUser(self, user):
     """Logout the user and broadcast to all other users"""
     # Get the state and id
     channelId = self.channelId   
     jsonState = self.state 
     level = Constants.levelFromExperience(user)
     del jsonState.state[user.alias]
 
     # The key value pair
     addMessage = {"LOGOUT": {'alias' : user.alias, 'level' : level }}
     
     # Login in the user on all of the channels
     for alias, _ in jsonState.state.iteritems():
         # Everyone except the user logging in
         if user.alias != alias:
             channel.send_message(channelId + alias, simplejson.dumps(addMessage))
     
     
     # Save the object
     self.state.put()
     
     # Cache 
     client = memcache.Client()
     if not client.replace("users", self.state):
         if not client.set("users", self.state):
             logging.error("Memcache failed in UserManager")
예제 #4
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 def loginUser(self, user):
     """Add a user to the user list"""
     # Get the state and id
     channelId = self.channelId  
     level = Constants.levelFromExperience(user)  
     jsonState = self.state
     jsonState.state[user.alias] = level
 
     # The key value pair
     addMessage = {"LOGIN": {'alias' : user.alias, 'level' : level }}
     
     # Login in the user on all of the channels
     for alias, _ in jsonState.state.iteritems():
         # Everyone except the user logging in
         if user.alias != alias:
             channel.send_message(channelId + alias, simplejson.dumps(addMessage))
     
     # Send the current state to the addMessage
     allState = {'LOGIN' : [{'alias': alias, 'level':level} for alias, level in jsonState.state.iteritems()]}
     message = simplejson.dumps(allState)
     channel.send_message(channelId + user.alias,message)
     
     # Save the object
     self.state.put()
     
     # Cache 
     client = memcache.Client()
     if not client.replace("users", self.state):
         if not client.set("users", self.state):
             logging.error("Memcache failed in UserManager")
예제 #5
0
파일: save.py 프로젝트: AchielC/PlanarAlly
def check_save():
    if not os.path.isfile(SAVE_FILE):
        logger.warning("Provided save file does not exist.  Creating a new one.")
        db.create_tables(ALL_MODELS)
        Constants.create(
            save_version=SAVE_VERSION, secret_token=secrets.token_bytes(32)
        )
    else:
        constants = Constants.get_or_none()
        if constants is None:
            logger.error(
                "Database does not conform to expected format. Failed to start."
            )
            sys.exit(2)
        if constants.save_version != SAVE_VERSION:
            logger.warning(
                f"Save format {constants.save_version} does not match the required version {SAVE_VERSION}!"
            )
            logger.warning("Attempting upgrade")

        updated = False
        while constants.save_version != SAVE_VERSION:
            updated = True
            logger.warning(
                f"Backing up old save as {SAVE_FILE}.{constants.save_version}"
            )
            shutil.copyfile(SAVE_FILE, f"{SAVE_FILE}.{constants.save_version}")
            logger.warning(f"Starting upgrade to {constants.save_version + 1}")
            try:
                upgrade(constants.save_version)
            except Exception as e:
                logger.exception(e)
                logger.error("ERROR: Could not start server")
                sys.exit(2)
                break
            else:
                logger.warning(f"Upgrade to {constants.save_version + 1} done.")
                constants = Constants.get()
        else:
            if updated:
                logger.warning("Upgrade process completed successfully.")
예제 #6
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def upgrade(version):
    if version == 3:
        from models import GridLayer
        db.execute_sql(
            "CREATE TEMPORARY TABLE _grid_layer AS SELECT * FROM grid_layer")
        db.drop_tables([GridLayer])
        db.create_tables([GridLayer])
        db.execute_sql("INSERT INTO grid_layer SELECT * FROM _grid_layer")
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 4:
        from models import Location
        db.foreign_keys = False
        db.execute_sql(
            "CREATE TEMPORARY TABLE _location AS SELECT * FROM location")
        db.execute_sql("DROP TABLE location")
        db.create_tables([Location])
        db.execute_sql("INSERT INTO location SELECT * FROM _location")
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    else:
        raise Exception(
            f"No upgrade code for save format {version} was found.")
예제 #7
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def check_save():
    if not os.path.isfile(SAVE_FILE):
        logger.warning(
            "Provided save file does not exist.  Creating a new one.")
        db.create_tables(ALL_MODELS)
        Constants.create(save_version=SAVE_VERSION,
                         secret_token=secrets.token_bytes(32))
    else:
        constants = Constants.get_or_none()
        if constants is None:
            logger.error(
                "Database does not conform to expected format. Failed to start."
            )
            sys.exit(2)
        if constants.save_version != SAVE_VERSION:
            logger.warning(
                f"Save version {constants.save_version} does not match expected {SAVE_VERSION}!"
            )
            logger.info(
                "Conversion scripts can potentially be applied to upgrade.  For more information see the docs."
            )
            sys.exit(2)
예제 #8
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 def satisfiesMinimumDistance(self, latlng):
     """If the tower satisfies the minimum distance from other towers, then it is true"""
     pt = db.GeoPt(latlng['latitude'], latlng['longitude'])
     
     
     # Find if their is a tower distance away from the pt. If there is even one object, this
     # function will return  a value, and make satisfiesMinimumDistance false.
     for level in Tower.getTowerLevelRange():
         filter = Tower.all().filter('Level =', level)
         box = Constants.getBoundingBoxPerLevel(level, pt)
         value = Tower.bounding_box_fetch(filter, box, max_results = 1)
         logging.error(len(value))
         if len(value) != 0:
             return False
     return True
예제 #9
0
파일: save.py 프로젝트: AchielC/PlanarAlly
def upgrade(version):
    if version < 13:
        raise Exception(
            f"Upgrade code for this version is >1 year old and is no longer in the active codebase to reduce clutter. You can still find this code on github, contact me for more info."
        )
    elif version == 13:
        from models import LocationUserOption, MultiLine, Polygon

        db.foreign_keys = False
        migrator = SqliteMigrator(db)

        migrate(migrator.drop_column("location_user_option", "active_filters"))

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 14:
        db.foreign_keys = False
        migrator = SqliteMigrator(db)

        from models import GridLayer, Layer

        db.execute_sql(
            'CREATE TABLE IF NOT EXISTS "base_rect" ("shape_id" TEXT NOT NULL PRIMARY KEY, "width" REAL NOT NULL, "height" REAL NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)'
        )
        db.execute_sql(
            'CREATE TABLE IF NOT EXISTS "shape_type" ("shape_id" TEXT NOT NULL PRIMARY KEY, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)'
        )

        shape_types = [
            "asset_rect",
            "circle",
            "circular_token",
            "line",
            "multi_line",
            "polygon",
            "rect",
            "text",
        ]
        with db.atomic():
            for table in shape_types:
                db.execute_sql(
                    f"CREATE TEMPORARY TABLE _{table} AS SELECT * FROM {table}"
                )
                db.execute_sql(f"DROP TABLE {table}")
            for query in [
                'CREATE TABLE IF NOT EXISTS "asset_rect" ("shape_id" TEXT NOT NULL PRIMARY KEY, "width" REAL NOT NULL, "height" REAL NOT NULL, "src" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "circle" ("shape_id" TEXT NOT NULL PRIMARY KEY, "radius" REAL NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "circular_token" ("shape_id" TEXT NOT NULL PRIMARY KEY, "radius" REAL NOT NULL, "text" TEXT NOT NULL, "font" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "line" ("shape_id" TEXT NOT NULL PRIMARY KEY, "x2" REAL NOT NULL, "y2" REAL NOT NULL, "line_width" INTEGER NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "multi_line" ("shape_id" TEXT NOT NULL PRIMARY KEY, "line_width" INTEGER NOT NULL, "points" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "polygon" ("shape_id" TEXT NOT NULL PRIMARY KEY, "vertices" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "rect" ("shape_id" TEXT NOT NULL PRIMARY KEY, "width" REAL NOT NULL, "height" REAL NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "text" ("shape_id" TEXT NOT NULL PRIMARY KEY, "text" TEXT NOT NULL, "font" TEXT NOT NULL, "angle" REAL NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
            ]:
                db.execute_sql(query)
            for table in shape_types:
                db.execute_sql(
                    f"INSERT INTO {table} SELECT _{table}.* FROM _{table} INNER JOIN shape ON shape.uuid = _{table}.uuid"
                )
        field = ForeignKeyField(Layer, Layer.id, null=True)
        with db.atomic():
            migrate(migrator.add_column("grid_layer", "layer_id", field))
            for gl in GridLayer.select():
                l = Layer.get_or_none(id=gl.id)
                if l:
                    gl.layer = l
                    gl.save()
                else:
                    gl.delete_instance()
            migrate(migrator.add_not_null("grid_layer", "layer_id"))

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 15:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("room", "is_locked", BooleanField(default=False))
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 16:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column(
                    "location", "unit_size_unit", TextField(default="ft")
                )
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 17:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column(
                    "polygon", "open_polygon", BooleanField(default=False)
                ),
                migrator.add_column("polygon", "line_width", IntegerField(default=2)),
            )
            db.execute_sql(
                "INSERT INTO polygon (shape_id, line_width, vertices, open_polygon) SELECT shape_id, line_width, points, 1 FROM multi_line"
            )
            db.execute_sql("DROP TABLE multi_line")
            db.execute_sql(
                "UPDATE shape SET type_ = 'polygon' WHERE type_ = 'multiline'"
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 18:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(migrator.add_column("user", "email", TextField(null=True)))
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 19:
        db.foreign_keys = False
        migrator = SqliteMigrator(db)

        db.execute_sql(
            'CREATE TABLE IF NOT EXISTS "floor" ("id" INTEGER NOT NULL PRIMARY KEY, "location_id" INTEGER NOT NULL, "name" TEXT, "index" INTEGER NOT NULL, FOREIGN KEY ("location_id") REFERENCES "location" ("id") ON DELETE CASCADE)'
        )
        db.execute_sql(
            'INSERT INTO floor (location_id, name, "index") SELECT id, "ground", 0 FROM location'
        )

        with db.atomic():
            db.execute_sql("CREATE TEMPORARY TABLE _layer AS SELECT * FROM layer")
            db.execute_sql("DROP TABLE layer")
            db.execute_sql(
                'CREATE TABLE IF NOT EXISTS "layer" ("id" INTEGER NOT NULL PRIMARY KEY, "floor_id" INTEGER NOT NULL, "name" TEXT NOT NULL, "type_" TEXT NOT NULL, "player_visible" INTEGER NOT NULL, "player_editable" INTEGER NOT NULL, "selectable" INTEGER NOT NULL, "index" INTEGER NOT NULL, FOREIGN KEY ("floor_id") REFERENCES "floor" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'INSERT INTO layer (id, floor_id, name, type_, player_visible, player_editable, selectable, "index") SELECT _layer.id, floor.id, _layer.name, type_, player_visible, player_editable, selectable, _layer."index" FROM _layer INNER JOIN floor ON floor.location_id = _layer.location_id'
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 20:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("shape", "badge", IntegerField(default=1)),
                migrator.add_column("shape", "show_badge", BooleanField(default=False)),
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 21:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("user", "invert_alt", BooleanField(default=False))
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 22:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                'CREATE TABLE IF NOT EXISTS "marker" ("id" INTEGER NOT NULL PRIMARY KEY, "shape_id" TEXT NOT NULL, "user_id" INTEGER NOT NULL, "location_id" INTEGER NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape"("uuid") ON DELETE CASCADE, FOREIGN KEY ("location_id") REFERENCES "location" ("id") ON DELETE CASCADE, FOREIGN KEY ("user_id") REFERENCES "user"("id") ON DELETE CASCADE)'
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 23:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column(
                    "shape_owner", "edit_access", BooleanField(default=True)
                ),
                migrator.add_column(
                    "shape_owner", "vision_access", BooleanField(default=True)
                ),
                migrator.add_column(
                    "shape", "default_edit_access", BooleanField(default=False)
                ),
                migrator.add_column(
                    "shape", "default_vision_access", BooleanField(default=False)
                ),
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 24:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                'DELETE FROM "player_room" WHERE id IN (SELECT pr.id FROM "player_room" pr INNER JOIN "room" r ON r.id = pr.room_id WHERE r.creator_id = pr.player_id )'
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 25:
        # Move Room.dm_location and Room.player_location to PlayerRoom.active_location
        # Add PlayerRoom.role
        # Add order index on location
        from models import Location

        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column(
                    "player_room",
                    "active_location_id",
                    ForeignKeyField(
                        Location,
                        Location.id,
                        backref="players",
                        on_delete="CASCADE",
                        null=True,
                    ),
                ),
                migrator.add_column("player_room", "role", IntegerField(default=0)),
                migrator.add_column("location", "index", IntegerField(default=0)),
            )
            db.execute_sql(
                "UPDATE player_room SET active_location_id = (SELECT location.id FROM room INNER JOIN location ON room.id = location.room_id WHERE location.name = room.player_location AND room.id = player_room.room_id)"
            )
            db.execute_sql(
                "INSERT INTO player_room (role, player_id, room_id, active_location_id) SELECT 1, u.id, r.id, l.id FROM room r INNER JOIN user u ON u.id = r.creator_id INNER JOIN location l ON l.name = r.dm_location AND l.room_id = r.id"
            )
            db.execute_sql(
                "UPDATE location SET 'index' = (SELECT COUNT(*) + 1 FROM location l INNER JOIN room r WHERE location.room_id = r.id AND l.room_id = r.id AND l.'index' != 0) "
            )
            migrate(
                migrator.drop_column("room", "player_location"),
                migrator.drop_column("room", "dm_location"),
                migrator.add_not_null("player_room", "active_location_id"),
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    elif version == 26:
        # Move Location settings to a separate LocationSettings table
        # Add a default_settings field to Room that refers to such a LocationSettings row
        from models import LocationOptions

        migrator = SqliteMigrator(db)

        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                'CREATE TABLE IF NOT EXISTS "location_options" ("id" INTEGER NOT NULL PRIMARY KEY, "unit_size" REAL DEFAULT 5, "unit_size_unit" TEXT DEFAULT "ft", "use_grid" INTEGER DEFAULT 1, "full_fow" INTEGER DEFAULT 0, "fow_opacity" REAL DEFAULT 0.3, "fow_los" INTEGER DEFAULT 0, "vision_mode" TEXT DEFAULT "triangle", "vision_min_range" REAL DEFAULT 1640, "vision_max_range" REAL DEFAULT 3281, "grid_size" INTEGER DEFAULT 50)'
            )
            migrate(
                migrator.add_column(
                    "location",
                    "options_id",
                    ForeignKeyField(
                        LocationOptions,
                        LocationOptions.id,
                        on_delete="CASCADE",
                        null=True,
                    ),
                ),
                migrator.add_column(
                    "room",
                    "default_options_id",
                    ForeignKeyField(
                        LocationOptions,
                        LocationOptions.id,
                        on_delete="CASCADE",
                        null=True,
                    ),
                ),
            )
            data = db.execute_sql(
                """SELECT l.id, r.id, l.unit_size, l.unit_size_unit, l.use_grid, l.full_fow, l.fow_opacity, l.fow_los, l.vision_mode, l.vision_min_range, l.vision_max_range, g.size AS grid_size
                FROM location l
                INNER JOIN room r
                INNER JOIN floor f ON f.id = (SELECT id FROM floor f2 WHERE f2.location_id = l.id LIMIT 1)
                INNER JOIN layer la
                INNER JOIN grid_layer g
                WHERE r.id = l.room_id AND la.floor_id = f.id AND la.name = 'grid' AND g.layer_id = la.id"""
            )
            room_options = {}
            descr = data.description
            mapping = {
                "unit_size": 0,
                "unit_size_unit": 1,
                "use_grid": 2,
                "full_fow": 3,
                "fow_opacity": 4,
                "fow_los": 5,
                "vision_mode": 6,
                "vision_min_range": 7,
                "vision_max_range": 8,
                "grid_size": 9,
            }
            default_row = [5, "ft", True, False, 0.3, False, "triangle", 1640, 3281, 50]
            for row in data.fetchall():
                new_row = [None, None, None, None, None, None, None, None, None, None]

                if row[1] not in room_options:
                    room_options[row[1]] = db.execute_sql(
                        "INSERT INTO location_options (unit_size, unit_size_unit, use_grid, full_fow, fow_opacity, fow_los, vision_mode, vision_min_range, vision_max_range, grid_size) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)",
                        default_row,
                    ).lastrowid
                    db.execute_sql(
                        f"UPDATE room SET default_options_id = {room_options[row[1]]} WHERE id = {row[1]}"
                    )
                for col, val in zip(descr, row):
                    if col[0] in ["id", "room_id"]:
                        continue
                    idx = mapping[col[0]]
                    if val != default_row[idx]:
                        new_row[idx] = val

                loc_id = db.execute_sql(
                    "INSERT INTO location_options (unit_size, unit_size_unit, use_grid, full_fow, fow_opacity, fow_los, vision_mode, vision_min_range, vision_max_range, grid_size) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)",
                    new_row,
                ).lastrowid
                db.execute_sql(
                    f"UPDATE location SET options_id = {loc_id} WHERE id = {row[0]}"
                )

            migrate(
                migrator.add_not_null("room", "default_options_id"),
                migrator.drop_column("location", "unit_size"),
                migrator.drop_column("location", "unit_size_unit"),
                migrator.drop_column("location", "use_grid"),
                migrator.drop_column("location", "full_fow"),
                migrator.drop_column("location", "fow_opacity"),
                migrator.drop_column("location", "fow_los"),
                migrator.drop_column("location", "vision_mode"),
                migrator.drop_column("location", "vision_min_range"),
                migrator.drop_column("location", "vision_max_range"),
                migrator.drop_index("location", "location_room_id_name"),
            )
            db.execute_sql("DROP TABLE 'grid_layer'")

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version + 1).execute()
    else:
        raise Exception(f"No upgrade code for save format {version} was found.")
예제 #10
0
def upgrade(version):
    if version == 3:
        from models import GridLayer

        db.execute_sql(
            "CREATE TEMPORARY TABLE _grid_layer AS SELECT * FROM grid_layer")
        db.drop_tables([GridLayer])
        db.create_tables([GridLayer])
        db.execute_sql("INSERT INTO grid_layer SELECT * FROM _grid_layer")
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 4:
        from models import Location

        db.foreign_keys = False
        db.execute_sql(
            "CREATE TEMPORARY TABLE _location AS SELECT * FROM location")
        db.execute_sql("DROP TABLE location")
        db.create_tables([Location])
        db.execute_sql("INSERT INTO location SELECT * FROM _location")
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 5:
        from models import Layer

        migrator = SqliteMigrator(db)
        field = ForeignKeyField(Layer,
                                Layer.id,
                                backref="active_users",
                                null=True)
        with db.atomic():
            migrate(
                migrator.add_column("location_user_option", "active_layer_id",
                                    field))
            from models import LocationUserOption

            LocationUserOption._meta.add_field("active_layer", field)
            for luo in LocationUserOption.select():
                luo.active_layer = luo.location.layers.select().where(
                    Layer.name == "tokens")[0]
                luo.save()
            migrate(
                migrator.add_not_null("location_user_option",
                                      "active_layer_id"))
            Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 6:
        migrator = SqliteMigrator(db)
        migrate(
            migrator.drop_not_null("location_user_option", "active_layer_id"))
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 7:
        # Remove shape index unique constraint
        from models import Shape

        db.foreign_keys = False
        db.execute_sql("CREATE TEMPORARY TABLE _shape AS SELECT * FROM shape")
        db.execute_sql("DROP TABLE shape")
        db.create_tables([Shape])
        db.execute_sql("INSERT INTO shape SELECT * FROM _shape")
        db.foreign_keys = True
        # Check all indices and reset to 0 index
        logger.info("Validating all shape indices")
        from models import Layer

        with db.atomic():
            for layer in Layer.select():
                shapes = layer.shapes.order_by(fn.ABS(Shape.index))
                for i, shape in enumerate(shapes):
                    shape.index = i
                    shape.save()
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 8:
        from models import Polygon

        db.create_tables([Polygon])
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 9:
        from models import Location

        db.foreign_keys = False
        migrator = SqliteMigrator(db)
        with db.atomic():
            migrate(
                migrator.add_column("location", "vision_mode",
                                    Location.vision_mode),
                migrator.add_column("location", "vision_min_range",
                                    Location.vision_min_range),
                migrator.add_column("location", "vision_max_range",
                                    Location.vision_max_range),
            )
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    else:
        raise Exception(
            f"No upgrade code for save format {version} was found.")
예제 #11
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def get_secret_token():
    return Constants.get().secret_token
예제 #12
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 def getAllActiveUsers(self):
     """Return all active users"""
     return ArrayCollection([{'alias': u.alias, 'level' : Constants.levelFromExperience(u)} for u in User.all().filter('isLoggedIn =', True).fetch(1000)])
예제 #13
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 def buildObjectComplete(self, oldobj, user, broadcast):
     """Finish the object building"""
     logging.error("buildObjectComplete")
     u =  User.all().filter('FacebookID =', user.FacebookID).get()
     
     # Proximity fetch
     milesToMeters = 1609.4
     distance = Constants.getBaseDistance() * Constants.latToMiles() * milesToMeters
     
     # Find the build object
     cls = oldobj.getClass()
     query = cls.all().filter('isComplete =', False).filter('user ='******'user !=', u)
         for key in u.neighbors:
             neighbor = db.get(key)
             whichObject.filter('user !=', neighbor)
         
       
         for pos in obj.getPosition():
             valueList = gameObject.proximity_fetch(whichObject, pos, max_results = 1000, max_distance = distance)
             if valueList is not None:
                 # Iterate over the results
                 for obj in valueList:
                     otherUser = obj.user
                     if not otherUser in u.neighbors:
                         # Add to both neighbors
                         u.neighbors.append(otherUser.key())
                         otherUser.neighbors.append(u.key())
                         otherUser.put()
     # Put the current user
     u.put()
     
     # Instantiate the game manager, and build the object        
     if broadcast:            
         manager = GameManager(u)
         manager.build(obj)
     return None
예제 #14
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def upgrade(version):
    if version == 3:
        from models import GridLayer

        db.execute_sql("CREATE TEMPORARY TABLE _grid_layer AS SELECT * FROM grid_layer")
        db.drop_tables([GridLayer])
        db.create_tables([GridLayer])
        db.execute_sql("INSERT INTO grid_layer SELECT * FROM _grid_layer")
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 4:
        from models import Location

        db.foreign_keys = False
        db.execute_sql("CREATE TEMPORARY TABLE _location AS SELECT * FROM location")
        db.execute_sql("DROP TABLE location")
        db.create_tables([Location])
        db.execute_sql("INSERT INTO location SELECT * FROM _location")
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 5:
        from models import Layer

        migrator = SqliteMigrator(db)
        field = ForeignKeyField(Layer, Layer.id, backref="active_users", null=True)
        with db.atomic():
            migrate(
                migrator.add_column("location_user_option", "active_layer_id", field)
            )
            from models import LocationUserOption

            LocationUserOption._meta.add_field("active_layer", field)
            for luo in LocationUserOption.select():
                luo.active_layer = luo.location.layers.select().where(
                    Layer.name == "tokens"
                )[0]
                luo.save()
            migrate(migrator.add_not_null("location_user_option", "active_layer_id"))
            Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 6:
        migrator = SqliteMigrator(db)
        migrate(migrator.drop_not_null("location_user_option", "active_layer_id"))
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 7:
        # Remove shape index unique constraint
        from models import Shape

        db.foreign_keys = False
        db.execute_sql("CREATE TEMPORARY TABLE _shape AS SELECT * FROM shape")
        db.execute_sql("DROP TABLE shape")
        db.create_tables([Shape])
        db.execute_sql("INSERT INTO shape SELECT * FROM _shape")
        db.foreign_keys = True
        # Check all indices and reset to 0 index
        logger.info("Validating all shape indices")
        from models import Layer

        with db.atomic():
            for layer in Layer.select():
                shapes = layer.shapes.order_by(fn.ABS(Shape.index))
                for i, shape in enumerate(shapes):
                    shape.index = i
                    shape.save()
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 8:
        from models import Polygon

        db.create_tables([Polygon])
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 9:
        from models import Location

        db.foreign_keys = False
        migrator = SqliteMigrator(db)
        with db.atomic():
            migrate(
                migrator.add_column("location", "vision_mode", Location.vision_mode),
                migrator.add_column(
                    "location", "vision_min_range", Location.vision_min_range
                ),
                migrator.add_column(
                    "location", "vision_max_range", Location.vision_max_range
                ),
            )
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 10:
        from models import Shape

        db.foreign_keys = False
        migrator = SqliteMigrator(db)
        with db.atomic():
            migrate(migrator.add_column("shape", "name_visible", Shape.name_visible))
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 11:
        from models import Label, LocationUserOption, ShapeLabel

        db.foreign_keys = False
        migrator = SqliteMigrator(db)
        with db.atomic():
            db.create_tables([Label, ShapeLabel])
            migrate(
                migrator.add_column(
                    "location_user_option",
                    "active_filters",
                    LocationUserOption.active_filters,
                )
            )
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 12:
        from models import Label, LabelSelection

        db.foreign_keys = False
        migrator = SqliteMigrator(db)
        with db.atomic():
            try:
                migrate(migrator.add_column("label", "category", Label.category))
            except OperationalError as e:
                if e.args[0] != "duplicate column name: category":
                    raise e
            db.create_tables([LabelSelection])
        with db.atomic():
            for label in Label:
                if ":" not in label.name:
                    continue
                cat, *name = label.name.split(":")
                label.category = cat
                label.name = ":".join(name)
                label.save()
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 13:
        from models import LocationUserOption, MultiLine, Polygon

        db.foreign_keys = False
        migrator = SqliteMigrator(db)

        migrate(migrator.drop_column("location_user_option", "active_filters"))

        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 14:
        db.foreign_keys = False
        migrator = SqliteMigrator(db)

        from models import GridLayer, Layer

        db.execute_sql('CREATE TABLE IF NOT EXISTS "base_rect" ("shape_id" TEXT NOT NULL PRIMARY KEY, "width" REAL NOT NULL, "height" REAL NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)')
        db.execute_sql('CREATE TABLE IF NOT EXISTS "shape_type" ("shape_id" TEXT NOT NULL PRIMARY KEY, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)')

        shape_types = [
            "asset_rect",
            "circle",
            "circular_token",
            "line",
            "multi_line",
            "polygon",
            "rect",
            "text",
        ]
        with db.atomic():
            for table in shape_types:
                db.execute_sql(
                    f"CREATE TEMPORARY TABLE _{table} AS SELECT * FROM {table}"
                )
                db.execute_sql(f"DROP TABLE {table}")
            for query in [
                'CREATE TABLE IF NOT EXISTS "asset_rect" ("shape_id" TEXT NOT NULL PRIMARY KEY, "width" REAL NOT NULL, "height" REAL NOT NULL, "src" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "circle" ("shape_id" TEXT NOT NULL PRIMARY KEY, "radius" REAL NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "circular_token" ("shape_id" TEXT NOT NULL PRIMARY KEY, "radius" REAL NOT NULL, "text" TEXT NOT NULL, "font" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "line" ("shape_id" TEXT NOT NULL PRIMARY KEY, "x2" REAL NOT NULL, "y2" REAL NOT NULL, "line_width" INTEGER NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "multi_line" ("shape_id" TEXT NOT NULL PRIMARY KEY, "line_width" INTEGER NOT NULL, "points" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "polygon" ("shape_id" TEXT NOT NULL PRIMARY KEY, "vertices" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "rect" ("shape_id" TEXT NOT NULL PRIMARY KEY, "width" REAL NOT NULL, "height" REAL NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
                'CREATE TABLE IF NOT EXISTS "text" ("shape_id" TEXT NOT NULL PRIMARY KEY, "text" TEXT NOT NULL, "font" TEXT NOT NULL, "angle" REAL NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)',
            ]:
                db.execute_sql(query)
            for table in shape_types:
                db.execute_sql(
                    f"INSERT INTO {table} SELECT _{table}.* FROM _{table} INNER JOIN shape ON shape.uuid = _{table}.uuid"
                )
        field = ForeignKeyField(Layer, Layer.id, null=True)
        with db.atomic():
            migrate(migrator.add_column("grid_layer", "layer_id", field))
            for gl in GridLayer.select():
                l = Layer.get_or_none(id=gl.id)
                if l:
                    gl.layer = l
                    gl.save()
                else:
                    gl.delete_instance()
            migrate(migrator.add_not_null("grid_layer", "layer_id"))

        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    elif version == 15:
        from peewee import BooleanField
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("room", "is_locked", BooleanField(default=False))
            )
        db.foreign_keys = True
        Constants.update(save_version=Constants.save_version + 1).execute()
    else:
        raise Exception(f"No upgrade code for save format {version} was found.")
예제 #15
0
파일: auth.py 프로젝트: jirsat/PlanarAlly
def get_api_token():
    return Constants.get().api_token
예제 #16
0
def upgrade(version):
    if version < 16:
        raise OldVersionException(
            f"Upgrade code for this version is >1 year old and is no longer in the active codebase to reduce clutter. You can still find this code on github, contact me for more info."
        )
    elif version == 16:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("location", "unit_size_unit",
                                    TextField(default="ft")))
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 17:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("polygon", "open_polygon",
                                    BooleanField(default=False)),
                migrator.add_column("polygon", "line_width",
                                    IntegerField(default=2)),
            )
            db.execute_sql(
                "INSERT INTO polygon (shape_id, line_width, vertices, open_polygon) SELECT shape_id, line_width, points, 1 FROM multi_line"
            )
            db.execute_sql("DROP TABLE multi_line")
            db.execute_sql(
                "UPDATE shape SET type_ = 'polygon' WHERE type_ = 'multiline'")
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 18:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(migrator.add_column("user", "email", TextField(null=True)))
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 19:
        db.foreign_keys = False

        db.execute_sql(
            'CREATE TABLE IF NOT EXISTS "floor" ("id" INTEGER NOT NULL PRIMARY KEY, "location_id" INTEGER NOT NULL, "name" TEXT, "index" INTEGER NOT NULL, FOREIGN KEY ("location_id") REFERENCES "location" ("id") ON DELETE CASCADE)'
        )
        db.execute_sql(
            'INSERT INTO floor (location_id, name, "index") SELECT id, "ground", 0 FROM location'
        )

        with db.atomic():
            db.execute_sql(
                "CREATE TEMPORARY TABLE _layer AS SELECT * FROM layer")
            db.execute_sql("DROP TABLE layer")
            db.execute_sql(
                'CREATE TABLE IF NOT EXISTS "layer" ("id" INTEGER NOT NULL PRIMARY KEY, "floor_id" INTEGER NOT NULL, "name" TEXT NOT NULL, "type_" TEXT NOT NULL, "player_visible" INTEGER NOT NULL, "player_editable" INTEGER NOT NULL, "selectable" INTEGER NOT NULL, "index" INTEGER NOT NULL, FOREIGN KEY ("floor_id") REFERENCES "floor" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'INSERT INTO layer (id, floor_id, name, type_, player_visible, player_editable, selectable, "index") SELECT _layer.id, floor.id, _layer.name, type_, player_visible, player_editable, selectable, _layer."index" FROM _layer INNER JOIN floor ON floor.location_id = _layer.location_id'
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 20:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("shape", "badge", IntegerField(default=1)),
                migrator.add_column("shape", "show_badge",
                                    BooleanField(default=False)),
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 21:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("user", "invert_alt",
                                    BooleanField(default=False)))
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 22:
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                'CREATE TABLE IF NOT EXISTS "marker" ("id" INTEGER NOT NULL PRIMARY KEY, "shape_id" TEXT NOT NULL, "user_id" INTEGER NOT NULL, "location_id" INTEGER NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape"("uuid") ON DELETE CASCADE, FOREIGN KEY ("location_id") REFERENCES "location" ("id") ON DELETE CASCADE, FOREIGN KEY ("user_id") REFERENCES "user"("id") ON DELETE CASCADE)'
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 23:
        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column("shape_owner", "edit_access",
                                    BooleanField(default=True)),
                migrator.add_column("shape_owner", "vision_access",
                                    BooleanField(default=True)),
                migrator.add_column("shape", "default_edit_access",
                                    BooleanField(default=False)),
                migrator.add_column("shape", "default_vision_access",
                                    BooleanField(default=False)),
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 24:
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                'DELETE FROM "player_room" WHERE id IN (SELECT pr.id FROM "player_room" pr INNER JOIN "room" r ON r.id = pr.room_id WHERE r.creator_id = pr.player_id )'
            )
        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 25:
        # Move Room.dm_location and Room.player_location to PlayerRoom.active_location
        # Add PlayerRoom.role
        # Add order index on location
        from models import Location

        migrator = SqliteMigrator(db)
        db.foreign_keys = False
        with db.atomic():
            migrate(
                migrator.add_column(
                    "player_room",
                    "active_location_id",
                    ForeignKeyField(
                        Location,
                        Location.id,
                        backref="players",
                        on_delete="CASCADE",
                        null=True,
                    ),
                ),
                migrator.add_column("player_room", "role",
                                    IntegerField(default=0)),
                migrator.add_column("location", "index",
                                    IntegerField(default=0)),
            )
            db.execute_sql(
                "UPDATE player_room SET active_location_id = (SELECT location.id FROM room INNER JOIN location ON room.id = location.room_id WHERE location.name = room.player_location AND room.id = player_room.room_id)"
            )
            db.execute_sql(
                "INSERT INTO player_room (role, player_id, room_id, active_location_id) SELECT 1, u.id, r.id, l.id FROM room r INNER JOIN user u ON u.id = r.creator_id INNER JOIN location l ON l.name = r.dm_location AND l.room_id = r.id"
            )
            db.execute_sql(
                "UPDATE location SET 'index' = (SELECT COUNT(*) + 1 FROM location l INNER JOIN room r WHERE location.room_id = r.id AND l.room_id = r.id AND l.'index' != 0) "
            )
            migrate(
                migrator.drop_column("room", "player_location"),
                migrator.drop_column("room", "dm_location"),
                migrator.add_not_null("player_room", "active_location_id"),
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 26:
        # Move Location settings to a separate LocationSettings table
        # Add a default_settings field to Room that refers to such a LocationSettings row
        from models import LocationOptions

        migrator = SqliteMigrator(db)

        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                'CREATE TABLE IF NOT EXISTS "location_options" ("id" INTEGER NOT NULL PRIMARY KEY, "unit_size" REAL DEFAULT 5, "unit_size_unit" TEXT DEFAULT "ft", "use_grid" INTEGER DEFAULT 1, "full_fow" INTEGER DEFAULT 0, "fow_opacity" REAL DEFAULT 0.3, "fow_los" INTEGER DEFAULT 0, "vision_mode" TEXT DEFAULT "triangle", "vision_min_range" REAL DEFAULT 1640, "vision_max_range" REAL DEFAULT 3281, "grid_size" INTEGER DEFAULT 50)'
            )
            migrate(
                migrator.add_column(
                    "location",
                    "options_id",
                    ForeignKeyField(
                        LocationOptions,
                        LocationOptions.id,
                        on_delete="CASCADE",
                        null=True,
                    ),
                ),
                migrator.add_column(
                    "room",
                    "default_options_id",
                    ForeignKeyField(
                        LocationOptions,
                        LocationOptions.id,
                        on_delete="CASCADE",
                        null=True,
                    ),
                ),
            )
            data = db.execute_sql(
                """SELECT l.id, r.id, l.unit_size, l.unit_size_unit, l.use_grid, l.full_fow, l.fow_opacity, l.fow_los, l.vision_mode, l.vision_min_range, l.vision_max_range, g.size AS grid_size
                FROM location l
                INNER JOIN room r
                INNER JOIN floor f ON f.id = (SELECT id FROM floor f2 WHERE f2.location_id = l.id LIMIT 1)
                INNER JOIN layer la
                INNER JOIN grid_layer g
                WHERE r.id = l.room_id AND la.floor_id = f.id AND la.name = 'grid' AND g.layer_id = la.id"""
            )
            room_options = {}
            descr = data.description
            mapping = {
                "unit_size": 0,
                "unit_size_unit": 1,
                "use_grid": 2,
                "full_fow": 3,
                "fow_opacity": 4,
                "fow_los": 5,
                "vision_mode": 6,
                "vision_min_range": 7,
                "vision_max_range": 8,
                "grid_size": 9,
            }
            default_row = [
                5, "ft", True, False, 0.3, False, "triangle", 1640, 3281, 50
            ]
            for row in data.fetchall():
                new_row = [
                    None, None, None, None, None, None, None, None, None, None
                ]

                if row[1] not in room_options:
                    room_options[row[1]] = db.execute_sql(
                        "INSERT INTO location_options (unit_size, unit_size_unit, use_grid, full_fow, fow_opacity, fow_los, vision_mode, vision_min_range, vision_max_range, grid_size) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)",
                        default_row,
                    ).lastrowid
                    db.execute_sql(
                        f"UPDATE room SET default_options_id = {room_options[row[1]]} WHERE id = {row[1]}"
                    )
                for col, val in zip(descr, row):
                    if col[0] in ["id", "room_id"]:
                        continue
                    idx = mapping[col[0]]
                    if val != default_row[idx]:
                        new_row[idx] = val

                loc_id = db.execute_sql(
                    "INSERT INTO location_options (unit_size, unit_size_unit, use_grid, full_fow, fow_opacity, fow_los, vision_mode, vision_min_range, vision_max_range, grid_size) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)",
                    new_row,
                ).lastrowid
                db.execute_sql(
                    f"UPDATE location SET options_id = {loc_id} WHERE id = {row[0]}"
                )

            migrate(
                migrator.add_not_null("room", "default_options_id"),
                migrator.drop_column("location", "unit_size"),
                migrator.drop_column("location", "unit_size_unit"),
                migrator.drop_column("location", "use_grid"),
                migrator.drop_column("location", "full_fow"),
                migrator.drop_column("location", "fow_opacity"),
                migrator.drop_column("location", "fow_los"),
                migrator.drop_column("location", "vision_mode"),
                migrator.drop_column("location", "vision_min_range"),
                migrator.drop_column("location", "vision_max_range"),
                migrator.drop_index("location", "location_room_id_name"),
            )
            db.execute_sql("DROP TABLE 'grid_layer'")

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 27:
        # Fix broken schemas from older save upgrades
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                "CREATE TEMPORARY TABLE _floor AS SELECT * FROM floor")
            db.execute_sql("DROP TABLE floor")
            db.execute_sql(
                'CREATE TABLE "floor" ("id" INTEGER NOT NULL PRIMARY KEY, "location_id" INTEGER NOT NULL, "index" INTEGER NOT NULL, "name" TEXT NOT NULL, FOREIGN KEY ("location_id") REFERENCES "location" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "floor_location_id" ON "floor" ("location_id")'
            )
            db.execute_sql(
                'INSERT INTO floor (id, location_id, "index", name) SELECT id, location_id, "index", name FROM _floor'
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _label AS SELECT * FROM label")
            db.execute_sql("DROP TABLE label")
            db.execute_sql(
                'CREATE TABLE "label" ("uuid" TEXT NOT NULL PRIMARY KEY, "user_id" INTEGER NOT NULL, "category" TEXT, "name" TEXT NOT NULL, "visible" INTEGER NOT NULL, FOREIGN KEY ("user_id") REFERENCES "user" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "label_user_id" ON "label" ("user_id")'
            )
            db.execute_sql(
                "INSERT INTO label (uuid, user_id, category, name, visible) SELECT uuid, user_id, category, name, visible FROM _label"
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _layer AS SELECT * FROM layer")
            db.execute_sql("DROP TABLE layer")
            db.execute_sql(
                'CREATE TABLE "layer" ("id" INTEGER NOT NULL PRIMARY KEY, "floor_id" INTEGER NOT NULL, "name" TEXT NOT NULL, "type_" TEXT NOT NULL, "player_visible" INTEGER NOT NULL, "player_editable" INTEGER NOT NULL, "selectable" INTEGER NOT NULL, "index" INTEGER NOT NULL, FOREIGN KEY ("floor_id") REFERENCES "floor" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "layer_floor_id" ON "layer" ("floor_id")'
            )
            db.execute_sql(
                'CREATE UNIQUE INDEX "layer_floor_id_index" ON "layer" ("floor_id", "index")'
            )
            db.execute_sql(
                'CREATE UNIQUE INDEX "layer_floor_id_name" ON "layer" ("floor_id", "name")'
            )
            db.execute_sql(
                'INSERT INTO layer (id, floor_id, name, type_, player_visible, player_editable, selectable, "index") SELECT id, floor_id, name, type_, player_visible, player_editable, selectable, "index" FROM _layer'
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _location AS SELECT * FROM location")
            db.execute_sql("DROP TABLE location")
            db.execute_sql(
                'CREATE TABLE "location" ("id" INTEGER NOT NULL PRIMARY KEY, "room_id" INTEGER NOT NULL, "name" TEXT NOT NULL, "options_id" INTEGER, "index" INTEGER NOT NULL, FOREIGN KEY ("room_id") REFERENCES "room" ("id") ON DELETE CASCADE, FOREIGN KEY ("options_id") REFERENCES "location_options" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "location_room_id" ON "location" ("room_id")'
            )
            db.execute_sql(
                'INSERT INTO location (id, room_id, name, options_id, "index") SELECT id, room_id, name, options_id, "index" FROM _location'
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _location_options AS SELECT * FROM location_options"
            )
            db.execute_sql("DROP TABLE location_options")
            db.execute_sql(
                'CREATE TABLE "location_options" ("id" INTEGER NOT NULL PRIMARY KEY, "unit_size" REAL, "unit_size_unit" TEXT, "use_grid" INTEGER, "full_fow" INTEGER, "fow_opacity" REAL, "fow_los" INTEGER, "vision_mode" TEXT, "grid_size" INTEGER, "vision_min_range" REAL, "vision_max_range" REAL)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "location_options_id" ON "location" ("options_id")'
            )
            db.execute_sql(
                "INSERT INTO location_options (id, unit_size, unit_size_unit, use_grid, full_fow, fow_opacity, fow_los, vision_mode, grid_size, vision_min_range, vision_max_range) SELECT id, unit_size, unit_size_unit, use_grid, full_fow, fow_opacity, fow_los, vision_mode, grid_size, vision_min_range, vision_max_range FROM _location_options"
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _location_user_option AS SELECT * FROM location_user_option"
            )
            db.execute_sql("DROP TABLE location_user_option")
            db.execute_sql(
                'CREATE TABLE "location_user_option" ("id" INTEGER NOT NULL PRIMARY KEY, "location_id" INTEGER NOT NULL, "user_id" INTEGER NOT NULL, "pan_x" INTEGER NOT NULL, "pan_y" INTEGER NOT NULL, "zoom_factor" REAL NOT NULL, "active_layer_id" INTEGER, FOREIGN KEY ("location_id") REFERENCES "location" ("id") ON DELETE CASCADE, FOREIGN KEY ("user_id") REFERENCES "user" ("id") ON DELETE CASCADE, FOREIGN KEY ("active_layer_id") REFERENCES "layer" ("id"))'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "location_user_option_location_id" ON "location_user_option" ("location_id")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "location_user_option_active_layer_id" ON "location_user_option" ("active_layer_id")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "location_user_option_user_id" ON "location_user_option" ("user_id")'
            )
            db.execute_sql(
                'CREATE UNIQUE INDEX "location_user_option_location_id_user_id" ON "location_user_option" ("location_id", "user_id")'
            )
            db.execute_sql(
                "INSERT INTO location_user_option (id, location_id, user_id, pan_x, pan_y, zoom_factor, active_layer_id) SELECT id, location_id, user_id, pan_x, pan_y, zoom_factor, active_layer_id FROM _location_user_option"
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _marker AS SELECT * FROM marker")
            db.execute_sql("DROP TABLE marker")
            db.execute_sql(
                'CREATE TABLE "marker" ("id" INTEGER NOT NULL PRIMARY KEY, "shape_id" TEXT NOT NULL, "user_id" INTEGER NOT NULL, "location_id" INTEGER NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE, FOREIGN KEY ("user_id") REFERENCES "user" ("id") ON DELETE CASCADE, FOREIGN KEY ("location_id") REFERENCES "location" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "marker_location_id" ON "marker" ("location_id")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "marker_shape_id" ON "marker" ("shape_id")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "marker_user_id" ON "marker" ("user_id")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "marker_location_id" ON "marker" ("location_id")'
            )
            db.execute_sql(
                "INSERT INTO marker (id, shape_id, user_id, location_id) SELECT id, shape_id, user_id, location_id FROM _marker"
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _player_room AS SELECT * FROM player_room"
            )
            db.execute_sql("DROP TABLE player_room")
            db.execute_sql(
                'CREATE TABLE "player_room" ("id" INTEGER NOT NULL PRIMARY KEY, "role" INTEGER NOT NULL, "player_id" INTEGER NOT NULL, "room_id" INTEGER NOT NULL, "active_location_id" INTEGER NOT NULL, FOREIGN KEY ("player_id") REFERENCES "user" ("id") ON DELETE CASCADE, FOREIGN KEY ("room_id") REFERENCES "room" ("id") ON DELETE CASCADE, FOREIGN KEY ("active_location_id") REFERENCES "location" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "player_room_active_location_id" ON "player_room" ("active_location_id")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "player_room_player_id" ON "player_room" ("player_id")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "player_room_room_id" ON "player_room" ("room_id")'
            )
            db.execute_sql(
                "INSERT INTO player_room (id, role, player_id, room_id, active_location_id) SELECT id, role, player_id, room_id, active_location_id FROM _player_room"
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _polygon AS SELECT * FROM polygon")
            db.execute_sql("DROP TABLE polygon")
            db.execute_sql(
                'CREATE TABLE "polygon" ("shape_id" TEXT NOT NULL PRIMARY KEY, "vertices" TEXT NOT NULL, "line_width" INTEGER NOT NULL, "open_polygon" INTEGER NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE)'
            )
            db.execute_sql(
                "INSERT INTO polygon (shape_id,vertices, line_width, open_polygon) SELECT shape_id,vertices, line_width, open_polygon FROM _polygon"
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _room AS SELECT * FROM room")
            db.execute_sql("DROP TABLE room")
            db.execute_sql(
                'CREATE TABLE "room" ("id" INTEGER NOT NULL PRIMARY KEY, "name" TEXT NOT NULL, "creator_id" INTEGER NOT NULL, "invitation_code" TEXT NOT NULL, "is_locked" INTEGER NOT NULL, "default_options_id" INTEGER NOT NULL, FOREIGN KEY ("creator_id") REFERENCES "user" ("id") ON DELETE CASCADE, FOREIGN KEY ("default_options_id") REFERENCES "location_options" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "room_creator_id" ON "room" ("creator_id")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "room_default_options_id" ON "room" ("default_options_id")'
            )
            db.execute_sql(
                'CREATE UNIQUE INDEX "room_invitation_code" ON "room" ("invitation_code")'
            )
            db.execute_sql(
                'CREATE UNIQUE INDEX "room_name_creator_id" ON "room" ("name", "creator_id")'
            )
            db.execute_sql(
                "INSERT INTO room (id, name, creator_id, invitation_code, is_locked, default_options_id) SELECT id, name, creator_id, invitation_code, is_locked, default_options_id FROM _room"
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _shape AS SELECT * FROM shape")
            db.execute_sql("DROP TABLE shape")
            db.execute_sql(
                'CREATE TABLE "shape" ("uuid" TEXT NOT NULL PRIMARY KEY, "layer_id" INTEGER NOT NULL, "type_" TEXT NOT NULL, "x" REAL NOT NULL, "y" REAL NOT NULL, "name" TEXT, "name_visible" INTEGER NOT NULL, "fill_colour" TEXT NOT NULL, "stroke_colour" TEXT NOT NULL, "vision_obstruction" INTEGER NOT NULL, "movement_obstruction" INTEGER NOT NULL, "is_token" INTEGER NOT NULL, "annotation" TEXT NOT NULL, "draw_operator" TEXT NOT NULL, "index" INTEGER NOT NULL, "options" TEXT, "badge" INTEGER NOT NULL, "show_badge" INTEGER NOT NULL, "default_edit_access" INTEGER NOT NULL, "default_vision_access" INTEGER NOT NULL, FOREIGN KEY ("layer_id") REFERENCES "layer" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "shape_layer_id" ON "shape" ("layer_id")'
            )
            db.execute_sql(
                'INSERT INTO shape (uuid, layer_id, type_, x, y, name, name_visible, fill_colour, stroke_colour, vision_obstruction, movement_obstruction, is_token, annotation, draw_operator, "index", options, badge, show_badge, default_edit_access, default_vision_access) SELECT uuid, layer_id, type_, x, y, name, name_visible, fill_colour, stroke_colour, vision_obstruction, movement_obstruction, is_token, annotation, draw_operator, "index", options, badge, show_badge, default_edit_access, default_vision_access FROM _shape'
            )

            db.execute_sql(
                "CREATE TEMPORARY TABLE _user AS SELECT * FROM user")
            db.execute_sql("DROP TABLE user")
            db.execute_sql(
                'CREATE TABLE "user" ("id" INTEGER NOT NULL PRIMARY KEY, "name" TEXT NOT NULL, "email" TEXT, "password_hash" TEXT NOT NULL, "fow_colour" TEXT NOT NULL, "grid_colour" TEXT NOT NULL, "ruler_colour" TEXT NOT NULL, "invert_alt" INTEGER NOT NULL)'
            )
            db.execute_sql(
                "INSERT INTO user (id, name, email, password_hash, fow_colour, grid_colour, ruler_colour, invert_alt) SELECT id, name, email, password_hash, fow_colour, grid_colour, ruler_colour, invert_alt FROM _user"
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 28:
        # Add invisibility toggle to shapes
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                "ALTER TABLE shape ADD COLUMN is_invisible INTEGER NOT NULL DEFAULT 0"
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 29:
        # Add movement access permission
        migrator = SqliteMigrator(db)

        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                "ALTER TABLE shape ADD COLUMN default_movement_access INTEGER NOT NULL DEFAULT 0"
            )
            db.execute_sql(
                "ALTER TABLE shape_owner ADD COLUMN movement_access INTEGER")
            db.execute_sql(
                "UPDATE shape_owner SET movement_access = CASE WHEN edit_access = 0 THEN 0 ELSE 1 END"
            )

            migrate(migrator.add_not_null("shape_owner", "movement_access"), )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 30:
        # Add spawn locations
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                'ALTER TABLE location_options ADD COLUMN spawn_locations TEXT NOT NULL DEFAULT "[]"'
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 31:
        # Add shape movement lock
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                "ALTER TABLE shape ADD COLUMN is_locked INTEGER NOT NULL DEFAULT 0"
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 32:
        # Add Shape.angle and Shape.stroke_width
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                "ALTER TABLE shape ADD COLUMN angle INTEGER NOT NULL DEFAULT 0"
            )
            db.execute_sql(
                "ALTER TABLE shape ADD COLUMN stroke_width INTEGER NOT NULL DEFAULT 2"
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 33:
        # Add Floor.player_visible
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                "ALTER TABLE floor ADD COLUMN player_visible INTEGER NOT NULL DEFAULT 1"
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 34:
        # Fix Floor.index
        db.foreign_keys = False
        with db.atomic():
            data = db.execute_sql("SELECT id FROM location")
            for location_id in data.fetchall():
                db.execute_sql(
                    f"UPDATE floor SET 'index' = (SELECT COUNT(*)-1 FROM floor f WHERE f.location_id = {location_id[0]} AND f.id <= floor.id ) WHERE location_id = {location_id[0]}"
                )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 35:
        # Move grid size to client options
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                "CREATE TEMPORARY TABLE _location_options AS SELECT * FROM location_options"
            )
            db.execute_sql("DROP TABLE location_options")
            db.execute_sql(
                'CREATE TABLE "location_options" ("id" INTEGER NOT NULL PRIMARY KEY, "unit_size" REAL, "unit_size_unit" TEXT, "use_grid" INTEGER, "full_fow" INTEGER, "fow_opacity" REAL, "fow_los" INTEGER, "vision_mode" TEXT, "vision_min_range" REAL, "vision_max_range" REAL, "spawn_locations" TEXT NOT NULL DEFAULT "[]")'
            )
            db.execute_sql(
                'CREATE INDEX IF NOT EXISTS "location_options_id" ON "location" ("options_id")'
            )
            db.execute_sql(
                "INSERT INTO location_options (id, unit_size, unit_size_unit, use_grid, full_fow, fow_opacity, fow_los, vision_mode, vision_min_range, vision_max_range, spawn_locations) SELECT id, unit_size, unit_size_unit, use_grid, full_fow, fow_opacity, fow_los, vision_mode, vision_min_range, vision_max_range, spawn_locations FROM _location_options"
            )
            db.execute_sql(
                "ALTER TABLE user ADD COLUMN grid_size INTEGER NOT NULL DEFAULT 50"
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 36:
        # Change polygon vertices format from { x: number, y: number } to number[]
        db.foreign_keys = False
        with db.atomic():
            data = db.execute_sql("SELECT shape_id, vertices FROM polygon")
            for row in data.fetchall():
                try:
                    vertices = json.loads(row[1])
                    if len(vertices) == 0 or isinstance(vertices[0], list):
                        continue
                    vertices = json.dumps([[v["x"], v["y"]] for v in vertices])
                    db.execute_sql(
                        f"UPDATE 'polygon' SET 'vertices' = '{vertices}' WHERE 'shape_id' = '{row[0]}'"
                    )
                except json.decoder.JSONDecodeError:
                    print(f"Failed to update polygon vertices! {row}")

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 37:
        # Change shape.angle from integer field to float field
        db.foreign_keys = False
        with db.atomic():
            db.execute_sql(
                "CREATE TEMPORARY TABLE _shape AS SELECT * FROM shape")
            db.execute_sql("DROP TABLE shape")
            db.execute_sql(
                'CREATE TABLE IF NOT EXISTS "shape" ("uuid" TEXT NOT NULL PRIMARY KEY, "layer_id" INTEGER NOT NULL, "type_" TEXT NOT NULL, "x" REAL NOT NULL, "y" REAL NOT NULL, "name" TEXT, "name_visible" INTEGER NOT NULL, "fill_colour" TEXT NOT NULL, "stroke_colour" TEXT NOT NULL, "vision_obstruction" INTEGER NOT NULL, "movement_obstruction" INTEGER NOT NULL, "is_token" INTEGER NOT NULL, "annotation" TEXT NOT NULL, "draw_operator" TEXT NOT NULL, "index" INTEGER NOT NULL, "options" TEXT, "badge" INTEGER NOT NULL, "show_badge" INTEGER NOT NULL, "default_edit_access" INTEGER NOT NULL, "default_vision_access" INTEGER NOT NULL, is_invisible INTEGER NOT NULL DEFAULT 0, default_movement_access INTEGER NOT NULL DEFAULT 0, is_locked INTEGER NOT NULL DEFAULT 0, angle REAL NOT NULL DEFAULT 0, stroke_width INTEGER NOT NULL DEFAULT 2, FOREIGN KEY ("layer_id") REFERENCES "layer" ("id") ON DELETE CASCADE)'
            )
            db.execute_sql(
                'CREATE INDEX "shape_layer_id" ON "shape" ("layer_id")')
            db.execute_sql(
                "INSERT INTO shape (uuid, layer_id, type_, x, y, name, name_visible, fill_colour, stroke_colour, vision_obstruction, movement_obstruction, is_token, annotation, draw_operator, 'index', options, badge, show_badge, default_edit_access, default_vision_access, is_invisible, default_movement_access, is_locked, angle, stroke_width) SELECT uuid, layer_id, type_, x, y, name, name_visible, fill_colour, stroke_colour, vision_obstruction, movement_obstruction, is_token, annotation, draw_operator, 'index', options, badge, show_badge, default_edit_access, default_vision_access, is_invisible, default_movement_access, is_locked, angle, stroke_width FROM _shape"
            )
            db.execute_sql(
                "CREATE TEMPORARY TABLE _text AS SELECT * FROM text")
            db.execute_sql("DROP TABLE text")
            db.execute_sql(
                'CREATE TABLE IF NOT EXISTS "text" ("shape_id" TEXT NOT NULL PRIMARY KEY, "text" TEXT NOT NULL, "font" TEXT NOT NULL, FOREIGN KEY ("shape_id") REFERENCES "shape" ("uuid") ON DELETE CASCADE);'
            )
            db.execute_sql(
                "INSERT INTO text (shape_id, text, font) SELECT shape_id, text, font FROM _text"
            )

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 38:
        # Change polygon vertices format from { x: number, y: number } to number[]
        db.foreign_keys = False
        with db.atomic():
            data = db.execute_sql("SELECT shape_id, vertices FROM polygon")
            for row in data.fetchall():
                try:
                    vertices = json.loads(row[1])
                    if len(vertices) == 0 or isinstance(vertices[0], list):
                        continue
                    vertices = json.dumps([[v["x"], v["y"]] for v in vertices])
                    db.execute_sql(
                        f"UPDATE polygon SET vertices = '{vertices}' WHERE shape_id = '{row[0]}'"
                    )
                except json.decoder.JSONDecodeError:
                    print(f"Failed to update polygon vertices! {row}")

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    elif version == 39:
        # Fix Shape.index being set to 'index'
        from models import Layer

        db.foreign_keys = False
        with db.atomic():
            with db.atomic():
                for layer in Layer.select():
                    shapes = layer.shapes.select()
                    for i, shape in enumerate(shapes):
                        shape.index = i
                        shape.save()

        db.foreign_keys = True
        Constants.get().update(save_version=Constants.save_version +
                               1).execute()
    else:
        raise UnknownVersionException(
            f"No upgrade code for save format {version} was found.")