def generate_map(self):
        """Generates a map."""

        #load map
        self.db("ATTACH ':memory:' AS map")
        #...
        self.world = World(self)
        self.world._init(self.db)

        #setup view
        self.view.center(((self.world.max_x - self.world.min_x) / 2.0),
                         ((self.world.max_y - self.world.min_y) / 2.0))
Example #2
0
	def load(self, savegame, players, is_scenario=False, campaign={}):
		"""Loads a map.
		@param savegame: path to the savegame database.
		@param players: iterable of dictionaries containing id, name, color and local
		@param is_scenario: Bool whether the loaded map is a scenario or not
		"""
		if is_scenario:
			# savegame is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, savegame)
			savegame = os.path.join(SavegameManager.maps_dir, \
			                        self.scenario_eventhandler.get_map_file())
		self.campaign = campaign

		self.log.debug("Session: Loading from %s", savegame)
		savegame_db = SavegameAccessor(savegame) # Initialize new dbreader
		try:
			# load how often the game has been saved (used to know the difference between
			# a loaded and a new game)
			self.savecounter = SavegameManager.get_metadata(savegame)['savecounter']
		except KeyError:
			self.savecounter = 0

		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db)
		self.view.load(savegame_db) # load view
		if not self.is_game_loaded():
			# NOTE: this must be sorted before iteration, cause there is no defined order for
			#       iterating a dict, and it must happen in the same order for mp games.
			for i in sorted(players):
				self.world.setup_player(i['id'], i['name'], i['color'], i['local'])
			center = self.world.init_new_world()
			self.view.center(center[0], center[1])
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might me old scheduled ticks).
		self.ingame_gui.load(savegame_db) # load the old gui positions and stuff

		for instance_id in savegame_db("SELECT id FROM selected WHERE `group` IS NULL"): # Set old selected instance
			obj = WorldObject.get_object_by_id(instance_id[0])
			self.selected_instances.add(obj)
			obj.select()
		for group in xrange(len(self.selection_groups)): # load user defined unit groups
			for instance_id in savegame_db("SELECT id FROM selected WHERE `group` = ?", group):
				self.selection_groups[group].add(WorldObject.get_object_by_id(instance_id[0]))

		# cursor has to be inited last, else player interacts with a not inited world with it.
		self.cursor = SelectionTool(self)
		self.cursor.apply_select() # Set cursor correctly, menus might need to be opened.

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		"""
Example #3
0
	def generate_map(self):
		"""Generates a map."""

		#load map
		self.db("ATTACH ':memory:' AS map")
		#...
		self.world = World(self)
		self.world._init(self.db)

		#setup view
		self.view.center(((self.world.max_x - self.world.min_x) / 2.0), ((self.world.max_y - self.world.min_y) / 2.0))
Example #4
0
	def load(self, savegame, players):
		"""
		Stripped version of the original code. We don't need to load selections,
		or a scenario, setting up the gui or view.
		"""
		self.savegame = savegame
		self.savegame_db = SavegameAccessor(self.savegame)

		self.world = World(self)
		self.world._init(self.savegame_db)
		for i in sorted(players):
			self.world.setup_player(i['id'], i['name'], i['color'], i['local'], i['is_ai'], i['difficulty'])
		self.manager.load(self.savegame_db)
Example #5
0
	def load(self, options):
		"""Loads a map. Key method for starting a game."""
		"""
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialized.
		"""
		if options.is_scenario:
			# game_identifier is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, options.game_identifier)
			# scenario maps can be normal maps or scenario maps:
			map_filename = self.scenario_eventhandler.get_map_file()
			options.game_identifier = os.path.join(SavegameManager.scenario_maps_dir, map_filename)
			if not os.path.exists(options.game_identifier):
				options.game_identifier = os.path.join(SavegameManager.maps_dir, map_filename)
			options.is_map = True

		self.log.debug("Session: Loading from %s", options.game_identifier)
		savegame_db = SavegameAccessor(options.game_identifier, options.is_map, options) # Initialize new dbreader
		savegame_data = SavegameManager.get_metadata(savegame_db.db_path)
		self.view.resize_layers(savegame_db)

		# load how often the game has been saved (used to know the difference between
		# a loaded and a new game)
		self.savecounter = savegame_data.get('savecounter', 0)

		if savegame_data.get('rng_state', None):
			rng_state_list = json.loads(savegame_data['rng_state'])
			# json treats tuples as lists, but we need tuples here, so convert back
			def rec_list_to_tuple(x):
				if isinstance(x, list):
					return tuple(rec_list_to_tuple(i) for i in x)
				else:
					return x
			rng_state_tuple = rec_list_to_tuple(rng_state_list)
			# changing the rng is safe for mp, as all players have to have the same map
			self.random.setstate(rng_state_tuple)

		LoadingProgress.broadcast(self, 'session_create_world')
		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db, options.force_player_id, disasters_enabled=options.disasters_enabled)
		self.view.load(savegame_db, self.world) # load view
		if not self.is_game_loaded():
			options.init_new_world(self)
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might be old scheduled ticks).
		LoadingProgress.broadcast(self, "session_index_fish")
		self.world.init_fish_indexer() # now the fish should exist

		# load the old gui positions and stuff
		# Do this before loading selections, they need the minimap setup
		LoadingProgress.broadcast(self, "session_load_gui")
		self.ingame_gui = self._ingame_gui_class(self)
		self.ingame_gui.load(savegame_db)

		Scheduler().before_ticking()
		savegame_db.close()

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		LoadingProgress.broadcast(self, "session_finish")
		"""
Example #6
0
class Session(LivingObject):
	"""Session class represents the games main ingame view and controls cameras and map loading.

	This is the most important class if you are going to hack on Unknown Horizons, it provides most of
	the important ingame variables.
	Here's a small list of commonly used attributes:
	* manager - horizons.manager instance. Used to execute commands that need to be tick,
				synchronized check the class for more information.
	* scheduler - horizons.scheduler instance. Used to execute timed events that do not effect
	              network games but rather control the local simulation.
	* view - horizons.view instance. Used to control the ingame camera.
	* ingame_gui - horizons.gui.ingame_gui instance. Used to controll the ingame gui.
	* cursor - horizons.gui.{navigation/cursor/selection/building}tool instance. Used to controll
			   mouse events, check the classes for more info.
	* selected_instances - Set that holds the currently selected instances (building, units).
	* world - horizons.world instance of the currently running horizons. Stores islands, players,
	          for later access.

	TUTORIAL:
	For further digging you should now be checking out the load() function.
	"""
	timer = livingProperty()
	manager = livingProperty()
	view = livingProperty()
	ingame_gui = livingProperty()
	keylistener = livingProperty()
	cursor = livingProperty()
	world = livingProperty()
	scenario_eventhandler = livingProperty()

	log = logging.getLogger('session')

	def __init__(self, gui, db):
		super(Session, self).__init__()
		self.log.debug("Initing session")
		self.gui = gui # main gui, not ingame gui
		self.db = db # main db for game data (game.sqlite)
		# this saves how often the current game has been saved
		self.savecounter = 0
		self.is_alive = True

		WorldObject.reset()
		NamedObject.reset()

		#game
		self.random = self.create_rng()
		self.timer = Timer()
		Scheduler.create_instance(self.timer)
		self.manager = self.create_manager()
		self.view = View(self, (15, 15))
		Entities.load(self.db)
		self.scenario_eventhandler = ScenarioEventHandler(self) # dummy handler with no events
		self.campaign = {}

		#GUI
		self.gui.session = self
		self.ingame_gui = IngameGui(self, self.gui)
		self.keylistener = IngameKeyListener(self)
		self.display_speed()

		self.selected_instances = set()
		self.selection_groups = [set()] * 10 # List of sets that holds the player assigned unit groups.

	def start(self):
		"""Acctually starts the game."""
		self.timer.activate()

	def create_manager(self):
		"""Returns instance of command manager (currently MPManager or SPManager)"""
		raise NotImplementedError

	def create_rng(self):
		"""Returns a RNG (random number generator). Must support the python random.Random interface"""
		raise NotImplementedError

	def end(self):
		self.log.debug("Ending session")
		self.is_alive = False

		self.gui.session = None

		Scheduler().rem_all_classinst_calls(self)
		ExtScheduler().rem_all_classinst_calls(self)

		if horizons.main.fife.get_fife_setting("PlaySounds"):
			for emitter in horizons.main.fife.emitter['ambient'][:]:
				emitter.stop()
				horizons.main.fife.emitter['ambient'].remove(emitter)
			horizons.main.fife.emitter['effects'].stop()
			horizons.main.fife.emitter['speech'].stop()
		self.cursor = None
		self.world = None
		self.keylistener = None
		self.ingame_gui = None
		self.view = None
		self.manager = None
		self.timer = None
		self.scenario_eventhandler = None
		Scheduler.destroy_instance()

		self.selected_instances = None
		self.selection_groups = None

	def destroy_tool(self):
		"""Initiate the destroy tool"""
		if not hasattr(self.cursor, 'tear_tool_active') or \
			 not self.cursor.tear_tool_active:
			self.cursor = TearingTool(self)
			self.ingame_gui.hide_menu()

	def autosave(self):
		raise NotImplementedError
	def quicksave(self):
		raise NotImplementedError
	def quickload(self):
		raise NotImplementedError
	def save(self, savegame):
		raise NotImplementedError

	def load(self, savegame, players, is_scenario=False, campaign={}):
		"""Loads a map.
		@param savegame: path to the savegame database.
		@param players: iterable of dictionaries containing id, name, color and local
		@param is_scenario: Bool whether the loaded map is a scenario or not
		"""
		if is_scenario:
			# savegame is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, savegame)
			savegame = os.path.join(SavegameManager.maps_dir, \
			                        self.scenario_eventhandler.get_map_file())
		self.campaign = campaign

		self.log.debug("Session: Loading from %s", savegame)
		savegame_db = SavegameAccessor(savegame) # Initialize new dbreader
		try:
			# load how often the game has been saved (used to know the difference between
			# a loaded and a new game)
			self.savecounter = SavegameManager.get_metadata(savegame)['savecounter']
		except KeyError:
			self.savecounter = 0

		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db)
		self.view.load(savegame_db) # load view
		if not self.is_game_loaded():
			# NOTE: this must be sorted before iteration, cause there is no defined order for
			#       iterating a dict, and it must happen in the same order for mp games.
			for i in sorted(players):
				self.world.setup_player(i['id'], i['name'], i['color'], i['local'])
			center = self.world.init_new_world()
			self.view.center(center[0], center[1])
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might me old scheduled ticks).
		self.ingame_gui.load(savegame_db) # load the old gui positions and stuff

		for instance_id in savegame_db("SELECT id FROM selected WHERE `group` IS NULL"): # Set old selected instance
			obj = WorldObject.get_object_by_id(instance_id[0])
			self.selected_instances.add(obj)
			obj.select()
		for group in xrange(len(self.selection_groups)): # load user defined unit groups
			for instance_id in savegame_db("SELECT id FROM selected WHERE `group` = ?", group):
				self.selection_groups[group].add(WorldObject.get_object_by_id(instance_id[0]))

		# cursor has to be inited last, else player interacts with a not inited world with it.
		self.cursor = SelectionTool(self)
		self.cursor.apply_select() # Set cursor correctly, menus might need to be opened.

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		"""
		TUTORIAL:
		From here on you should digg into the classes that are loaded above, especially the world class.
		(horizons/world/__init__.py). It's where the magic happens and all buildings and units are loaded.
		"""

	def speed_set(self, ticks):
		"""Set game speed to ticks ticks per second"""
		raise NotImplementedError

	def display_speed(self):
		text = u''
		tps = self.timer.ticks_per_second
		if tps == 0: # pause
			text = u'0x'
		elif tps == GAME_SPEED.TICKS_PER_SECOND: # normal speed, 1x
			pass # display nothing
		else:
			text = unicode(tps/GAME_SPEED.TICKS_PER_SECOND) + u'x' # 2x, 4x, ...
		self.ingame_gui.display_game_speed(text)

	def speed_up(self):
		if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
			i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
			if i + 1 < len(GAME_SPEED.TICK_RATES):
				self.speed_set(GAME_SPEED.TICK_RATES[i + 1])
		else:
			self.speed_set(GAME_SPEED.TICK_RATES[0])

	def speed_down(self):
		if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
			i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
			if i > 0:
				self.speed_set(GAME_SPEED.TICK_RATES[i - 1])
		else:
			self.speed_set(GAME_SPEED.TICK_RATES[0])

	_pause_stack = 0 # this saves the level of pausing
	# e.g. if two dialogs are displayed, that pause the game,
	# unpause needs to be called twice to unpause the game. cf. #876
	def speed_pause(self):
		self.log.debug("Session: Pausing")
		self._pause_stack += 1
		if not self.speed_is_paused():
			self.paused_ticks_per_second = self.timer.ticks_per_second
			self.speed_set(0)

	def speed_unpause(self):
		self.log.debug("Session: Unpausing")
		if self.speed_is_paused():
			self._pause_stack -= 1
			if self._pause_stack == 0:
				self.speed_set(self.paused_ticks_per_second)

	def speed_toggle_pause(self):
		if self.speed_is_paused():
			self.speed_unpause()
		else:
			self.speed_pause()

	def speed_is_paused(self):
		return (self.timer.ticks_per_second == 0)

	def is_game_loaded(self):
		"""Checks if the current game is a new one, or a loaded one.
		@return: True if game is loaded, else False
		"""
		return (self.savecounter > 0)
Example #7
0
	def load(self, savegame, players, is_scenario=False, campaign=None):
		"""Loads a map.
		@param savegame: path to the savegame database.
		@param players: iterable of dictionaries containing id, name, color, local, ai, and difficulty
		@param is_scenario: Bool whether the loaded map is a scenario or not
		"""
		if is_scenario:
			# savegame is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, savegame)
			savegame = os.path.join(SavegameManager.maps_dir, \
			                        self.scenario_eventhandler.get_map_file())
		self.campaign = {} if not campaign else campaign

		self.log.debug("Session: Loading from %s", savegame)
		savegame_db = SavegameAccessor(savegame) # Initialize new dbreader
		savegame_data = SavegameManager.get_metadata(savegame)

		# load how often the game has been saved (used to know the difference between
		# a loaded and a new game)
		self.savecounter = 0 if not 'savecounter' in savegame_data else savegame_data['savecounter']

		if savegame_data.get('rng_state', None):
			rng_state_list = json.loads( savegame_data['rng_state'] )
			# json treats tuples as lists, but we need tuples here, so convert back
			def rec_list_to_tuple(x):
				if isinstance(x, list):
					return tuple( rec_list_to_tuple(i) for i in x )
				else:
					return x
			rng_state_tuple = rec_list_to_tuple(rng_state_list)
			# changing the rng is safe for mp, as all players have to have the same map
			self.random.setstate( rng_state_tuple )

		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db)
		self.view.load(savegame_db) # load view
		if not self.is_game_loaded():
			# NOTE: this must be sorted before iteration, cause there is no defined order for
			#       iterating a dict, and it must happen in the same order for mp games.
			for i in sorted(players, lambda p1, p2: cmp(p1['id'], p2['id'])):
				self.world.setup_player(i['id'], i['name'], i['color'], i['local'], i['ai'], i['difficulty'])
			center = self.world.init_new_world()
			self.view.center(center[0], center[1])
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might me old scheduled ticks).
		self.world.init_fish_indexer() # now the fish should exist
		self.ingame_gui.load(savegame_db) # load the old gui positions and stuff

		for instance_id in savegame_db("SELECT id FROM selected WHERE `group` IS NULL"): # Set old selected instance
			obj = WorldObject.get_object_by_id(instance_id[0])
			self.selected_instances.add(obj)
			obj.select()
		for group in xrange(len(self.selection_groups)): # load user defined unit groups
			for instance_id in savegame_db("SELECT id FROM selected WHERE `group` = ?", group):
				self.selection_groups[group].add(WorldObject.get_object_by_id(instance_id[0]))

		# cursor has to be inited last, else player interacts with a not inited world with it.
		self.cursor = SelectionTool(self)
        # Set cursor correctly, menus might need to be opened.
		# Open menus later, they may need unit data not yet inited
		self.cursor.apply_select()

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		"""
Example #8
0
class SPTestSession(SPSession):

	def __init__(self, db, rng_seed=None):
		"""
		Unfortunately, right now there is no other way to setup Dummy versions of the GUI,
		View etc., unless we want to patch the references in the session module.
		"""
		super(LivingObject, self).__init__()
		self.gui = Dummy()
		self.db = db
		self.savecounter = 0	# this is a new game.
		self.is_alive = True

		WorldObject.reset()
		NamedComponent.reset()
		AIPlayer.clear_caches()

		# Game
		self.random = self.create_rng(rng_seed)
		self.timer = self.create_timer()
		Scheduler.create_instance(self.timer)
		ExtScheduler.create_instance(Dummy)
		self.manager = self.create_manager()
		self.view = Dummy()
		self.view.renderer = Dummy()
		Entities.load(self.db)
		self.scenario_eventhandler = Dummy()
		self.campaign = {}

		self.message_bus = MessageBus()
		self.status_icon_manager = StatusIconManager(self)


		# GUI
		self.gui.session = self
		self.ingame_gui = Dummy()
		LastActivePlayerSettlementManager.create_instance(self)

		self.selected_instances = set()
		self.selection_groups = [set()] * 10 # List of sets that holds the player assigned unit groups.

		GAME_SPEED.TICKS_PER_SECOND = 16

	def save(self, *args, **kwargs):
		"""
		Wrapper around original save function to fix some things.
		"""
		# SavegameManager.write_metadata tries to create a screenshot and breaks when
		# accessing fife properties
		with mock.patch('horizons.spsession.SavegameManager'):
			# We need to covert Dummy() objects to a sensible value that can be stored
			# in the database
			with _dbreader_convert_dummy_objects():
				return super(SPTestSession, self).save(*args, **kwargs)

	def load(self, savegame, players):
		"""
		Stripped version of the original code. We don't need to load selections,
		or a scenario, setting up the gui or view.
		"""
		self.savegame = savegame
		self.savegame_db = SavegameAccessor(self.savegame)

		self.savecounter = 1

		self.world = World(self)
		self.world._init(self.savegame_db)
		for i in sorted(players):
			self.world.setup_player(i['id'], i['name'], i['color'], i['local'], i['is_ai'], i['difficulty'])
		self.manager.load(self.savegame_db)

	def end(self, keep_map=False, remove_savegame=True):
		"""
		Clean up temporary files.
		"""
		super(SPTestSession, self).end()
		# Find all islands in the map first
		if not keep_map:
			for (island_file, ) in self.savegame_db('SELECT file FROM island'):
				if island_file[:7] != 'random:': # random islands don't exist as files
					os.remove(island_file)

		self.savegame_db.close()
		# Finally remove savegame
		if remove_savegame:
			os.remove(self.savegame)

	@classmethod
	def cleanup(cls):
		"""
		If a test uses manual session management, we cannot be sure that session.end was
		called before a crash, leaving the game in an unclean state. This method should
		return the game to a valid state.
		"""
		Scheduler.destroy_instance()

	def run(self, ticks=1, seconds=None):
		"""
		Run the scheduler the given count of ticks or (in-game) seconds. Default is 1 tick,
		if seconds are passed, they will overwrite the tick count.
		"""
		if seconds:
			ticks = self.timer.get_ticks(seconds)

		for i in range(ticks):
			Scheduler().tick( Scheduler().cur_tick + 1 )
Example #9
0
    def load(self, options):
        """Loads a map. Key method for starting a game."""
        """
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialized.
		"""
        if options.is_scenario:
            # game_identifier is a yaml file, that contains reference to actual map file
            self.scenario_eventhandler = ScenarioEventHandler(
                self, options.game_identifier)
            # scenario maps can be normal maps or scenario maps:
            map_filename = self.scenario_eventhandler.get_map_file()
            options.game_identifier = os.path.join(
                SavegameManager.scenario_maps_dir, map_filename)
            if not os.path.exists(options.game_identifier):
                options.game_identifier = os.path.join(
                    SavegameManager.maps_dir, map_filename)
            options.is_map = True

        self.log.debug("Session: Loading from %s", options.game_identifier)
        savegame_db = SavegameAccessor(options.game_identifier, options.is_map,
                                       options)  # Initialize new dbreader
        savegame_data = SavegameManager.get_metadata(savegame_db.db_path)
        self.view.resize_layers(savegame_db)

        # load how often the game has been saved (used to know the difference between
        # a loaded and a new game)
        self.savecounter = savegame_data.get('savecounter', 0)

        if savegame_data.get('rng_state', None):
            rng_state_list = json.loads(savegame_data['rng_state'])

            # json treats tuples as lists, but we need tuples here, so convert back
            def rec_list_to_tuple(x):
                if isinstance(x, list):
                    return tuple(rec_list_to_tuple(i) for i in x)
                else:
                    return x

            rng_state_tuple = rec_list_to_tuple(rng_state_list)
            # changing the rng is safe for mp, as all players have to have the same map
            self.random.setstate(rng_state_tuple)

        LoadingProgress.broadcast(self, 'session_create_world')
        self.world = World(
            self
        )  # Load horizons.world module (check horizons/world/__init__.py)
        self.world._init(savegame_db,
                         options.force_player_id,
                         disasters_enabled=options.disasters_enabled)
        self.view.load(savegame_db, self.world)  # load view
        if not self.is_game_loaded():
            options.init_new_world(self)
        else:
            # try to load scenario data
            self.scenario_eventhandler.load(savegame_db)
        self.manager.load(
            savegame_db
        )  # load the manager (there might be old scheduled ticks).
        LoadingProgress.broadcast(self, "session_index_fish")
        self.world.init_fish_indexer()  # now the fish should exist

        # load the old gui positions and stuff
        # Do this before loading selections, they need the minimap setup
        LoadingProgress.broadcast(self, "session_load_gui")
        self.ingame_gui = self._ingame_gui_class(self)
        self.ingame_gui.load(savegame_db)

        Scheduler().before_ticking()
        savegame_db.close()

        assert hasattr(self.world, "player"), 'Error: there is no human player'
        LoadingProgress.broadcast(self, "session_finish")
        """
Example #10
0
	def load(self, savegame, players, trader_enabled, pirate_enabled,
	         natural_resource_multiplier, is_scenario=False, campaign=None,
	         force_player_id=None, disasters_enabled=True, is_multiplayer=False):
		"""Loads a map. Key method for starting a game.
		@param savegame: path to the savegame database.
		@param players: iterable of dictionaries containing id, name, color, local, ai, and difficulty
		@param is_scenario: Bool whether the loaded map is a scenario or not
		@param force_player_id: the worldid of the selected human player or default if None (debug option)
		"""
		"""
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialised.
		"""
		if is_scenario:
			# savegame is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, savegame)
			# scenario maps can be normal maps or scenario maps:
			map_filename = self.scenario_eventhandler.get_map_file()
			savegame = os.path.join(SavegameManager.scenario_maps_dir, map_filename)
			if not os.path.exists(savegame):
				savegame = os.path.join(SavegameManager.maps_dir, map_filename)
		self.campaign = {} if not campaign else campaign

		self.log.debug("Session: Loading from %s", savegame)
		savegame_db = SavegameAccessor(savegame) # Initialize new dbreader
		savegame_data = SavegameManager.get_metadata(savegame)

		# load how often the game has been saved (used to know the difference between
		# a loaded and a new game)
		self.savecounter = savegame_data.get('savecounter', 0)

		if savegame_data.get('rng_state', None):
			rng_state_list = json.loads( savegame_data['rng_state'] )
			# json treats tuples as lists, but we need tuples here, so convert back
			def rec_list_to_tuple(x):
				if isinstance(x, list):
					return tuple( rec_list_to_tuple(i) for i in x )
				else:
					return x
			rng_state_tuple = rec_list_to_tuple(rng_state_list)
			# changing the rng is safe for mp, as all players have to have the same map
			self.random.setstate( rng_state_tuple )

		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db, force_player_id, disasters_enabled=disasters_enabled)
		self.view.load(savegame_db) # load view
		if not self.is_game_loaded():
			# NOTE: this must be sorted before iteration, cause there is no defined order for
			#       iterating a dict, and it must happen in the same order for mp games.
			for i in sorted(players, lambda p1, p2: cmp(p1['id'], p2['id'])):
				self.world.setup_player(i['id'], i['name'], i['color'], i['clientid'] if is_multiplayer else None, i['local'], i['ai'], i['difficulty'])
			self.world.set_forced_player(force_player_id)
			center = self.world.init_new_world(trader_enabled, pirate_enabled, natural_resource_multiplier)
			self.view.center(center[0], center[1])
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might me old scheduled ticks).
		self.world.init_fish_indexer() # now the fish should exist
		if self.is_game_loaded():
			LastActivePlayerSettlementManager().load(savegame_db) # before ingamegui
		self.ingame_gui.load(savegame_db) # load the old gui positions and stuff

		for instance_id in savegame_db("SELECT id FROM selected WHERE `group` IS NULL"): # Set old selected instance
			obj = WorldObject.get_object_by_id(instance_id[0])
			self.selected_instances.add(obj)
			obj.get_component(SelectableComponent).select()
		for group in xrange(len(self.selection_groups)): # load user defined unit groups
			for instance_id in savegame_db("SELECT id FROM selected WHERE `group` = ?", group):
				self.selection_groups[group].add(WorldObject.get_object_by_id(instance_id[0]))

		# cursor has to be inited last, else player interacts with a not inited world with it.
		self.current_cursor = 'default'
		self.cursor = SelectionTool(self)
		# Set cursor correctly, menus might need to be opened.
		# Open menus later; they may need unit data not yet inited
		self.cursor.apply_select()

		Scheduler().before_ticking()
		savegame_db.close()

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		"""
Example #11
0
class SPTestSession(SPSession):

	def __init__(self, db, rng_seed=None):
		"""
		Unfortunately, right now there is no other way to setup Dummy versions of the GUI,
		View etc., unless we want to patch the references in the session module.
		"""
		super(LivingObject, self).__init__()
		self.gui = Dummy()
		self.db = db
		self.savecounter = 0	# this is a new game.
		self.is_alive = True

		WorldObject.reset()
		NamedObject.reset()
		AIPlayer.clear_caches()

		# Game
		self.current_tick = 0
		self.random = self.create_rng(rng_seed)
		self.timer = self.create_timer()
		Scheduler.create_instance(self.timer)
		ExtScheduler.create_instance(Dummy)
		self.manager = self.create_manager()
		self.view = Dummy()
		self.view.renderer = Dummy()
		Entities.load(self.db)
		self.scenario_eventhandler = Dummy()
		self.campaign = {}
		self.selected_instances = []

		# GUI
		self.gui.session = self
		self.ingame_gui = Dummy()

		GAME_SPEED.TICKS_PER_SECOND = 16

	def load(self, savegame, players):
		"""
		Stripped version of the original code. We don't need to load selections,
		or a scenario, setting up the gui or view.
		"""
		self.savegame = savegame
		self.savegame_db = SavegameAccessor(self.savegame)

		self.world = World(self)
		self.world._init(self.savegame_db)
		for i in sorted(players):
			self.world.setup_player(i['id'], i['name'], i['color'], i['local'], i['is_ai'], i['difficulty'])
		self.manager.load(self.savegame_db)

	def end(self):
		"""
		Clean up temporary files.
		"""
		super(SPTestSession, self).end()
		# Find all islands in the map first
		random_map = False
		for (island_file, ) in self.savegame_db('SELECT file FROM island'):
			if island_file[:7] != 'random:': # random islands don't exist as files
				os.remove(island_file)
			else:
				random_map = True
				break
		# Finally remove savegame
		self.savegame_db.close()
		if not random_map:
			os.remove(self.savegame)

	def run(self, ticks=1, seconds=None):
		"""
		Run the scheduler the given count of ticks or (in-game) seconds. Default is 1 tick,
		if seconds are passed, they will overwrite the tick count.
		"""
		if seconds:
			ticks = self.timer.get_ticks(seconds)

		for i in range(ticks):
			Scheduler().tick(self.current_tick)
			self.current_tick += 1
Example #12
0
class Session(LivingObject):
    """The Session class represents the game's main ingame view and controls cameras and map loading.
	It is alive as long as a game is running.
	Many objects require a reference to this, which makes it a pseudo-global, from which we would
	like to move away in the long term. This is where we hope the components come into play, which
	you will encounter later.

	This is the most important class if you are going to hack on Unknown Horizons; it provides most of
	the important ingame variables.
	Here's a small list of commonly used attributes:

	* world - horizons.world instance of the currently running horizons. Stores players and islands,
		which store settlements, which store buildings, which have productions and collectors.
		Therefore, world deserves its name -- it contains the whole game state.
	* scheduler - horizons.scheduler instance. Used to execute timed events. Master of time in UH.
	* manager - horizons.manager instance. Used to execute commands (used to apply user interactions).
		There is a singleplayer and a multiplayer version. Our mp system works by the mp-manager not
		executing the commands directly, but sending them to all players, where they will be executed
		at the same tick.
	* view - horizons.view instance. Used to control the ingame camera.
	* ingame_gui - horizons.gui.ingame_gui instance. Used to control the ingame gui framework.
		(This is different from gui, which is the main menu and general session-independent gui)
	* cursor - horizons.gui.{navigation/cursor/selection/building}tool instance. Used to handle
			   mouse events.
	* selected_instances - Set that holds the currently selected instances (building, units).

	TUTORIAL:
	For further digging you should now be checking out the load() function.
	"""
    timer = livingProperty()
    manager = livingProperty()
    view = livingProperty()
    ingame_gui = livingProperty()
    keylistener = livingProperty()
    scenario_eventhandler = livingProperty()

    log = logging.getLogger('session')

    def __init__(self, gui, db, rng_seed=None):
        super(Session, self).__init__()
        assert isinstance(db, horizons.util.uhdbaccessor.UhDbAccessor)
        self.log.debug("Initing session")
        self.gui = gui  # main gui, not ingame gui
        self.db = db  # main db for game data (game.sql)
        # this saves how often the current game has been saved
        self.savecounter = 0
        self.is_alive = True

        self._clear_caches()

        #game
        self.random = self.create_rng(rng_seed)
        assert isinstance(self.random, Random)
        self.timer = self.create_timer()
        Scheduler.create_instance(self.timer)
        self.manager = self.create_manager()
        self.view = View(self)
        Entities.load(self.db)
        self.scenario_eventhandler = ScenarioEventHandler(
            self)  # dummy handler with no events

        #GUI
        self.gui.session = self
        self.ingame_gui = IngameGui(self, self.gui)
        self.keylistener = IngameKeyListener(self)
        self.coordinates_tooltip = None
        self.display_speed()
        LastActivePlayerSettlementManager.create_instance(self)

        self.status_icon_manager = StatusIconManager(
            renderer=self.view.renderer['GenericRenderer'],
            layer=self.view.layers[LAYERS.OBJECTS])
        self.production_finished_icon_manager = None
        self.create_production_finished_icon_manager()

        self.selected_instances = set()
        self.selection_groups = [
            set() for _ in range(10)
        ]  # List of sets that holds the player assigned unit groups.

        self._old_autosave_interval = None

    def in_editor_mode(self):
        return False

    def create_production_finished_icon_manager(self):
        """ Checks the settings if we should display resrouce icons.
		If True: Create the ProductionFinishedIconManager
		If False and a manager is currently running: End it
		"""
        show_resource_icons = bool(
            horizons.globals.fife.get_uh_setting("ShowResourceIcons"))
        if show_resource_icons:
            self.production_finished_icon_manager = ProductionFinishedIconManager(
                renderer=self.view.renderer['GenericRenderer'],
                layer=self.view.layers[LAYERS.OBJECTS])
        else:
            self.end_production_finished_icon_manager()

    def start(self):
        """Actually starts the game."""
        self.timer.activate()
        self.reset_autosave()
        AutosaveIntervalChanged.subscribe(self._on_autosave_interval_changed)

    def reset_autosave(self):
        """(Re-)Set up autosave. Called if autosave interval has been changed."""
        # get_uh_setting returns floats like 4.0 and 42.0 since slider stepping is 1.0.
        interval = int(
            horizons.globals.fife.get_uh_setting("AutosaveInterval"))
        if interval != self._old_autosave_interval:
            self._old_autosave_interval = interval
            ExtScheduler().rem_call(self, self.autosave)
            if interval != 0:  #autosave
                self.log.debug("Initing autosave every %s minutes", interval)
                ExtScheduler().add_new_object(self.autosave, self,
                                              interval * 60, -1)

    def _on_autosave_interval_changed(self, message):
        self.reset_autosave()

    def create_manager(self):
        """Returns instance of command manager (currently MPManager or SPManager)"""
        raise NotImplementedError

    def create_rng(self, seed=None):
        """Returns a RNG (random number generator). Must support the python random.Random interface"""
        raise NotImplementedError

    def create_timer(self):
        """Returns a Timer instance."""
        raise NotImplementedError

    @classmethod
    def _clear_caches(cls):
        """Clear all data caches in global namespace related to a session"""
        WorldObject.reset()
        NamedComponent.reset()
        AIPlayer.clear_caches()
        SelectableBuildingComponent.reset()

    def end_production_finished_icon_manager(self):
        if self.production_finished_icon_manager is not None:
            self.production_finished_icon_manager.end()
            self.production_finished_icon_manager = None

    def end(self):
        self.log.debug("Ending session")
        self.is_alive = False

        self.gui.session = None

        # Has to be done here, cause the manager uses Scheduler!
        self.end_production_finished_icon_manager()
        Scheduler().rem_all_classinst_calls(self)
        ExtScheduler().rem_all_classinst_calls(self)

        if horizons.globals.fife.get_fife_setting("PlaySounds"):
            for emitter in horizons.globals.fife.sound.emitter['ambient'][:]:
                emitter.stop()
                horizons.globals.fife.sound.emitter['ambient'].remove(emitter)
            horizons.globals.fife.sound.emitter['effects'].stop()
            horizons.globals.fife.sound.emitter['speech'].stop()
        if hasattr(self, "cursor"):  # the line below would crash uglily on ^C
            self.cursor.remove()

        if hasattr(self, 'cursor') and self.cursor is not None:
            self.cursor.end()
        # these will call end() if the attribute still exists by the LivingObject magic
        self.ingame_gui = None  # keep this before world

        LastActivePlayerSettlementManager().remove()  # keep after ingame_gui
        LastActivePlayerSettlementManager.destroy_instance()

        self.cursor = None
        self.world.end()  # must be called before the world ref is gone
        self.world = None
        self.keylistener = None
        self.view = None
        self.manager = None
        self.timer = None
        self.scenario_eventhandler = None

        Scheduler().end()
        Scheduler.destroy_instance()

        self.selected_instances = None
        self.selection_groups = None

        self.status_icon_manager.end()
        self.status_icon_manager = None

        horizons.main._modules.session = None
        self._clear_caches()

        # subscriptions shouldn't survive listeners (except the main Gui)
        self.gui.unsubscribe()
        AutosaveIntervalChanged.unsubscribe(self._on_autosave_interval_changed)
        MessageBus().reset()
        self.gui.subscribe()

    def toggle_cursor(self, which, *args, **kwargs):
        """Alternate between the cursor which and default.
		args and kwargs are used to construct which."""
        if self.current_cursor == which:
            self.set_cursor()
        else:
            self.set_cursor(which, *args, **kwargs)

    def set_cursor(self, which='default', *args, **kwargs):
        """Sets the mousetool (i.e. cursor).
		This is done here for encapsulation and control over destructors.
		Further arguments are passed to the mouse tool constructor."""
        self.cursor.remove()
        self.current_cursor = which
        klass = {
            'default': SelectionTool,
            'selection': SelectionTool,
            'tearing': TearingTool,
            'pipette': PipetteTool,
            'attacking': AttackingTool,
            'building': BuildingTool,
            'tile_layer': TileLayingTool
        }[which]
        self.cursor = klass(self, *args, **kwargs)

    def toggle_destroy_tool(self):
        """Initiate the destroy tool"""
        self.toggle_cursor('tearing')

    def autosave(self):
        raise NotImplementedError

    def quicksave(self):
        raise NotImplementedError

    def quickload(self):
        raise NotImplementedError

    def save(self, savegame=None):
        raise NotImplementedError

    def load(self, options):
        """Loads a map. Key method for starting a game."""
        """
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialised.
		"""
        if options.is_scenario:
            # game_identifier is a yaml file, that contains reference to actual map file
            self.scenario_eventhandler = ScenarioEventHandler(
                self, options.game_identifier)
            # scenario maps can be normal maps or scenario maps:
            map_filename = self.scenario_eventhandler.get_map_file()
            options.game_identifier = os.path.join(
                SavegameManager.scenario_maps_dir, map_filename)
            if not os.path.exists(options.game_identifier):
                options.game_identifier = os.path.join(
                    SavegameManager.maps_dir, map_filename)
            options.is_map = True

        self.log.debug("Session: Loading from %s", options.game_identifier)
        savegame_db = SavegameAccessor(
            options.game_identifier, options.is_map)  # Initialize new dbreader
        savegame_data = SavegameManager.get_metadata(savegame_db.db_path)
        self.view.resize_layers(savegame_db)

        # load how often the game has been saved (used to know the difference between
        # a loaded and a new game)
        self.savecounter = savegame_data.get('savecounter', 0)

        if savegame_data.get('rng_state', None):
            rng_state_list = json.loads(savegame_data['rng_state'])

            # json treats tuples as lists, but we need tuples here, so convert back
            def rec_list_to_tuple(x):
                if isinstance(x, list):
                    return tuple(rec_list_to_tuple(i) for i in x)
                else:
                    return x

            rng_state_tuple = rec_list_to_tuple(rng_state_list)
            # changing the rng is safe for mp, as all players have to have the same map
            self.random.setstate(rng_state_tuple)

        self.world = World(
            self
        )  # Load horizons.world module (check horizons/world/__init__.py)
        self.world._init(savegame_db,
                         options.force_player_id,
                         disasters_enabled=options.disasters_enabled)
        self.view.load(savegame_db)  # load view
        if not self.is_game_loaded():
            options.init_new_world(self)
        else:
            # try to load scenario data
            self.scenario_eventhandler.load(savegame_db)
        self.manager.load(
            savegame_db
        )  # load the manager (there might me old scheduled ticks).
        self.world.init_fish_indexer()  # now the fish should exist
        if self.is_game_loaded():
            LastActivePlayerSettlementManager().load(
                savegame_db)  # before ingamegui
        self.ingame_gui.load(
            savegame_db)  # load the old gui positions and stuff

        for instance_id in savegame_db(
                "SELECT id FROM selected WHERE `group` IS NULL"
        ):  # Set old selected instance
            obj = WorldObject.get_object_by_id(instance_id[0])
            self.selected_instances.add(obj)
            obj.get_component(SelectableComponent).select()
        for group in xrange(len(
                self.selection_groups)):  # load user defined unit groups
            for instance_id in savegame_db(
                    "SELECT id FROM selected WHERE `group` = ?", group):
                self.selection_groups[group].add(
                    WorldObject.get_object_by_id(instance_id[0]))

        # cursor has to be inited last, else player interacts with a not inited world with it.
        self.current_cursor = 'default'
        self.cursor = SelectionTool(self)
        # Set cursor correctly, menus might need to be opened.
        # Open menus later; they may need unit data not yet inited
        self.cursor.apply_select()

        Scheduler().before_ticking()
        savegame_db.close()

        assert hasattr(self.world, "player"), 'Error: there is no human player'
        """
		TUTORIAL:
		That's it. After that, we call start() to activate the timer, and we're live.
		From here on you should dig into the classes that are loaded above, especially the world class
		(horizons/world/__init__.py). It's where the magic happens and all buildings and units are loaded.
		"""

    def speed_set(self, ticks, suggestion=False):
        """Set game speed to ticks ticks per second"""
        old = self.timer.ticks_per_second
        self.timer.ticks_per_second = ticks
        self.view.map.setTimeMultiplier(
            float(ticks) / float(GAME_SPEED.TICKS_PER_SECOND))
        if old == 0 and self.timer.tick_next_time is None:  # back from paused state
            if self.paused_time_missing is None:
                # happens if e.g. a dialog pauses the game during startup on hotkeypress
                self.timer.tick_next_time = time.time()
            else:
                self.timer.tick_next_time = time.time() + (
                    self.paused_time_missing / ticks)
        elif ticks == 0 or self.timer.tick_next_time is None:
            # go into paused state or very early speed change (before any tick)
            if self.timer.tick_next_time is not None:
                self.paused_time_missing = (self.timer.tick_next_time -
                                            time.time()) * old
            else:
                self.paused_time_missing = None
            self.timer.tick_next_time = None
        else:
            """
			Under odd circumstances (anti-freeze protection just activated, game speed
			decremented multiple times within this frame) this can delay the next tick
			by minutes. Since the positive effects of the code aren't really observeable,
			this code is commented out and possibly will be removed.

			# correct the time until the next tick starts
			time_to_next_tick = self.timer.tick_next_time - time.time()
			if time_to_next_tick > 0: # only do this if we aren't late
				self.timer.tick_next_time += (time_to_next_tick * old / ticks)
			"""
        self.display_speed()

    def display_speed(self):
        text = u''
        up_icon = self.ingame_gui.widgets['minimap'].findChild(name='speedUp')
        down_icon = self.ingame_gui.widgets['minimap'].findChild(
            name='speedDown')
        tps = self.timer.ticks_per_second
        if tps == 0:  # pause
            text = u'0x'
            up_icon.set_inactive()
            down_icon.set_inactive()
        else:
            if tps != GAME_SPEED.TICKS_PER_SECOND:
                text = unicode("%1gx" %
                               (tps * 1.0 / GAME_SPEED.TICKS_PER_SECOND))
                #%1g: displays 0.5x, but 2x instead of 2.0x
            index = GAME_SPEED.TICK_RATES.index(tps)
            if index + 1 >= len(GAME_SPEED.TICK_RATES):
                up_icon.set_inactive()
            else:
                up_icon.set_active()
            if index > 0:
                down_icon.set_active()
            else:
                down_icon.set_inactive()
        self.ingame_gui.display_game_speed(text)

    def speed_up(self):
        if self.speed_is_paused():
            AmbientSoundComponent.play_special('error')
            return
        if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
            i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
            if i + 1 < len(GAME_SPEED.TICK_RATES):
                self.speed_set(GAME_SPEED.TICK_RATES[i + 1])
        else:
            self.speed_set(GAME_SPEED.TICK_RATES[0])

    def speed_down(self):
        if self.speed_is_paused():
            AmbientSoundComponent.play_special('error')
            return
        if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
            i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
            if i > 0:
                self.speed_set(GAME_SPEED.TICK_RATES[i - 1])
        else:
            self.speed_set(GAME_SPEED.TICK_RATES[0])

    _pause_stack = 0  # this saves the level of pausing

    # e.g. if two dialogs are displayed, that pause the game,
    # unpause needs to be called twice to unpause the game. cf. #876
    def speed_pause(self, suggestion=False):
        self.log.debug("Session: Pausing")
        self._pause_stack += 1
        if not self.speed_is_paused():
            self.paused_ticks_per_second = self.timer.ticks_per_second
            self.speed_set(0, suggestion)

    def speed_unpause(self, suggestion=False):
        self.log.debug("Session: Unpausing")
        if self.speed_is_paused():
            self._pause_stack -= 1
            if self._pause_stack == 0:
                self.speed_set(self.paused_ticks_per_second)

                # check if resource icons should be displayed (possible changes in settings)
                self.create_production_finished_icon_manager()

    def speed_toggle_pause(self, suggestion=False):
        if self.speed_is_paused():
            self.speed_unpause(suggestion)
        else:
            self.speed_pause(suggestion)

    def speed_is_paused(self):
        return (self.timer.ticks_per_second == 0)

    def is_game_loaded(self):
        """Checks if the current game is a new one, or a loaded one.
		@return: True if game is loaded, else False
		"""
        return (self.savecounter > 0)

    def remove_selected(self):
        self.log.debug('Removing %s', self.selected_instances)
        for instance in [inst for inst in self.selected_instances]:
            if instance.is_building:
                if instance.tearable and instance.owner is self.world.player:
                    self.log.debug('Attempting to remove building %s', inst)
                    Tear(instance).execute(self)
                    self.selected_instances.discard(instance)
                else:
                    self.log.debug('Unable to remove building %s', inst)
            elif instance.is_unit:
                if instance.owner is self.world.player:
                    self.log.debug('Attempting to remove unit %s', inst)
                    RemoveUnit(instance).execute(self)
                    self.selected_instances.discard(instance)
                else:
                    self.log.debug('Unable to remove unit %s', inst)
            else:
                self.log.error('Unable to remove unknown object %s', instance)

    def _do_save(self, savegame):
        """Actual save code.
		@param savegame: absolute path"""
        assert os.path.isabs(savegame)
        self.log.debug("Session: Saving to %s", savegame)
        try:
            if os.path.exists(savegame):
                os.unlink(savegame)
            self.savecounter += 1

            db = DbReader(savegame)
        except IOError as e:  # usually invalid filename
            headline = _("Failed to create savegame file")
            descr = _(
                "There has been an error while creating your savegame file.")
            advice = _(
                "This usually means that the savegame name contains unsupported special characters."
            )
            self.gui.show_error_popup(headline, descr, advice, unicode(e))
            return self.save(
            )  # retry with new savegamename entered by the user
            # this must not happen with quicksave/autosave
        except OSError as e:
            if e.errno == errno.EACCES:
                self.gui.show_error_popup(
                    _("Access is denied"),
                    _("The savegame file could be read-only or locked by another process."
                      ))
                return self.save()
            raise

        try:
            read_savegame_template(db)

            db("BEGIN")
            self.world.save(db)
            #self.manager.save(db)
            self.view.save(db)
            self.ingame_gui.save(db)
            self.scenario_eventhandler.save(db)
            LastActivePlayerSettlementManager().save(db)

            for instance in self.selected_instances:
                db("INSERT INTO selected(`group`, id) VALUES(NULL, ?)",
                   instance.worldid)
            for group in xrange(len(self.selection_groups)):
                for instance in self.selection_groups[group]:
                    db("INSERT INTO selected(`group`, id) VALUES(?, ?)", group,
                       instance.worldid)

            rng_state = json.dumps(self.random.getstate())
            SavegameManager.write_metadata(db, self.savecounter, rng_state)
            # make sure everything gets written now
            db("COMMIT")
            db.close()
            return True
        except:
            print "Save Exception"
            traceback.print_exc()
            db.close()  # close db before delete
            os.unlink(savegame)  # remove invalid savegamefile
            return False
Example #13
0
    def load(self, options):
        """Loads a map. Key method for starting a game."""
        """
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialised.
		"""
        if options.is_scenario:
            # game_identifier is a yaml file, that contains reference to actual map file
            self.scenario_eventhandler = ScenarioEventHandler(
                self, options.game_identifier)
            # scenario maps can be normal maps or scenario maps:
            map_filename = self.scenario_eventhandler.get_map_file()
            options.game_identifier = os.path.join(
                SavegameManager.scenario_maps_dir, map_filename)
            if not os.path.exists(options.game_identifier):
                options.game_identifier = os.path.join(
                    SavegameManager.maps_dir, map_filename)
            options.is_map = True

        self.log.debug("Session: Loading from %s", options.game_identifier)
        savegame_db = SavegameAccessor(
            options.game_identifier, options.is_map)  # Initialize new dbreader
        savegame_data = SavegameManager.get_metadata(savegame_db.db_path)
        self.view.resize_layers(savegame_db)

        # load how often the game has been saved (used to know the difference between
        # a loaded and a new game)
        self.savecounter = savegame_data.get('savecounter', 0)

        if savegame_data.get('rng_state', None):
            rng_state_list = json.loads(savegame_data['rng_state'])

            # json treats tuples as lists, but we need tuples here, so convert back
            def rec_list_to_tuple(x):
                if isinstance(x, list):
                    return tuple(rec_list_to_tuple(i) for i in x)
                else:
                    return x

            rng_state_tuple = rec_list_to_tuple(rng_state_list)
            # changing the rng is safe for mp, as all players have to have the same map
            self.random.setstate(rng_state_tuple)

        self.world = World(
            self
        )  # Load horizons.world module (check horizons/world/__init__.py)
        self.world._init(savegame_db,
                         options.force_player_id,
                         disasters_enabled=options.disasters_enabled)
        self.view.load(savegame_db)  # load view
        if not self.is_game_loaded():
            options.init_new_world(self)
        else:
            # try to load scenario data
            self.scenario_eventhandler.load(savegame_db)
        self.manager.load(
            savegame_db
        )  # load the manager (there might me old scheduled ticks).
        self.world.init_fish_indexer()  # now the fish should exist
        if self.is_game_loaded():
            LastActivePlayerSettlementManager().load(
                savegame_db)  # before ingamegui
        self.ingame_gui.load(
            savegame_db)  # load the old gui positions and stuff

        for instance_id in savegame_db(
                "SELECT id FROM selected WHERE `group` IS NULL"
        ):  # Set old selected instance
            obj = WorldObject.get_object_by_id(instance_id[0])
            self.selected_instances.add(obj)
            obj.get_component(SelectableComponent).select()
        for group in xrange(len(
                self.selection_groups)):  # load user defined unit groups
            for instance_id in savegame_db(
                    "SELECT id FROM selected WHERE `group` = ?", group):
                self.selection_groups[group].add(
                    WorldObject.get_object_by_id(instance_id[0]))

        # cursor has to be inited last, else player interacts with a not inited world with it.
        self.current_cursor = 'default'
        self.cursor = SelectionTool(self)
        # Set cursor correctly, menus might need to be opened.
        # Open menus later; they may need unit data not yet inited
        self.cursor.apply_select()

        Scheduler().before_ticking()
        savegame_db.close()

        assert hasattr(self.world, "player"), 'Error: there is no human player'
        """
Example #14
0
	def load(self, options):
		"""Loads a map. Key method for starting a game."""
		"""
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialised.
		"""
		if options.is_scenario:
			# game_identifier is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, options.game_identifier)
			# scenario maps can be normal maps or scenario maps:
			map_filename = self.scenario_eventhandler.get_map_file()
			options.game_identifier = os.path.join(SavegameManager.scenario_maps_dir, map_filename)
			if not os.path.exists(options.game_identifier):
				options.game_identifier = os.path.join(SavegameManager.maps_dir, map_filename)
			options.is_map = True

		self.log.debug("Session: Loading from %s", options.game_identifier)
		savegame_db = SavegameAccessor(options.game_identifier, options.is_map) # Initialize new dbreader
		savegame_data = SavegameManager.get_metadata(savegame_db.db_path)
		self.view.resize_layers(savegame_db)

		# load how often the game has been saved (used to know the difference between
		# a loaded and a new game)
		self.savecounter = savegame_data.get('savecounter', 0)

		if savegame_data.get('rng_state', None):
			rng_state_list = json.loads(savegame_data['rng_state'])
			# json treats tuples as lists, but we need tuples here, so convert back
			def rec_list_to_tuple(x):
				if isinstance(x, list):
					return tuple(rec_list_to_tuple(i) for i in x)
				else:
					return x
			rng_state_tuple = rec_list_to_tuple(rng_state_list)
			# changing the rng is safe for mp, as all players have to have the same map
			self.random.setstate(rng_state_tuple)

		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db, options.force_player_id, disasters_enabled=options.disasters_enabled)
		self.view.load(savegame_db) # load view
		if not self.is_game_loaded():
			options.init_new_world(self)
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might me old scheduled ticks).
		self.world.init_fish_indexer() # now the fish should exist
		if self.is_game_loaded():
			LastActivePlayerSettlementManager().load(savegame_db) # before ingamegui
		self.ingame_gui.load(savegame_db) # load the old gui positions and stuff

		for instance_id in savegame_db("SELECT id FROM selected WHERE `group` IS NULL"): # Set old selected instance
			obj = WorldObject.get_object_by_id(instance_id[0])
			self.selected_instances.add(obj)
			obj.get_component(SelectableComponent).select()
		for group in xrange(len(self.selection_groups)): # load user defined unit groups
			for instance_id in savegame_db("SELECT id FROM selected WHERE `group` = ?", group):
				self.selection_groups[group].add(WorldObject.get_object_by_id(instance_id[0]))

		# cursor has to be inited last, else player interacts with a not inited world with it.
		self.current_cursor = 'default'
		self.cursor = SelectionTool(self)
		# Set cursor correctly, menus might need to be opened.
		# Open menus later; they may need unit data not yet inited
		self.cursor.apply_select()

		Scheduler().before_ticking()
		savegame_db.close()

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		"""
Example #15
0
class Session(LivingObject):
	"""The Session class represents the game's main ingame view and controls cameras and map loading.
	It is alive as long as a game is running.
	Many objects require a reference to this, which makes it a pseudo-global, from which we would
	like to move away in the long term. This is where we hope the components come into play, which
	you will encounter later.

	This is the most important class if you are going to hack on Unknown Horizons; it provides most of
	the important ingame variables.
	Here's a small list of commonly used attributes:

	* world - horizons.world instance of the currently running horizons. Stores players and islands,
		which store settlements, which store buildings, which have productions and collectors.
		Therefore, world deserves its name -- it contains the whole game state.
	* scheduler - horizons.scheduler instance. Used to execute timed events. Master of time in UH.
	* manager - horizons.manager instance. Used to execute commands (used to apply user interactions).
		There is a singleplayer and a multiplayer version. Our mp system works by the mp-manager not
		executing the commands directly, but sending them to all players, where they will be executed
		at the same tick.
	* view - horizons.view instance. Used to control the ingame camera.
	* ingame_gui - horizons.gui.ingame_gui instance. Used to control the ingame gui framework.
		(This is different from gui, which is the main menu and general session-independent gui)
	* selected_instances - Set that holds the currently selected instances (building, units).

	TUTORIAL:
	For further digging you should now be checking out the load() function.
	"""
	timer = livingProperty()
	manager = livingProperty()
	view = livingProperty()
	ingame_gui = livingProperty()
	scenario_eventhandler = livingProperty()

	log = logging.getLogger('session')

	def __init__(self, db, rng_seed=None, ingame_gui_class=IngameGui):
		super(Session, self).__init__()
		assert isinstance(db, horizons.util.uhdbaccessor.UhDbAccessor)
		self.log.debug("Initing session")
		self.db = db # main db for game data (game.sql)
		# this saves how often the current game has been saved
		self.savecounter = 0
		self.is_alive = True

		self._clear_caches()

		#game
		self.random = self.create_rng(rng_seed)
		assert isinstance(self.random, Random)
		self.timer = self.create_timer()
		Scheduler.create_instance(self.timer)
		self.manager = self.create_manager()
		self.view = View()
		Entities.load(self.db)
		self.scenario_eventhandler = ScenarioEventHandler(self) # dummy handler with no events

		#GUI
		self._ingame_gui_class = ingame_gui_class

		self.selected_instances = set()
		# List of sets that holds the player assigned unit groups.
		self.selection_groups = [set()] * 10

		self._old_autosave_interval = None

	def start(self):
		"""Actually starts the game."""
		self.timer.activate()
		self.scenario_eventhandler.start()
		self.reset_autosave()
		SettingChanged.subscribe(self._on_setting_changed)

	def reset_autosave(self):
		"""(Re-)Set up autosave. Called if autosave interval has been changed."""
		# get_uh_setting returns floats like 4.0 and 42.0 since slider stepping is 1.0.
		interval = int(horizons.globals.fife.get_uh_setting("AutosaveInterval"))
		if interval != self._old_autosave_interval:
			self._old_autosave_interval = interval
			ExtScheduler().rem_call(self, self.autosave)
			if interval != 0: #autosave
				self.log.debug("Initing autosave every %s minutes", interval)
				ExtScheduler().add_new_object(self.autosave, self, interval * 60, -1)

	def _on_setting_changed(self, message):
		if message.setting_name == 'AutosaveInterval':
			self.reset_autosave()

	def create_manager(self):
		"""Returns instance of command manager (currently MPManager or SPManager)"""
		raise NotImplementedError

	def create_rng(self, seed=None):
		"""Returns a RNG (random number generator). Must support the python random.Random interface"""
		raise NotImplementedError

	def create_timer(self):
		"""Returns a Timer instance."""
		raise NotImplementedError

	@classmethod
	def _clear_caches(cls):
		"""Clear all data caches in global namespace related to a session"""
		WorldObject.reset()
		NamedComponent.reset()
		AIPlayer.clear_caches()
		SelectableBuildingComponent.reset()

	def end(self):
		self.log.debug("Ending session")
		self.is_alive = False

		# Has to be done here, cause the manager uses Scheduler!
		Scheduler().rem_all_classinst_calls(self)
		ExtScheduler().rem_all_classinst_calls(self)

		horizons.globals.fife.sound.end()

		# these will call end() if the attribute still exists by the LivingObject magic
		self.ingame_gui = None # keep this before world

		if hasattr(self, 'world'):
			# must be called before the world ref is gone, but may not exist yet while loading
			self.world.end()
		self.world = None
		self.view = None
		self.manager = None
		self.timer = None
		self.scenario_eventhandler = None

		Scheduler().end()
		Scheduler.destroy_instance()

		self.selected_instances = None
		self.selection_groups = None

		self._clear_caches()

		# discard() in case loading failed and we did not yet subscribe
		SettingChanged.discard(self._on_setting_changed)
		MessageBus().reset()

	def quit(self):
		self.end()
		horizons.main.quit_session()

	def autosave(self):
		raise NotImplementedError
	def quicksave(self):
		raise NotImplementedError
	def quickload(self):
		raise NotImplementedError
	def save(self, savegame=None):
		raise NotImplementedError

	def load(self, options):
		"""Loads a map. Key method for starting a game."""
		"""
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialized.
		"""
		if options.is_scenario:
			# game_identifier is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, options.game_identifier)
			# scenario maps can be normal maps or scenario maps:
			map_filename = self.scenario_eventhandler.get_map_file()
			options.game_identifier = os.path.join(SavegameManager.scenario_maps_dir, map_filename)
			if not os.path.exists(options.game_identifier):
				options.game_identifier = os.path.join(SavegameManager.maps_dir, map_filename)
			options.is_map = True

		self.log.debug("Session: Loading from %s", options.game_identifier)
		savegame_db = SavegameAccessor(options.game_identifier, options.is_map, options) # Initialize new dbreader
		savegame_data = SavegameManager.get_metadata(savegame_db.db_path)
		self.view.resize_layers(savegame_db)

		# load how often the game has been saved (used to know the difference between
		# a loaded and a new game)
		self.savecounter = savegame_data.get('savecounter', 0)

		if savegame_data.get('rng_state', None):
			rng_state_list = json.loads(savegame_data['rng_state'])
			# json treats tuples as lists, but we need tuples here, so convert back
			def rec_list_to_tuple(x):
				if isinstance(x, list):
					return tuple(rec_list_to_tuple(i) for i in x)
				else:
					return x
			rng_state_tuple = rec_list_to_tuple(rng_state_list)
			# changing the rng is safe for mp, as all players have to have the same map
			self.random.setstate(rng_state_tuple)

		LoadingProgress.broadcast(self, 'session_create_world')
		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db, options.force_player_id, disasters_enabled=options.disasters_enabled)
		self.view.load(savegame_db, self.world) # load view
		if not self.is_game_loaded():
			options.init_new_world(self)
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might be old scheduled ticks).
		LoadingProgress.broadcast(self, "session_index_fish")
		self.world.init_fish_indexer() # now the fish should exist

		# load the old gui positions and stuff
		# Do this before loading selections, they need the minimap setup
		LoadingProgress.broadcast(self, "session_load_gui")
		self.ingame_gui = self._ingame_gui_class(self)
		self.ingame_gui.load(savegame_db)

		Scheduler().before_ticking()
		savegame_db.close()

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		LoadingProgress.broadcast(self, "session_finish")
		"""
		TUTORIAL:
		That's it. After that, we call start() to activate the timer, and we're live.
		From here on you should dig into the classes that are loaded above, especially the world class
		(horizons/world/__init__.py). It's where the magic happens and all buildings and units are loaded.
		"""

	def speed_set(self, ticks, suggestion=False):
		"""Set game speed to ticks ticks per second"""
		old = self.timer.ticks_per_second
		self.timer.ticks_per_second = ticks
		self.view.map.setTimeMultiplier(float(ticks) / float(GAME_SPEED.TICKS_PER_SECOND))
		if old == 0 and self.timer.tick_next_time is None: # back from paused state
			if self.paused_time_missing is None:
				# happens if e.g. a dialog pauses the game during startup on hotkeypress
				self.timer.tick_next_time = time.time()
			else:
				self.timer.tick_next_time = time.time() + (self.paused_time_missing / ticks)
		elif ticks == 0 or self.timer.tick_next_time is None:
			# go into paused state or very early speed change (before any tick)
			if self.timer.tick_next_time is not None:
				self.paused_time_missing = (self.timer.tick_next_time - time.time()) * old
			else:
				self.paused_time_missing = None
			self.timer.tick_next_time = None
		else:
			"""
			Under odd circumstances (anti-freeze protection just activated, game speed
			decremented multiple times within this frame) this can delay the next tick
			by minutes. Since the positive effects of the code aren't really observeable,
			this code is commented out and possibly will be removed.

			# correct the time until the next tick starts
			time_to_next_tick = self.timer.tick_next_time - time.time()
			if time_to_next_tick > 0: # only do this if we aren't late
				self.timer.tick_next_time += (time_to_next_tick * old / ticks)
			"""

		SpeedChanged.broadcast(self, old, ticks)

	def speed_up(self):
		if self.speed_is_paused():
			AmbientSoundComponent.play_special('error')
			return
		if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
			i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
			if i + 1 < len(GAME_SPEED.TICK_RATES):
				self.speed_set(GAME_SPEED.TICK_RATES[i + 1])
		else:
			self.speed_set(GAME_SPEED.TICK_RATES[0])

	def speed_down(self):
		if self.speed_is_paused():
			AmbientSoundComponent.play_special('error')
			return
		if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
			i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
			if i > 0:
				self.speed_set(GAME_SPEED.TICK_RATES[i - 1])
		else:
			self.speed_set(GAME_SPEED.TICK_RATES[0])

	_pause_stack = 0 # this saves the level of pausing
	# e.g. if two dialogs are displayed, that pause the game,
	# unpause needs to be called twice to unpause the game. cf. #876
	def speed_pause(self, suggestion=False):
		self.log.debug("Session: Pausing")
		self._pause_stack += 1
		if not self.speed_is_paused():
			self.paused_ticks_per_second = self.timer.ticks_per_second
			self.speed_set(0, suggestion)

	def speed_unpause(self, suggestion=False):
		self.log.debug("Session: Unpausing")
		if self.speed_is_paused():
			self._pause_stack -= 1
			if self._pause_stack == 0:
				self.speed_set(self.paused_ticks_per_second)

	def speed_toggle_pause(self, suggestion=False):
		if self.speed_is_paused():
			self.speed_unpause(suggestion)
		else:
			self.speed_pause(suggestion)

	def speed_is_paused(self):
		return (self.timer.ticks_per_second == 0)

	def is_game_loaded(self):
		"""Checks if the current game is a new one, or a loaded one.
		@return: True if game is loaded, else False
		"""
		return (self.savecounter > 0)

	def remove_selected(self):
		self.log.debug('Removing %s', self.selected_instances)
		for instance in [inst for inst in self.selected_instances]:
			if instance.is_building:
				if instance.tearable and instance.owner is self.world.player:
					self.log.debug('Attempting to remove building %s', inst)
					Tear(instance).execute(self)
					self.selected_instances.discard(instance)
				else:
					self.log.debug('Unable to remove building %s', inst)
			elif instance.is_unit:
				if instance.owner is self.world.player:
					self.log.debug('Attempting to remove unit %s', inst)
					RemoveUnit(instance).execute(self)
					self.selected_instances.discard(instance)
				else:
					self.log.debug('Unable to remove unit %s', inst)
			else:
				self.log.error('Unable to remove unknown object %s', instance)

	def _do_save(self, savegame):
		"""Actual save code.
		@param savegame: absolute path"""
		assert os.path.isabs(savegame)
		self.log.debug("Session: Saving to %s", savegame)
		try:
			if os.path.exists(savegame):
				os.unlink(savegame)
			self.savecounter += 1

			db = DbReader(savegame)
		except IOError as e: # usually invalid filename
			headline = _("Failed to create savegame file")
			descr = _("There has been an error while creating your savegame file.")
			advice = _("This usually means that the savegame name contains unsupported special characters.")
			self.ingame_gui.show_error_popup(headline, descr, advice, unicode(e))
			# retry with new savegamename entered by the user
			# (this must not happen with quicksave/autosave)
			return self.save()
		except OSError as e:
			if e.errno != errno.EACCES:
				raise
			self.ingame_gui.show_error_popup(
				_("Access is denied"),
				_("The savegame file could be read-only or locked by another process.")
			)
			return self.save()

		try:
			read_savegame_template(db)

			db("BEGIN")
			self.world.save(db)
			self.view.save(db)
			self.ingame_gui.save(db)
			self.scenario_eventhandler.save(db)

			# Store RNG state
			rng_state = json.dumps(self.random.getstate())
			SavegameManager.write_metadata(db, self.savecounter, rng_state)

			# Make sure everything gets written now
			db("COMMIT")
			db.close()
			return True
		except Exception:
			self.log.error("Save Exception:")
			traceback.print_exc()
			# remove invalid savegamefile (but close db connection before deleting)
			db.close()
			os.unlink(savegame)
			return False
 def _load_raw_world(cls, map_file):
     WorldObject.reset()
     world = World(session=None)
     world.inited = True
     world.load_raw_map(SavegameAccessor(map_file, True), preview=True)
     return world
def load_raw_world(map_file):
	WorldObject.reset()
	world = World(session=None)
	world.inited = True
	world.load_raw_map(SavegameAccessor(map_file, True), preview=True)
	return world
Example #18
0
	def test_world_end(self):
		w = World(self.session)
		w.end()
Example #19
0
class Session(LivingObject):
	"""The Session class represents the game's main ingame view and controls cameras and map loading.
	It is alive as long as a game is running.
	Many objects require a reference to this, which makes it a pseudo-global, from which we would
	like to move away in the long term. This is where we hope the components come into play, which
	you will encounter later.

	This is the most important class if you are going to hack on Unknown Horizons; it provides most of
	the important ingame variables.
	Here's a small list of commonly used attributes:

	* world - horizons.world instance of the currently running horizons. Stores players and islands,
		which store settlements, which store buildings, which have productions and collectors.
		Therefore, world deserves its name -- it contains the whole game state.
	* scheduler - horizons.scheduler instance. Used to execute timed events. Master of time in UH.
	* manager - horizons.manager instance. Used to execute commands (used to apply user interactions).
		There is a singleplayer and a multiplayer version. Our mp system works by the mp-manager not
		executing the commands directly, but sending them to all players, where they will be executed
		at the same tick.
	* view - horizons.view instance. Used to control the ingame camera.
	* ingame_gui - horizons.gui.ingame_gui instance. Used to control the ingame gui framework.
		(This is different from gui, which is the main menu and general session-independent gui)
	* cursor - horizons.gui.{navigation/cursor/selection/building}tool instance. Used to handle
			   mouse events.
	* selected_instances - Set that holds the currently selected instances (building, units).

	TUTORIAL:
	For further digging you should now be checking out the load() function.
	"""
	timer = livingProperty()
	manager = livingProperty()
	view = livingProperty()
	ingame_gui = livingProperty()
	keylistener = livingProperty()
	scenario_eventhandler = livingProperty()

	log = logging.getLogger('session')

	def __init__(self, gui, db, rng_seed=None):
		super(Session, self).__init__()
		assert isinstance(db, horizons.util.uhdbaccessor.UhDbAccessor)
		self.log.debug("Initing session")
		self.gui = gui # main gui, not ingame gui
		self.db = db # main db for game data (game.sql)
		# this saves how often the current game has been saved
		self.savecounter = 0
		self.is_alive = True

		self._clear_caches()

		#game
		self.random = self.create_rng(rng_seed)
		assert isinstance(self.random, Random)
		self.timer = self.create_timer()
		Scheduler.create_instance(self.timer)
		self.manager = self.create_manager()
		self.view = View(self)
		Entities.load(self.db)
		self.scenario_eventhandler = ScenarioEventHandler(self) # dummy handler with no events
		self.campaign = {}

		#GUI
		self.gui.session = self
		self.ingame_gui = IngameGui(self, self.gui)
		self.keylistener = IngameKeyListener(self)
		self.coordinates_tooltip = None
		self.display_speed()
		LastActivePlayerSettlementManager.create_instance(self)


		self.status_icon_manager = StatusIconManager(
		  renderer=self.view.renderer['GenericRenderer'],
		  layer=self.view.layers[LAYERS.OBJECTS]
		  )
		self.production_finished_icon_manager = None
		self.create_production_finished_icon_manager()


		self.selected_instances = set()
		self.selection_groups = [set() for _ in range(10)]  # List of sets that holds the player assigned unit groups.

		self._old_autosave_interval = None

	def create_production_finished_icon_manager(self):
		""" Checks the settings if we should display resrouce icons.
		If True: Create the ProductionFinishedIconManager
		If False and a manager is currently running: End it
		"""
		show_resource_icons = bool(horizons.globals.fife.get_uh_setting("ShowResourceIcons"))
		if show_resource_icons:
			self.production_finished_icon_manager = ProductionFinishedIconManager(
				renderer=self.view.renderer['GenericRenderer'],
				layer=self.view.layers[LAYERS.OBJECTS]
			)
		else:
			self.end_production_finished_icon_manager()

	def start(self):
		"""Actually starts the game."""
		self.timer.activate()
		self.reset_autosave()

	def reset_autosave(self):
		"""(Re-)Set up autosave. Called if autosave interval has been changed."""
		# get_uh_setting returns floats like 4.0 and 42.0 since slider stepping is 1.0.
		interval = int(horizons.globals.fife.get_uh_setting("AutosaveInterval"))
		if interval != self._old_autosave_interval:
			self._old_autosave_interval = interval
			ExtScheduler().rem_call(self, self.autosave)
			if interval != 0: #autosave
				self.log.debug("Initing autosave every %s minutes", interval)
				ExtScheduler().add_new_object(self.autosave, self, interval * 60, -1)

	def create_manager(self):
		"""Returns instance of command manager (currently MPManager or SPManager)"""
		raise NotImplementedError

	def create_rng(self, seed=None):
		"""Returns a RNG (random number generator). Must support the python random.Random interface"""
		raise NotImplementedError

	def create_timer(self):
		"""Returns a Timer instance."""
		raise NotImplementedError

	@classmethod
	def _clear_caches(cls):
		"""Clear all data caches in global namespace related to a session"""
		WorldObject.reset()
		NamedComponent.reset()
		AIPlayer.clear_caches()
		SelectableBuildingComponent.reset()

	def end_production_finished_icon_manager(self):
		if self.production_finished_icon_manager is not None:
			self.production_finished_icon_manager.end()
			self.production_finished_icon_manager = None

	def end(self):
		self.log.debug("Ending session")
		self.is_alive = False

		self.gui.session = None

		# Has to be done here, cause the manager uses Scheduler!
		self.end_production_finished_icon_manager()
		Scheduler().rem_all_classinst_calls(self)
		ExtScheduler().rem_all_classinst_calls(self)

		if horizons.globals.fife.get_fife_setting("PlaySounds"):
			for emitter in horizons.globals.fife.sound.emitter['ambient'][:]:
				emitter.stop()
				horizons.globals.fife.sound.emitter['ambient'].remove(emitter)
			horizons.globals.fife.sound.emitter['effects'].stop()
			horizons.globals.fife.sound.emitter['speech'].stop()
		if hasattr(self, "cursor"): # the line below would crash uglily on ^C
			self.cursor.remove()

		if hasattr(self, 'cursor') and self.cursor is not None:
			self.cursor.end()
		# these will call end() if the attribute still exists by the LivingObject magic
		self.ingame_gui = None # keep this before world

		LastActivePlayerSettlementManager().remove() # keep after ingame_gui
		LastActivePlayerSettlementManager.destroy_instance()

		self.cursor = None
		self.world.end() # must be called before the world ref is gone
		self.world = None
		self.keylistener = None
		self.view = None
		self.manager = None
		self.timer = None
		self.scenario_eventhandler = None

		Scheduler().end()
		Scheduler.destroy_instance()

		self.selected_instances = None
		self.selection_groups = None

		self.status_icon_manager.end()
		self.status_icon_manager = None

		horizons.main._modules.session = None
		self._clear_caches()

		# subscriptions shouldn't survive listeners
		MessageBus().reset()

	def toggle_cursor(self, which, *args, **kwargs):
		"""Alternate between the cursor which and default.
		args and kwargs are used to construct which."""
		if self.current_cursor == which:
			self.set_cursor()
		else:
			self.set_cursor(which, *args, **kwargs)

	def set_cursor(self, which='default', *args, **kwargs):
		"""Sets the mousetool (i.e. cursor).
		This is done here for encapsulation and control over destructors.
		Further arguments are passed to the mouse tool constructor."""
		self.cursor.remove()
		self.current_cursor = which
		klass = {
			'default'   : SelectionTool,
		  'selection' : SelectionTool,
		  'tearing'   : TearingTool,
		  'pipette'   : PipetteTool,
		  'attacking' : AttackingTool,
		  'building'  : BuildingTool
		}[which]
		self.cursor = klass(self, *args, **kwargs)

	def toggle_destroy_tool(self):
		"""Initiate the destroy tool"""
		self.toggle_cursor('tearing')

	def autosave(self):
		raise NotImplementedError
	def quicksave(self):
		raise NotImplementedError
	def quickload(self):
		raise NotImplementedError
	def save(self, savegame=None):
		raise NotImplementedError

	def load(self, savegame, players, trader_enabled, pirate_enabled,
	         natural_resource_multiplier, is_scenario=False, campaign=None,
	         force_player_id=None, disasters_enabled=True, is_multiplayer=False):
		"""Loads a map. Key method for starting a game.
		@param savegame: path to the savegame database.
		@param players: iterable of dictionaries containing id, name, color, local, ai, and difficulty
		@param is_scenario: Bool whether the loaded map is a scenario or not
		@param force_player_id: the worldid of the selected human player or default if None (debug option)
		"""
		"""
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialised.
		"""
		if is_scenario:
			# savegame is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, savegame)
			# scenario maps can be normal maps or scenario maps:
			map_filename = self.scenario_eventhandler.get_map_file()
			savegame = os.path.join(SavegameManager.scenario_maps_dir, map_filename)
			if not os.path.exists(savegame):
				savegame = os.path.join(SavegameManager.maps_dir, map_filename)
		self.campaign = {} if not campaign else campaign

		self.log.debug("Session: Loading from %s", savegame)
		savegame_db = SavegameAccessor(savegame) # Initialize new dbreader
		savegame_data = SavegameManager.get_metadata(savegame)

		# load how often the game has been saved (used to know the difference between
		# a loaded and a new game)
		self.savecounter = savegame_data.get('savecounter', 0)

		if savegame_data.get('rng_state', None):
			rng_state_list = json.loads( savegame_data['rng_state'] )
			# json treats tuples as lists, but we need tuples here, so convert back
			def rec_list_to_tuple(x):
				if isinstance(x, list):
					return tuple( rec_list_to_tuple(i) for i in x )
				else:
					return x
			rng_state_tuple = rec_list_to_tuple(rng_state_list)
			# changing the rng is safe for mp, as all players have to have the same map
			self.random.setstate( rng_state_tuple )

		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db, force_player_id, disasters_enabled=disasters_enabled)
		self.view.load(savegame_db) # load view
		if not self.is_game_loaded():
			# NOTE: this must be sorted before iteration, cause there is no defined order for
			#       iterating a dict, and it must happen in the same order for mp games.
			for i in sorted(players, lambda p1, p2: cmp(p1['id'], p2['id'])):
				self.world.setup_player(i['id'], i['name'], i['color'], i['clientid'] if is_multiplayer else None, i['local'], i['ai'], i['difficulty'])
			self.world.set_forced_player(force_player_id)
			center = self.world.init_new_world(trader_enabled, pirate_enabled, natural_resource_multiplier)
			self.view.center(center[0], center[1])
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might me old scheduled ticks).
		self.world.init_fish_indexer() # now the fish should exist
		if self.is_game_loaded():
			LastActivePlayerSettlementManager().load(savegame_db) # before ingamegui
		self.ingame_gui.load(savegame_db) # load the old gui positions and stuff

		for instance_id in savegame_db("SELECT id FROM selected WHERE `group` IS NULL"): # Set old selected instance
			obj = WorldObject.get_object_by_id(instance_id[0])
			self.selected_instances.add(obj)
			obj.get_component(SelectableComponent).select()
		for group in xrange(len(self.selection_groups)): # load user defined unit groups
			for instance_id in savegame_db("SELECT id FROM selected WHERE `group` = ?", group):
				self.selection_groups[group].add(WorldObject.get_object_by_id(instance_id[0]))

		# cursor has to be inited last, else player interacts with a not inited world with it.
		self.current_cursor = 'default'
		self.cursor = SelectionTool(self)
		# Set cursor correctly, menus might need to be opened.
		# Open menus later; they may need unit data not yet inited
		self.cursor.apply_select()

		Scheduler().before_ticking()
		savegame_db.close()

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		"""
		TUTORIAL:
		That's it. After that, we call start() to activate the timer, and we're live.
		From here on you should dig into the classes that are loaded above, especially the world class
		(horizons/world/__init__.py). It's where the magic happens and all buildings and units are loaded.
		"""

	def speed_set(self, ticks, suggestion=False):
		"""Set game speed to ticks ticks per second"""
		old = self.timer.ticks_per_second
		self.timer.ticks_per_second = ticks
		self.view.map.setTimeMultiplier(float(ticks) / float(GAME_SPEED.TICKS_PER_SECOND))
		if old == 0 and self.timer.tick_next_time is None: # back from paused state
			if self.paused_time_missing is None:
				# happens if e.g. a dialog pauses the game during startup on hotkeypress
				self.timer.tick_next_time = time.time()
			else:
				self.timer.tick_next_time = time.time() + (self.paused_time_missing / ticks)
		elif ticks == 0 or self.timer.tick_next_time is None:
			# go into paused state or very early speed change (before any tick)
			if self.timer.tick_next_time is not None:
				self.paused_time_missing = (self.timer.tick_next_time - time.time()) * old
			else:
				self.paused_time_missing = None
			self.timer.tick_next_time = None
		else:
			"""
			Under odd circumstances (anti-freeze protection just activated, game speed
			decremented multiple times within this frame) this can delay the next tick
			by minutes. Since the positive effects of the code aren't really observeable,
			this code is commented out and possibly will be removed.

			# correct the time until the next tick starts
			time_to_next_tick = self.timer.tick_next_time - time.time()
			if time_to_next_tick > 0: # only do this if we aren't late
				self.timer.tick_next_time += (time_to_next_tick * old / ticks)
			"""
		self.display_speed()

	def display_speed(self):
		text = u''
		up_icon = self.ingame_gui.widgets['minimap'].findChild(name='speedUp')
		down_icon = self.ingame_gui.widgets['minimap'].findChild(name='speedDown')
		tps = self.timer.ticks_per_second
		if tps == 0: # pause
			text = u'0x'
			up_icon.set_inactive()
			down_icon.set_inactive()
		else:
			if tps != GAME_SPEED.TICKS_PER_SECOND:
				text = unicode("%1gx" % (tps * 1.0/GAME_SPEED.TICKS_PER_SECOND))
				#%1g: displays 0.5x, but 2x instead of 2.0x
			index = GAME_SPEED.TICK_RATES.index(tps)
			if index + 1 >= len(GAME_SPEED.TICK_RATES):
				up_icon.set_inactive()
			else:
				up_icon.set_active()
			if index > 0:
				down_icon.set_active()
			else:
				down_icon.set_inactive()
		self.ingame_gui.display_game_speed(text)


	def speed_up(self):
		if self.speed_is_paused():
			AmbientSoundComponent.play_special('error')
			return
		if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
			i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
			if i + 1 < len(GAME_SPEED.TICK_RATES):
				self.speed_set(GAME_SPEED.TICK_RATES[i + 1])
		else:
			self.speed_set(GAME_SPEED.TICK_RATES[0])

	def speed_down(self):
		if self.speed_is_paused():
			AmbientSoundComponent.play_special('error')
			return
		if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
			i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
			if i > 0:
				self.speed_set(GAME_SPEED.TICK_RATES[i - 1])
		else:
			self.speed_set(GAME_SPEED.TICK_RATES[0])

	_pause_stack = 0 # this saves the level of pausing
	# e.g. if two dialogs are displayed, that pause the game,
	# unpause needs to be called twice to unpause the game. cf. #876
	def speed_pause(self, suggestion=False):
		self.log.debug("Session: Pausing")
		self._pause_stack += 1
		if not self.speed_is_paused():
			self.paused_ticks_per_second = self.timer.ticks_per_second
			self.speed_set(0, suggestion)

	def speed_unpause(self, suggestion=False):
		self.log.debug("Session: Unpausing")
		if self.speed_is_paused():
			self._pause_stack -= 1
			if self._pause_stack == 0:
				self.speed_set(self.paused_ticks_per_second)

				# check if resource icons should be displayed (possible changes in settings)
				self.create_production_finished_icon_manager()

	def speed_toggle_pause(self, suggestion=False):
		if self.speed_is_paused():
			self.speed_unpause(suggestion)
		else:
			self.speed_pause(suggestion)

	def speed_is_paused(self):
		return (self.timer.ticks_per_second == 0)

	def is_game_loaded(self):
		"""Checks if the current game is a new one, or a loaded one.
		@return: True if game is loaded, else False
		"""
		return (self.savecounter > 0)

	def remove_selected(self):
		self.log.debug('Removing %s', self.selected_instances)
		for instance in [inst for inst in self.selected_instances]:
			if instance.is_building:
				if instance.tearable and instance.owner is self.world.player:
					self.log.debug('Attempting to remove building %s', inst)
					Tear(instance).execute(self)
					self.selected_instances.discard(instance)
				else:
					self.log.debug('Unable to remove building %s', inst)
			elif instance.is_unit:
				if instance.owner is self.world.player:
					self.log.debug('Attempting to remove unit %s', inst)
					RemoveUnit(instance).execute(self)
					self.selected_instances.discard(instance)
				else:
					self.log.debug('Unable to remove unit %s', inst)
			else:
				self.log.error('Unable to remove unknown object %s', instance)

	def save_map(self, prefix):
		maps_folder = os.path.join(PATHS.USER_DIR, 'maps')
		if not os.path.exists(maps_folder):
			os.makedirs(maps_folder)
		self.world.save_map(maps_folder, prefix)

	def _do_save(self, savegame):
		"""Actual save code.
		@param savegame: absolute path"""
		assert os.path.isabs(savegame)
		self.log.debug("Session: Saving to %s", savegame)
		try:
			if os.path.exists(savegame):
				os.unlink(savegame)
			self.savecounter += 1

			db = DbReader(savegame)
		except IOError as e: # usually invalid filename
			headline = _("Failed to create savegame file")
			descr = _("There has been an error while creating your savegame file.")
			advice = _("This usually means that the savegame name contains unsupported special characters.")
			self.gui.show_error_popup(headline, descr, advice, unicode(e))
			return self.save() # retry with new savegamename entered by the user
			# this must not happen with quicksave/autosave
		except OSError as e:
			if e.errno == errno.EACCES:
				self.gui.show_error_popup(_("Access is denied"),
				                          _("The savegame file could be read-only or locked by another process."))
				return self.save()
			raise

		try:
			read_savegame_template(db)

			db("BEGIN")
			self.world.save(db)
			#self.manager.save(db)
			self.view.save(db)
			self.ingame_gui.save(db)
			self.scenario_eventhandler.save(db)
			LastActivePlayerSettlementManager().save(db)

			for instance in self.selected_instances:
				db("INSERT INTO selected(`group`, id) VALUES(NULL, ?)", instance.worldid)
			for group in xrange(len(self.selection_groups)):
				for instance in self.selection_groups[group]:
					db("INSERT INTO selected(`group`, id) VALUES(?, ?)", group, instance.worldid)

			rng_state = json.dumps( self.random.getstate() )
			SavegameManager.write_metadata(db, self.savecounter, rng_state)
			# make sure everything gets written now
			db("COMMIT")
			db.close()
			return True
		except:
			print "Save Exception"
			traceback.print_exc()
			db.close() # close db before delete
			os.unlink(savegame) # remove invalid savegamefile
			return False
	def test_world_end(self):
		w = World(self.session)
		w.end()
Example #21
0
class Session(LivingObject):
    """The Session class represents the game's main ingame view and controls cameras and map loading.
	It is alive as long as a game is running.
	Many objects require a reference to this, which makes it a pseudo-global, from which we would
	like to move away in the long term. This is where we hope the components come into play, which
	you will encounter later.

	This is the most important class if you are going to hack on Unknown Horizons; it provides most of
	the important ingame variables.
	Here's a small list of commonly used attributes:

	* world - horizons.world instance of the currently running horizons. Stores players and islands,
		which store settlements, which store buildings, which have productions and collectors.
		Therefore, world deserves its name -- it contains the whole game state.
	* scheduler - horizons.scheduler instance. Used to execute timed events. Master of time in UH.
	* manager - horizons.manager instance. Used to execute commands (used to apply user interactions).
		There is a singleplayer and a multiplayer version. Our mp system works by the mp-manager not
		executing the commands directly, but sending them to all players, where they will be executed
		at the same tick.
	* view - horizons.view instance. Used to control the ingame camera.
	* ingame_gui - horizons.gui.ingame_gui instance. Used to control the ingame gui framework.
		(This is different from gui, which is the main menu and general session-independent gui)
	* selected_instances - Set that holds the currently selected instances (building, units).

	TUTORIAL:
	For further digging you should now be checking out the load() function.
	"""
    timer = livingProperty()
    manager = livingProperty()
    view = livingProperty()
    ingame_gui = livingProperty()
    scenario_eventhandler = livingProperty()

    log = logging.getLogger('session')

    def __init__(self, db, rng_seed=None, ingame_gui_class=IngameGui):
        super(Session, self).__init__()
        assert isinstance(db, horizons.util.uhdbaccessor.UhDbAccessor)
        self.log.debug("Initing session")
        self.db = db  # main db for game data (game.sql)
        # this saves how often the current game has been saved
        self.savecounter = 0
        self.is_alive = True
        self.paused_ticks_per_second = GAME_SPEED.TICKS_PER_SECOND

        self._clear_caches()

        #game
        self.random = self.create_rng(rng_seed)
        assert isinstance(self.random, Random)
        self.timer = self.create_timer()
        Scheduler.create_instance(self.timer)
        self.manager = self.create_manager()
        self.view = View()
        Entities.load(self.db)
        self.scenario_eventhandler = ScenarioEventHandler(
            self)  # dummy handler with no events

        #GUI
        self._ingame_gui_class = ingame_gui_class

        self.selected_instances = set()
        # List of sets that holds the player assigned unit groups.
        self.selection_groups = [set() for _unused in range(10)]

        self._old_autosave_interval = None

    def start(self):
        """Actually starts the game."""
        self.timer.activate()
        self.scenario_eventhandler.start()
        self.reset_autosave()
        SettingChanged.subscribe(self._on_setting_changed)

    def reset_autosave(self):
        """(Re-)Set up autosave. Called if autosave interval has been changed."""
        # get_uh_setting returns floats like 4.0 and 42.0 since slider stepping is 1.0.
        interval = int(
            horizons.globals.fife.get_uh_setting("AutosaveInterval"))
        if interval != self._old_autosave_interval:
            self._old_autosave_interval = interval
            ExtScheduler().rem_call(self, self.autosave)
            if interval != 0:  #autosave
                self.log.debug("Initing autosave every %s minutes", interval)
                ExtScheduler().add_new_object(self.autosave, self,
                                              interval * 60, -1)

    def _on_setting_changed(self, message):
        if message.setting_name == 'AutosaveInterval':
            self.reset_autosave()

    def create_manager(self):
        """Returns instance of command manager (currently MPManager or SPManager)"""
        raise NotImplementedError

    def create_rng(self, seed=None):
        """Returns a RNG (random number generator). Must support the python random.Random interface"""
        raise NotImplementedError

    def create_timer(self):
        """Returns a Timer instance."""
        raise NotImplementedError

    @classmethod
    def _clear_caches(cls):
        """Clear all data caches in global namespace related to a session"""
        WorldObject.reset()
        NamedComponent.reset()
        AIPlayer.clear_caches()
        SelectableBuildingComponent.reset()

    def end(self):
        self.log.debug("Ending session")
        self.is_alive = False

        # Has to be done here, cause the manager uses Scheduler!
        Scheduler().rem_all_classinst_calls(self)
        ExtScheduler().rem_all_classinst_calls(self)

        horizons.globals.fife.sound.end()

        # these will call end() if the attribute still exists by the LivingObject magic
        self.ingame_gui = None  # keep this before world

        if hasattr(self, 'world'):
            # must be called before the world ref is gone, but may not exist yet while loading
            self.world.end()
        self.world = None
        self.view = None
        self.manager = None
        self.timer = None
        self.scenario_eventhandler = None

        Scheduler().end()
        Scheduler.destroy_instance()

        self.selected_instances = None
        self.selection_groups = None

        self._clear_caches()

        # discard() in case loading failed and we did not yet subscribe
        SettingChanged.discard(self._on_setting_changed)
        MessageBus().reset()

    def quit(self):
        self.end()
        horizons.main.quit_session()

    def autosave(self):
        raise NotImplementedError

    def quicksave(self):
        raise NotImplementedError

    def quickload(self):
        raise NotImplementedError

    def save(self, savegame=None):
        raise NotImplementedError

    def load(self, options):
        """Loads a map. Key method for starting a game."""
        """
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialized.
		"""
        if options.is_scenario:
            # game_identifier is a yaml file, that contains reference to actual map file
            self.scenario_eventhandler = ScenarioEventHandler(
                self, options.game_identifier)
            # scenario maps can be normal maps or scenario maps:
            map_filename = self.scenario_eventhandler.get_map_file()
            options.game_identifier = os.path.join(
                SavegameManager.scenario_maps_dir, map_filename)
            if not os.path.exists(options.game_identifier):
                options.game_identifier = os.path.join(
                    SavegameManager.maps_dir, map_filename)
            options.is_map = True

        self.log.debug("Session: Loading from %s", options.game_identifier)
        savegame_db = SavegameAccessor(options.game_identifier, options.is_map,
                                       options)  # Initialize new dbreader
        savegame_data = SavegameManager.get_metadata(savegame_db.db_path)
        self.view.resize_layers(savegame_db)

        # load how often the game has been saved (used to know the difference between
        # a loaded and a new game)
        self.savecounter = savegame_data.get('savecounter', 0)

        if savegame_data.get('rng_state', None):
            rng_state_list = json.loads(savegame_data['rng_state'])

            # json treats tuples as lists, but we need tuples here, so convert back
            def rec_list_to_tuple(x):
                if isinstance(x, list):
                    return tuple(rec_list_to_tuple(i) for i in x)
                else:
                    return x

            rng_state_tuple = rec_list_to_tuple(rng_state_list)
            # changing the rng is safe for mp, as all players have to have the same map
            self.random.setstate(rng_state_tuple)

        LoadingProgress.broadcast(self, 'session_create_world')
        self.world = World(
            self
        )  # Load horizons.world module (check horizons/world/__init__.py)
        self.world._init(savegame_db,
                         options.force_player_id,
                         disasters_enabled=options.disasters_enabled)
        self.view.load(savegame_db, self.world)  # load view
        if not self.is_game_loaded():
            options.init_new_world(self)
        else:
            # try to load scenario data
            self.scenario_eventhandler.load(savegame_db)
        self.manager.load(
            savegame_db
        )  # load the manager (there might be old scheduled ticks).
        LoadingProgress.broadcast(self, "session_index_fish")
        self.world.init_fish_indexer()  # now the fish should exist

        # load the old gui positions and stuff
        # Do this before loading selections, they need the minimap setup
        LoadingProgress.broadcast(self, "session_load_gui")
        self.ingame_gui = self._ingame_gui_class(self)
        self.ingame_gui.load(savegame_db)

        Scheduler().before_ticking()
        savegame_db.close()

        assert hasattr(self.world, "player"), 'Error: there is no human player'
        LoadingProgress.broadcast(self, "session_finish")
        """
		TUTORIAL:
		That's it. After that, we call start() to activate the timer, and we're live.
		From here on you should dig into the classes that are loaded above, especially the world class
		(horizons/world/__init__.py). It's where the magic happens and all buildings and units are loaded.
		"""

    def speed_set(self, ticks, suggestion=False):
        """Set game speed to ticks ticks per second"""
        old = self.timer.ticks_per_second
        self.timer.ticks_per_second = ticks
        self.view.map.setTimeMultiplier(
            float(ticks) / float(GAME_SPEED.TICKS_PER_SECOND))
        if old == 0 and self.timer.tick_next_time is None:  # back from paused state
            if self.paused_time_missing is None:
                # happens if e.g. a dialog pauses the game during startup on hotkeypress
                self.timer.tick_next_time = time.time()
            else:
                self.timer.tick_next_time = time.time() + (
                    self.paused_time_missing / ticks)
        elif ticks == 0 or self.timer.tick_next_time is None:
            # go into paused state or very early speed change (before any tick)
            if self.timer.tick_next_time is not None:
                self.paused_time_missing = (self.timer.tick_next_time -
                                            time.time()) * old
            else:
                self.paused_time_missing = None
            self.timer.tick_next_time = None
        else:
            """
			Under odd circumstances (anti-freeze protection just activated, game speed
			decremented multiple times within this frame) this can delay the next tick
			by minutes. Since the positive effects of the code aren't really observeable,
			this code is commented out and possibly will be removed.

			# correct the time until the next tick starts
			time_to_next_tick = self.timer.tick_next_time - time.time()
			if time_to_next_tick > 0: # only do this if we aren't late
				self.timer.tick_next_time += (time_to_next_tick * old / ticks)
			"""

        SpeedChanged.broadcast(self, old, ticks)

    def speed_up(self):
        if self.speed_is_paused():
            AmbientSoundComponent.play_special('error')
            return
        if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
            i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
            if i + 1 < len(GAME_SPEED.TICK_RATES):
                self.speed_set(GAME_SPEED.TICK_RATES[i + 1])
        else:
            self.speed_set(GAME_SPEED.TICK_RATES[0])

    def speed_down(self):
        if self.speed_is_paused():
            AmbientSoundComponent.play_special('error')
            return
        if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
            i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
            if i > 0:
                self.speed_set(GAME_SPEED.TICK_RATES[i - 1])
        else:
            self.speed_set(GAME_SPEED.TICK_RATES[0])

    _pause_stack = 0  # this saves the level of pausing

    # e.g. if two dialogs are displayed, that pause the game,
    # unpause needs to be called twice to unpause the game. cf. #876
    def speed_pause(self, suggestion=False):
        self.log.debug("Session: Pausing")
        self._pause_stack += 1
        if not self.speed_is_paused():
            self.paused_ticks_per_second = self.timer.ticks_per_second
            self.speed_set(0, suggestion)

    def speed_unpause(self, suggestion=False):
        self.log.debug("Session: Unpausing")
        if self.speed_is_paused():
            self._pause_stack -= 1
            if self._pause_stack == 0:
                self.speed_set(self.paused_ticks_per_second)

    def speed_toggle_pause(self, suggestion=False):
        if self.speed_is_paused():
            self.speed_unpause(suggestion)
        else:
            self.speed_pause(suggestion)

    def speed_is_paused(self):
        return (self.timer.ticks_per_second == 0)

    def is_game_loaded(self):
        """Checks if the current game is a new one, or a loaded one.
		@return: True if game is loaded, else False
		"""
        return (self.savecounter > 0)

    def remove_selected(self):
        self.log.debug('Removing %s', self.selected_instances)
        for instance in [inst for inst in self.selected_instances]:
            if instance.is_building:
                if instance.tearable and instance.owner is self.world.player:
                    self.log.debug('Attempting to remove building %s', inst)
                    Tear(instance).execute(self)
                    self.selected_instances.discard(instance)
                else:
                    self.log.debug('Unable to remove building %s', inst)
            elif instance.is_unit:
                if instance.owner is self.world.player:
                    self.log.debug('Attempting to remove unit %s', inst)
                    RemoveUnit(instance).execute(self)
                    self.selected_instances.discard(instance)
                else:
                    self.log.debug('Unable to remove unit %s', inst)
            else:
                self.log.error('Unable to remove unknown object %s', instance)

    def _do_save(self, savegame):
        """Actual save code.
		@param savegame: absolute path"""
        assert os.path.isabs(savegame)
        self.log.debug("Session: Saving to %s", savegame)
        try:
            if os.path.exists(savegame):
                os.unlink(savegame)
            self.savecounter += 1

            db = DbReader(savegame)
        except IOError as e:  # usually invalid filename
            headline = T("Failed to create savegame file")
            descr = T(
                "There has been an error while creating your savegame file.")
            advice = T(
                "This usually means that the savegame name contains unsupported special characters."
            )
            self.ingame_gui.open_error_popup(headline, descr, advice,
                                             unicode(e))
            # retry with new savegamename entered by the user
            # (this must not happen with quicksave/autosave)
            return self.save()
        except OSError as e:
            if e.errno != errno.EACCES:
                raise
            self.ingame_gui.open_error_popup(
                T("Access is denied"),
                T("The savegame file could be read-only or locked by another process."
                  ))
            return self.save()

        try:
            read_savegame_template(db)

            db("BEGIN")
            self.world.save(db)
            self.view.save(db)
            self.ingame_gui.save(db)
            self.scenario_eventhandler.save(db)

            # Store RNG state
            rng_state = json.dumps(self.random.getstate())
            SavegameManager.write_metadata(db, self.savecounter, rng_state)

            # Make sure everything gets written now
            db("COMMIT")
            db.close()
            return True
        except Exception:
            self.log.error("Save Exception:")
            traceback.print_exc()
            # remove invalid savegamefile (but close db connection before deleting)
            db.close()
            os.unlink(savegame)
            return False
Example #22
0
class Session(LivingObject):
	"""Session class represents the games main ingame view and controls cameras and map loading.
	It is alive as long as a game is running.
	Many objects require a reference to this, which makes it a pseudo-global, from what we would
	like to move away long-term. This is where we hope the components come into play, which
	you will encounter later

	This is the most important class if you are going to hack on Unknown Horizons, it provides most of
	the important ingame variables.
	Here's a small list of commonly used attributes:

	* world - horizons.world instance of the currently running horizons. Stores players and islands,
		which store settlements, which store buildings, which have productions and collectors.
		Therefore world deserves its name, it contains the whole game state.
	* scheduler - horizons.scheduler instance. Used to execute timed events. Master of time in UH.
	* manager - horizons.manager instance. Used to execute commands (used to apply user interactions).
		There is a singleplayer and a multiplayer version. Our mp system works by the mp-manager not
		executing the commands directly, but sending them to all players, where they will be executed
		at the same tick.
	* view - horizons.view instance. Used to control the ingame camera.
	* ingame_gui - horizons.gui.ingame_gui instance. Used to control the ingame gui framework.
		(This is different from gui, which is the main menu and general session-independent gui)
	* cursor - horizons.gui.{navigation/cursor/selection/building}tool instance. Used to handle
			   mouse events.
	* selected_instances - Set that holds the currently selected instances (building, units).

	TUTORIAL:
	For further digging you should now be checking out the load() function.
	"""
	timer = livingProperty()
	manager = livingProperty()
	view = livingProperty()
	ingame_gui = livingProperty()
	keylistener = livingProperty()
	world = livingProperty()
	scenario_eventhandler = livingProperty()

	log = logging.getLogger('session')

	def __init__(self, gui, db, rng_seed=None):
		super(Session, self).__init__()
		assert isinstance(gui, Gui)
		assert isinstance(db, horizons.util.uhdbaccessor.UhDbAccessor)
		self.log.debug("Initing session")
		self.gui = gui # main gui, not ingame gui
		self.db = db # main db for game data (game.sql)
		# this saves how often the current game has been saved
		self.savecounter = 0
		self.is_alive = True

		self.message_bus = MessageBus()

		# misc
		WorldObject.reset()
		NamedComponent.reset()
		AIPlayer.clear_caches()

		#game
		self.random = self.create_rng(rng_seed)
		assert isinstance(self.random, Random)
		self.timer = self.create_timer()
		Scheduler.create_instance(self.timer)
		self.manager = self.create_manager()
		self.view = View(self)
		Entities.load(self.db)
		self.scenario_eventhandler = ScenarioEventHandler(self) # dummy handler with no events
		self.campaign = {}

		#GUI
		self.gui.session = self
		self.ingame_gui = IngameGui(self, self.gui)
		self.keylistener = IngameKeyListener(self)
		self.coordinates_tooltip = None
		self.display_speed()
		LastActivePlayerSettlementManager.create_instance(self)


		self.status_icon_manager = StatusIconManager(self)

		self.selected_instances = set()
		self.selection_groups = [set()] * 10 # List of sets that holds the player assigned unit groups.

	def start(self):
		"""Actually starts the game."""
		self.timer.activate()

	def create_manager(self):
		"""Returns instance of command manager (currently MPManager or SPManager)"""
		raise NotImplementedError

	def create_rng(self, seed=None):
		"""Returns a RNG (random number generator). Must support the python random.Random interface"""
		raise NotImplementedError

	def create_timer(self):
		"""Returns a Timer instance."""
		raise NotImplementedError

	def end(self):
		self.log.debug("Ending session")
		self.is_alive = False

		LastActivePlayerSettlementManager().remove()
		LastActivePlayerSettlementManager.destroy_instance()

		self.gui.session = None

		Scheduler().rem_all_classinst_calls(self)
		ExtScheduler().rem_all_classinst_calls(self)

		if horizons.main.fife.get_fife_setting("PlaySounds"):
			for emitter in horizons.main.fife.sound.emitter['ambient'][:]:
				emitter.stop()
				horizons.main.fife.sound.emitter['ambient'].remove(emitter)
			horizons.main.fife.sound.emitter['effects'].stop()
			horizons.main.fife.sound.emitter['speech'].stop()
		if hasattr(self, "cursor"): # the line below would crash uglily on ^C
			self.cursor.remove()
		self.cursor = None
		self.world = None
		self.keylistener = None
		self.ingame_gui = None
		self.view = None
		self.manager = None
		self.timer = None
		self.scenario_eventhandler = None
		Scheduler.destroy_instance()


		self.selected_instances = None
		self.selection_groups = None

	def toggle_cursor(self, which, *args, **kwargs):
		"""Alternate between the cursor which and default.
		args and kwargs are used to construct which."""
		if self.current_cursor == which:
			self.set_cursor()
		else:
			self.set_cursor(which, *args, **kwargs)

	def set_cursor(self, which='default', *args, **kwargs):
		"""Sets the mousetool (i.e. cursor).
		This is done here for encapsulation and control over destructors.
		Further arguments are passed to the mouse tool constructor."""
		self.cursor.remove()
		self.current_cursor = which
		klass = {
			'default'   : SelectionTool,
		  'selection' : SelectionTool,
		  'tearing'   : TearingTool,
		  'pipette'   : PipetteTool,
		  'attacking' : AttackingTool,
		  'building'  : BuildingTool
		}[which]
		self.cursor = klass(self, *args, **kwargs)

	def toggle_destroy_tool(self):
		"""Initiate the destroy tool"""
		self.toggle_cursor('tearing')

	def autosave(self):
		raise NotImplementedError
	def quicksave(self):
		raise NotImplementedError
	def quickload(self):
		raise NotImplementedError
	def save(self, savegame=None):
		raise NotImplementedError

	def load(self, savegame, players, trader_enabled, pirate_enabled,
	         natural_resource_multiplier, is_scenario=False, campaign=None,
	         force_player_id=None, disasters_enabled=True):
		"""Loads a map. Key method for starting a game.
		@param savegame: path to the savegame database.
		@param players: iterable of dictionaries containing id, name, color, local, ai, and difficulty
		@param is_scenario: Bool whether the loaded map is a scenario or not
		@param force_player_id: the worldid of the selected human player or default if None (debug option)
		"""
		"""
		TUTORIAL: Here you see how the vital game elements (and some random things that are also required)
		are initialised
		"""
		if is_scenario:
			# savegame is a yaml file, that contains reference to actual map file
			self.scenario_eventhandler = ScenarioEventHandler(self, savegame)
			# scenario maps can be normal maps or scenario maps:
			map_filename = self.scenario_eventhandler.get_map_file()
			savegame = os.path.join(SavegameManager.scenario_maps_dir, map_filename)
			if not os.path.exists(savegame):
				savegame = os.path.join(SavegameManager.maps_dir, map_filename)
		self.campaign = {} if not campaign else campaign

		self.log.debug("Session: Loading from %s", savegame)
		savegame_db = SavegameAccessor(savegame) # Initialize new dbreader
		savegame_data = SavegameManager.get_metadata(savegame)

		# load how often the game has been saved (used to know the difference between
		# a loaded and a new game)
		self.savecounter = 0 if not 'savecounter' in savegame_data else savegame_data['savecounter']

		if savegame_data.get('rng_state', None):
			rng_state_list = json.loads( savegame_data['rng_state'] )
			# json treats tuples as lists, but we need tuples here, so convert back
			def rec_list_to_tuple(x):
				if isinstance(x, list):
					return tuple( rec_list_to_tuple(i) for i in x )
				else:
					return x
			rng_state_tuple = rec_list_to_tuple(rng_state_list)
			# changing the rng is safe for mp, as all players have to have the same map
			self.random.setstate( rng_state_tuple )

		self.world = World(self) # Load horizons.world module (check horizons/world/__init__.py)
		self.world._init(savegame_db, force_player_id, disasters_enabled=disasters_enabled)
		self.view.load(savegame_db) # load view
		if not self.is_game_loaded():
			# NOTE: this must be sorted before iteration, cause there is no defined order for
			#       iterating a dict, and it must happen in the same order for mp games.
			for i in sorted(players, lambda p1, p2: cmp(p1['id'], p2['id'])):
				self.world.setup_player(i['id'], i['name'], i['color'], i['local'], i['ai'], i['difficulty'])
			self.world.set_forced_player(force_player_id)
			center = self.world.init_new_world(trader_enabled, pirate_enabled, natural_resource_multiplier)
			self.view.center(center[0], center[1])
		else:
			# try to load scenario data
			self.scenario_eventhandler.load(savegame_db)
		self.manager.load(savegame_db) # load the manager (there might me old scheduled ticks).
		self.world.init_fish_indexer() # now the fish should exist
		self.ingame_gui.load(savegame_db) # load the old gui positions and stuff

		for instance_id in savegame_db("SELECT id FROM selected WHERE `group` IS NULL"): # Set old selected instance
			obj = WorldObject.get_object_by_id(instance_id[0])
			self.selected_instances.add(obj)
			obj.get_component(SelectableComponent).select()
		for group in xrange(len(self.selection_groups)): # load user defined unit groups
			for instance_id in savegame_db("SELECT id FROM selected WHERE `group` = ?", group):
				self.selection_groups[group].add(WorldObject.get_object_by_id(instance_id[0]))

		# cursor has to be inited last, else player interacts with a not inited world with it.
		self.current_cursor = 'default'
		self.cursor = SelectionTool(self)
		# Set cursor correctly, menus might need to be opened.
		# Open menus later, they may need unit data not yet inited
		self.cursor.apply_select()

		Scheduler().before_ticking()
		savegame_db.close()

		assert hasattr(self.world, "player"), 'Error: there is no human player'
		"""
		TUTORIAL:
		That's it. After that, we call start() to activate the timer, and we're on live.
		From here on you should digg into the classes that are loaded above, especially the world class.
		(horizons/world/__init__.py). It's where the magic happens and all buildings and units are loaded.
		"""

	def speed_set(self, ticks, suggestion=False):
		"""Set game speed to ticks ticks per second"""
		raise NotImplementedError

	def display_speed(self):
		text = u''
		up_icon = self.ingame_gui.widgets['minimap'].findChild(name='speedUp')
		down_icon = self.ingame_gui.widgets['minimap'].findChild(name='speedDown')
		tps = self.timer.ticks_per_second
		if tps == 0: # pause
			text = u'0x'
			up_icon.set_inactive()
			down_icon.set_inactive()
		else:
			if tps != GAME_SPEED.TICKS_PER_SECOND:
				text = unicode("%1gx" % (tps * 1.0/GAME_SPEED.TICKS_PER_SECOND))
				#%1g: displays 0.5x, but 2x instead of 2.0x
			index = GAME_SPEED.TICK_RATES.index(tps)
			if index + 1 >= len(GAME_SPEED.TICK_RATES):
				up_icon.set_inactive()
			else:
				up_icon.set_active()
			if index > 0:
				down_icon.set_active()
			else:
				down_icon.set_inactive()
		self.ingame_gui.display_game_speed(text)


	def speed_up(self):
		if self.speed_is_paused():
			AmbientSoundComponent.play_special('error')
			return
		if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
			i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
			if i + 1 < len(GAME_SPEED.TICK_RATES):
				self.speed_set(GAME_SPEED.TICK_RATES[i + 1])
		else:
			self.speed_set(GAME_SPEED.TICK_RATES[0])

	def speed_down(self):
		if self.speed_is_paused():
			AmbientSoundComponent.play_special('error')
			return
		if self.timer.ticks_per_second in GAME_SPEED.TICK_RATES:
			i = GAME_SPEED.TICK_RATES.index(self.timer.ticks_per_second)
			if i > 0:
				self.speed_set(GAME_SPEED.TICK_RATES[i - 1])
		else:
			self.speed_set(GAME_SPEED.TICK_RATES[0])

	_pause_stack = 0 # this saves the level of pausing
	# e.g. if two dialogs are displayed, that pause the game,
	# unpause needs to be called twice to unpause the game. cf. #876
	def speed_pause(self, suggestion=False):
		self.log.debug("Session: Pausing")
		self._pause_stack += 1
		if not self.speed_is_paused():
			self.paused_ticks_per_second = self.timer.ticks_per_second
			self.speed_set(0, suggestion)

	def speed_unpause(self, suggestion=False):
		self.log.debug("Session: Unpausing")
		if self.speed_is_paused():
			self._pause_stack -= 1
			if self._pause_stack == 0:
				self.speed_set(self.paused_ticks_per_second)

	def speed_toggle_pause(self, suggestion=False):
		if self.speed_is_paused():
			self.speed_unpause(suggestion)
		else:
			self.speed_pause(suggestion)

	def speed_is_paused(self):
		return (self.timer.ticks_per_second == 0)

	def is_game_loaded(self):
		"""Checks if the current game is a new one, or a loaded one.
		@return: True if game is loaded, else False
		"""
		return (self.savecounter > 0)

	def remove_selected(self):
		self.log.debug('Removing %s', self.selected_instances)
		for instance in [inst for inst in self.selected_instances]:
			if instance.is_building:
				if instance.tearable and instance.owner is self.world.player:
					self.log.debug('Attempting to remove building %s', inst)
					Tear(instance).execute(self)
					self.selected_instances.discard(instance)
				else:
					self.log.debug('Unable to remove building %s', inst)
			elif instance.is_unit:
				if instance.owner is self.world.player:
					self.log.debug('Attempting to remove unit %s', inst)
					RemoveUnit(instance).execute(self)
					self.selected_instances.discard(instance)
				else:
					self.log.debug('Unable to remove unit %s', inst)
			else:
				self.log.error('Unable to remove unknown object %s', instance)

	def save_map(self, prefix):
		maps_folder = os.path.join(PATHS.USER_DIR, 'maps')
		if not os.path.exists(maps_folder):
			os.makedirs(maps_folder)
		self.world.save_map(maps_folder, prefix)