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Recalc FOVs and their map view results only on relevant changes.
[plomrogue2] / plomrogue / game.py
1 from plomrogue.errors import GameError, PlayError
2 from plomrogue.io import GameIO
3 from plomrogue.misc import quote
4 from plomrogue.mapping import YX, MapGeometrySquare, MapGeometryHex, Map
5 import string
6 import datetime
7
8
9
10 class GameBase:
11
12     def __init__(self):
13         self.turn = 0
14         self.things = []
15         self.map_geometry = MapGeometrySquare(YX(24, 40))
16         self.commands = {}
17
18     def get_thing(self, id_):
19         for thing in self.things:
20             if id_ == thing.id_:
21                 return thing
22         return None
23
24     def _register_object(self, obj, obj_type_desc, prefix):
25         if not obj.__name__.startswith(prefix):
26             raise GameError('illegal %s object name: %s' % (obj_type_desc, obj.__name__))
27         obj_name = obj.__name__[len(prefix):]
28         d = getattr(self, obj_type_desc + 's')
29         d[obj_name] = obj
30
31     def register_command(self, command):
32         self._register_object(command, 'command', 'cmd_')
33
34
35
36 class SaveableMap(Map):
37     modified = False
38
39     def __setitem__(self, *args, **kwargs):
40         super().__setitem__(*args, **kwargs)
41         self.modified = True
42
43     def set_line(self, *args, **kwargs):
44         super().set_line(*args, **kwargs)
45         self.modified = True
46
47     def inside(self, yx):
48         if yx.y < 0 or yx.x < 0 or \
49            yx.y >= self.geometry.size.y or yx.x >= self.geometry.size.x:
50             return False
51         return True
52
53     def draw_presets(self, alternate_hex=0):
54         old_modified = self.modified
55         if type(self.geometry) == MapGeometrySquare:
56             self.set_line(0, 'X' * self.geometry.size.x)
57             self.set_line(1, 'X' * self.geometry.size.x)
58             self.set_line(2, 'X' * self.geometry.size.x)
59             self.set_line(3, 'X' * self.geometry.size.x)
60             self.set_line(4, 'X' * self.geometry.size.x)
61             for y in range(self.geometry.size.y):
62                 self[YX(y, 0)] = 'X'
63                 self[YX(y, 1)] = 'X'
64                 self[YX(y, 2)] = 'X'
65                 self[YX(y, 3)] = 'X'
66                 self[YX(y, 4)] = 'X'
67         elif type(self.geometry) == MapGeometryHex:
68             # TODO: for this to work we need a map side length divisible by 6.
69
70             def draw_grid(offset=YX(0, 0)):
71                 dirs = ('DOWNRIGHT', 'RIGHT', 'UPRIGHT', 'RIGHT')
72
73                 def draw_snake(start):
74                     keep_running = True
75                     yx = start
76                     if self.inside(yx):
77                         self[yx] = 'X'
78                     while keep_running:
79                         for direction in dirs:
80                             if not keep_running:
81                                 break
82                             for dir_progress in range(distance):
83                                 mover = getattr(self.geometry, 'move__' + direction)
84                                 yx = mover(yx)
85                                 if yx.x >= self.geometry.size.x:
86                                     keep_running = False
87                                     break
88                                 if self.inside(yx):
89                                     self[yx] = 'X'
90
91                 if alternate_hex:
92                     draw_snake(offset + YX(0, 0))
93                 draw_snake(offset + YX((0 + alternate_hex) * distance,
94                            -int(1.5 * distance)))
95                 draw_snake(offset + YX((1 + alternate_hex) * distance,
96                            0))
97                 draw_snake(offset + YX((2 + alternate_hex) * distance,
98                            -int(1.5 * distance)))
99
100             distance = self.geometry.size.y // 3
101             draw_grid()
102             draw_grid(YX(2, 0))
103             draw_grid(YX(0, 2))
104             draw_grid(YX(1, 0))
105             draw_grid(YX(0, 1))
106             draw_grid(YX(-1, 0))
107             draw_grid(YX(0, -1))
108             draw_grid(YX(-2, 0))
109             draw_grid(YX(0, -2))
110         self.modified = old_modified
111
112
113
114 import os
115 class Game(GameBase):
116
117     def __init__(self, save_file, *args, **kwargs):
118         super().__init__(*args, **kwargs)
119         self.changed = True
120         self.changed_fovs = True
121         self.io = GameIO(self, save_file)
122         self.tasks = {}
123         self.thing_types = {}
124         self.sessions = {}
125         self.faces = {}
126         self.hats = {}
127         self.maps = {}
128         self.map_controls = {}
129         self.map_control_passwords = {}
130         self.annotations = {}
131         self.spawn_point = YX(0, 0), YX(0, 0)
132         self.portals = {}
133         self.player_chars = string.digits + string.ascii_letters
134         self.player_char_i = -1
135         self.admin_passwords = []
136         self.send_gamestate_interval = datetime.timedelta(seconds=0.04)
137         self.last_send_gamestate = datetime.datetime.now() -\
138             self.send_gamestate_interval
139         self.terrains = {
140             '.': 'floor',
141             'X': 'wall',
142             '=': 'window',
143             '#': 'bed',
144             'T': 'desk',
145             '8': 'cupboard',
146             '[': 'glass door',
147             'o': 'sink',
148             'O': 'toilet'
149         }
150         if os.path.exists(self.io.save_file):
151             if not os.path.isfile(self.io.save_file):
152                 raise GameError('save file path refers to non-file')
153
154     def register_thing_type(self, thing_type):
155         self._register_object(thing_type, 'thing_type', 'Thing_')
156
157     def register_task(self, task):
158         self._register_object(task, 'task', 'Task_')
159
160     def read_savefile(self):
161         if os.path.exists(self.io.save_file):
162             with open(self.io.save_file, 'r') as f:
163                 lines = f.readlines()
164             for i in range(len(lines)):
165                 line = lines[i]
166                 print("FILE INPUT LINE %5s: %s" % (i, line), end='')
167                 self.io.handle_input(line, god_mode=True)
168
169     def can_do_thing_with_pw(self, thing, pw):
170         if thing.protection in self.map_control_passwords.keys():
171             if pw != self.map_control_passwords[thing.protection]:
172                 return False
173         return True
174
175     def can_do_tile_with_pw(self, big_yx, little_yx, pw):
176         map_control = self.get_map(big_yx, 'control')
177         tile_class = map_control[little_yx]
178         if tile_class in self.map_control_passwords.keys():
179             tile_pw = self.map_control_passwords[tile_class]
180             if pw != tile_pw:
181                 return False
182         return True
183
184     def get_string_options(self, string_option_type):
185         if string_option_type == 'direction':
186             return self.map_geometry.directions
187         elif string_option_type == 'char':
188             return [c for c in
189                     string.digits + string.ascii_letters + string.punctuation + ' ']
190         elif string_option_type == 'map_geometry':
191             return ['Hex', 'Square']
192         elif string_option_type == 'thing_type':
193             return self.thing_types.keys()
194         return None
195
196     def get_map_geometry_shape(self):
197         return self.map_geometry.__class__.__name__[len('MapGeometry'):]
198
199     def get_player(self, connection_id):
200         if connection_id not in self.sessions:
201             return None
202         player = self.get_thing(self.sessions[connection_id]['thing_id'])
203         return player
204
205     def get_face(self, t):
206         if t.type_ == 'Player':
207             if t.name in self.faces:
208                 return self.faces[t.name]
209             else:
210                 return '/O  O\\' + '| oo |' + '\\>--</'
211         return None
212
213     def send_gamestate(self, connection_id=None):
214         """Send out game state data relevant to clients."""
215
216         # TODO: limit to connection_id if provided
217         print('DEBUG send_gamestate')
218         self.io.send('TURN ' + str(self.turn))
219         from plomrogue.mapping import FovMap
220         import multiprocessing
221         c_ids = [c_id for c_id in self.sessions]
222         # Only recalc FOVs for players with ._fov = None
223         player_fovs = []
224         player_fov_ids = []
225         for c_id in c_ids:
226             player = self.get_player(c_id)
227             if player._fov:
228                 continue
229             player.prepare_multiprocessible_fov_stencil() #!
230             player_fovs += [player._fov]
231             player_fov_ids += [player.id_]
232         if len(player_fovs) > 0:
233             print('DEBUG regenerating FOVs')
234             pool = multiprocessing.Pool()
235             new_fovs = pool.map(FovMap.init_terrain, [fov for fov in player_fovs])  #!
236             pool.close()
237             pool.join()
238         for i in range(len(player_fov_ids)):
239             id_ = player_fov_ids[i]
240             player = self.get_thing(id_)
241             player._fov = new_fovs[i]
242         for c_id in c_ids:
243             player = self.get_player(c_id)
244             self.io.send('FOV %s' % quote(player.fov_stencil.terrain), c_id)
245             self.io.send('MAP %s %s %s' % (self.get_map_geometry_shape(),
246                                            player.fov_stencil.geometry.size,
247                                            quote(player.visible_terrain)), c_id)
248             self.io.send('MAP_CONTROL %s' % quote(player.visible_control), c_id)
249             for t in [t for t in self.things if player.fov_test(*t.position)]:
250                 target_yx = player.fov_stencil.target_yx(*t.position)
251                 self.io.send('THING %s %s %s %s %s' % (target_yx, t.type_,
252                                                        quote(t.protection),
253                                                        t.id_, int(t.portable)),
254                              c_id)
255                 if hasattr(t, 'name'):
256                     self.io.send('THING_NAME %s %s' % (t.id_, quote(t.name)), c_id)
257                     if t.type_ == 'Player' and t.name in self.hats:
258                         hat = self.hats[t.name]
259                         self.io.send('THING_HAT %s %s' % (t.id_, quote(hat)), c_id)
260                 face = self.get_face(t)
261                 if face:
262                     self.io.send('THING_FACE %s %s' % (t.id_, quote(face)), c_id)
263                 if hasattr(t, 'thing_char'):
264                     self.io.send('THING_CHAR %s %s' % (t.id_,
265                                                        quote(t.thing_char)), c_id)
266                 if hasattr(t, 'carrying') and t.carrying:
267                     self.io.send('THING_CARRYING %s' % (t.id_), c_id)
268                 if hasattr(t, 'installable') and not t.portable:
269                     self.io.send('THING_INSTALLED %s' % (t.id_), c_id)
270             for big_yx in self.portals:
271                 for little_yx in [little_yx for little_yx in self.portals[big_yx]
272                                   if player.fov_test(big_yx, little_yx)]:
273                     target_yx = player.fov_stencil.target_yx(big_yx, little_yx)
274                     portal = self.portals[big_yx][little_yx]
275                     self.io.send('PORTAL %s %s' % (target_yx, quote(portal)), c_id)
276             for big_yx in self.annotations:
277                 for little_yx in [little_yx for little_yx in self.annotations[big_yx]
278                                   if player.fov_test(big_yx, little_yx)]:
279                     target_yx = player.fov_stencil.target_yx(big_yx, little_yx)
280                     annotation = self.annotations[big_yx][little_yx]
281                     self.io.send('ANNOTATION %s %s' % (target_yx,
282                                                        quote(annotation)), c_id)
283         self.io.send('GAME_STATE_COMPLETE')
284
285     def run_tick(self):
286         to_delete = []
287         for connection_id in self.sessions:
288             connection_id_found = False
289             for server in self.io.servers:
290                 if connection_id in server.clients:
291                     connection_id_found = True
292                     break
293             if not connection_id_found:
294                 t = self.get_player(connection_id)
295                 if hasattr(t, 'name'):
296                     self.io.send('CHAT ' + quote(t.name + ' left the map.'))
297                 self.things.remove(t)
298                 self.changed_fovs = True
299                 to_delete += [connection_id]
300         for connection_id in to_delete:
301             del self.sessions[connection_id]
302             self.changed = True
303         for t in [t for t in self.things]:
304             if t in self.things:
305                 try:
306                     t.proceed()
307                 except GameError as e:
308                     for connection_id in [c_id for c_id in self.sessions
309                                           if self.sessions[c_id]['thing_id'] == t.id_]:
310                         self.io.send('GAME_ERROR ' + quote(str(e)), connection_id)
311                 except PlayError as e:
312                     for connection_id in [c_id for c_id in self.sessions
313                                           if self.sessions[c_id]['thing_id'] == t.id_]:
314                         self.io.send('PLAY_ERROR ' + quote(str(e)), connection_id)
315         if self.changed_fovs:
316             for t in [t for t in self.things]:
317                 t.invalidate_map_view()
318         if self.changed:
319             self.turn += 1
320             # send_gamestate() can be rather expensive, due to among other reasons
321             # re-calculating each player's FOV, so don't send it out too often
322             if self.last_send_gamestate < \
323                datetime.datetime.now() -self.send_gamestate_interval:
324                 self.send_gamestate()
325                 self.changed = False
326                 self.changed_fovs = False
327                 self.save()
328                 self.last_send_gamestate = datetime.datetime.now()
329
330     def get_command(self, command_name):
331
332         def partial_with_attrs(f, *args, **kwargs):
333             from functools import partial
334             p = partial(f, *args, **kwargs)
335             p.__dict__.update(f.__dict__)
336             return p
337
338         def cmd_TASK_colon(task_name, game, *args, connection_id):
339             t = self.get_player(connection_id)
340             if not t:
341                 raise GameError('Not registered as player.')
342             t.set_next_task(task_name, args)
343
344         def task_prefixed(command_name, task_prefix, task_command):
345             if command_name.startswith(task_prefix):
346                 task_name = command_name[len(task_prefix):]
347                 if task_name in self.tasks:
348                     f = partial_with_attrs(task_command, task_name, self)
349                     task = self.tasks[task_name]
350                     f.argtypes = task.argtypes
351                     return f
352             return None
353
354         command = task_prefixed(command_name, 'TASK:', cmd_TASK_colon)
355         if command:
356             return command
357         if command_name in self.commands:
358             f = partial_with_attrs(self.commands[command_name], self)
359             return f
360         return None
361
362     def new_thing_id(self):
363         if len(self.things) == 0:
364             return 1
365         return max([t.id_ for t in self.things]) + 1
366
367     def get_next_player_char(self):
368         self.player_char_i += 1
369         if self.player_char_i >= len(self.player_chars):
370             self.player_char_i = 0
371         return self.player_chars[self.player_char_i]
372
373     def save(self):
374
375         def write(f, msg):
376             f.write(msg + '\n')
377
378         with open(self.io.save_file, 'w') as f:
379             write(f, 'TURN %s' % self.turn)
380             map_geometry_shape = self.get_map_geometry_shape()
381             write(f, 'MAP %s %s' % (map_geometry_shape, self.map_geometry.size,))
382             for big_yx in [yx for yx in self.maps if self.maps[yx].modified]:
383                 for y, line in self.maps[big_yx].lines():
384                     write(f, 'MAP_LINE %s %5s %s' % (big_yx, y, quote(line)))
385             for big_yx in self.annotations:
386                 for little_yx in self.annotations[big_yx]:
387                     write(f, 'GOD_ANNOTATE %s %s %s' %
388                           (big_yx, little_yx, quote(self.annotations[big_yx][little_yx])))
389             for big_yx in self.portals:
390                 for little_yx in self.portals[big_yx]:
391                     write(f, 'GOD_PORTAL %s %s %s' % (big_yx, little_yx,
392                                                       quote(self.portals[big_yx][little_yx])))
393             for big_yx in [yx for yx in self.map_controls
394                            if self.map_controls[yx].modified]:
395                 for y, line in self.map_controls[big_yx].lines():
396                     write(f, 'MAP_CONTROL_LINE %s %5s %s' % (big_yx, y, quote(line)))
397             for tile_class in self.map_control_passwords:
398                 write(f, 'MAP_CONTROL_PW %s %s' % (tile_class,
399                                                    self.map_control_passwords[tile_class]))
400             for pw in self.admin_passwords:
401                 write(f, 'ADMIN_PASSWORD %s' % pw)
402             for name in self.faces:
403                 write(f, 'GOD_PLAYER_FACE %s %s' % (quote(name),
404                                                     quote(self.faces[name])))
405             for name in self.hats:
406                 write(f, 'GOD_PLAYER_HAT %s %s' % (quote(name),
407                                                    quote(self.hats[name])))
408             for t in [t for t in self.things if not t.type_ == 'Player']:
409                 write(f, 'THING %s %s %s %s' % (t.position[0],
410                                                 t.position[1], t.type_, t.id_))
411                 write(f, 'GOD_THING_PROTECTION %s %s' % (t.id_, quote(t.protection)))
412                 if hasattr(t, 'name'):
413                     write(f, 'GOD_THING_NAME %s %s' % (t.id_, quote(t.name)))
414                 if hasattr(t, 'installable') and (not t.portable):
415                     write(f, 'THING_INSTALLED %s' % t.id_)
416                 if t.type_ == 'Door' and t.blocking:
417                     write(f, 'THING_DOOR_CLOSED %s' % t.id_)
418                 elif t.type_ == 'Hat':
419                     write(f, 'THING_HAT_DESIGN %s %s' % (t.id_,
420                                                          quote(t.design)))
421                 elif t.type_ == 'MusicPlayer':
422                     write(f, 'THING_MUSICPLAYER_SETTINGS %s %s %s %s' %
423                           (t.id_, int(t.playing), t.playlist_index, int(t.repeat)))
424                     for item in t.playlist:
425                         write(f, 'THING_MUSICPLAYER_PLAYLIST_ITEM %s %s %s' %
426                               (t.id_, quote(item[0]), item[1]))
427                 elif t.type_ == 'Bottle' and not t.full:
428                     write(f, 'THING_BOTTLE_EMPTY %s' % t.id_)
429             write(f, 'SPAWN_POINT %s %s' % (self.spawn_point[0],
430                                             self.spawn_point[1]))
431
432     def get_map(self, big_yx, type_='normal'):
433         if type_ == 'normal':
434             maps = self.maps
435         elif type_ == 'control':
436             maps = self.map_controls
437         if big_yx not in maps:
438             maps[big_yx] = SaveableMap(self.map_geometry)
439             if type_ == 'control':
440                 maps[big_yx].draw_presets(big_yx.y % 2)
441         return maps[big_yx]
442
443     def new_world(self, map_geometry):
444         self.maps = {}
445         self.map_controls = {}
446         self.annotations = {}
447         self.portals = {}
448         self.admin_passwords = []
449         self.spawn_point = YX(0, 0), YX(0, 0)
450         self.map_geometry = map_geometry
451         self.map_control_passwords = {'X': 'secret'}
452         self.get_map(YX(0, 0))
453         self.get_map(YX(0, 0), 'control')
454         self.annotations = {}