From: Christian Heller Date: Tue, 11 Dec 2018 23:08:50 +0000 (+0100) Subject: Refactor. X-Git-Url: https://plomlompom.com/repos/%22https:/validator.w3.org/todo?a=commitdiff_plain;h=c88e9e1fffbdf892548fdd69b2ad532c06c17e90;p=plomrogue2-experiments Refactor. --- diff --git a/client.py b/client.py index c5d6fcd..b10ba90 100755 --- a/client.py +++ b/client.py @@ -4,35 +4,25 @@ import plom_socket_io import socket import threading from parser import ArgError, Parser +from game import World +class Thing: + def __init__(self, id_, position, symbol): + self.id_ = id_ + self.symbol = symbol + self.position = position + class Game: - turn = 0 + world = World() log_text = '' - map_size = (0, 0) - terrain_map = '' - things = [] - - class Thing: - def __init__(self, id_, position, symbol): - self.id_ = id_ - self.position = position - self.symbol = symbol def log(self, msg): """Prefix msg plus newline to self.log_text.""" self.log_text = msg + '\n' + self.log_text - def get_thing(self, i): - for thing in self.things: - if i == thing.id_: - return thing - t = self.Thing(i, [0,0], '?') - self.things += [t] - return t - def cmd_THING_TYPE(self, i, type_): - t = self.get_thing(i) + t = self.world.get_thing(i) symbol = '?' if type_ == 'human': symbol = '@' @@ -42,22 +32,18 @@ class Game: cmd_THING_TYPE.argtypes = 'int:nonneg string' def cmd_THING_POS(self, i, yx): - t = self.get_thing(i) + t = self.world.get_thing(i) t.position = list(yx) cmd_THING_POS.argtypes = 'int:nonneg yx_tuple:nonneg' def cmd_THING_POS(self, i, yx): - t = self.get_thing(i) + t = self.world.get_thing(i) t.position = list(yx) cmd_THING_POS.argtypes = 'int:nonneg yx_tuple:nonneg' def cmd_MAP_SIZE(self, yx): """Set self.map_size to yx, redraw self.terrain_map as '?' cells.""" - y, x = yx - self.map_size = (y, x) - self.terrain_map = '' - for y in range(self.map_size[0]): - self.terrain_map += '?' * self.map_size[1] + self.world.set_map_size(yx) cmd_MAP_SIZE.argtypes = 'yx_tuple:nonneg' def cmd_TURN_FINISHED(self, n): @@ -67,19 +53,12 @@ class Game: def cmd_NEW_TURN(self, n): """Set self.turn to n, empty self.things.""" - self.turn = n - self.things = [] + self.world.turn = n + self.world.things = [] cmd_NEW_TURN.argtypes = 'int:nonneg' def cmd_TERRAIN_LINE(self, y, terrain_line): - width_map = self.map_size[1] - if y >= self.map_size[0]: - raise ArgError('too large row number %s' % y) - width_line = len(terrain_line) - if width_line > width_map: - raise ArgError('too large map line width %s' % width_line) - self.terrain_map = self.terrain_map[:y * width_map] + \ - terrain_line + self.terrain_map[(y + 1) * width_map:] + self.world.set_map_line(y, terrain_line) cmd_TERRAIN_LINE.argtypes = 'int:nonneg string' @@ -100,13 +79,13 @@ class WidgetManager: def draw_map(self): """Draw map view from .game.terrain_map, .game.things.""" map_lines = [] - map_size = len(self.game.terrain_map) + map_size = len(self.game.world.terrain_map) start_cut = 0 while start_cut < map_size: - limit = start_cut + self.game.map_size[1] - map_lines += [self.game.terrain_map[start_cut:limit]] + limit = start_cut + self.game.world.map_size[1] + map_lines += [self.game.world.terrain_map[start_cut:limit]] start_cut = limit - for t in self.game.things: + for t in self.game.world.things: line_as_list = list(map_lines[t.position[0]]) line_as_list[t.position[1]] = t.symbol map_lines[t.position[0]] = ''.join(line_as_list) @@ -114,7 +93,7 @@ class WidgetManager: def update(self): """Redraw all non-edit widgets.""" - self.turn_widget.set_text('TURN: ' + str(self.game.turn)) + self.turn_widget.set_text('TURN: ' + str(self.game.world.turn)) self.log_widget.set_text(self.game.log_text) self.map_widget.set_text(self.draw_map()) diff --git a/game.py b/game.py new file mode 100644 index 0000000..83f3643 --- /dev/null +++ b/game.py @@ -0,0 +1,141 @@ +class GameError(Exception): + pass + + +def move_pos(direction, pos_yx): + if direction == 'UP': + pos_yx[0] -= 1 + elif direction == 'DOWN': + pos_yx[0] += 1 + elif direction == 'RIGHT': + pos_yx[1] += 1 + elif direction == 'LEFT': + pos_yx[1] -= 1 + + +class World: + + def __init__(self): + self.turn = 0 + self.map_size = (0, 0) + self.terrain_map = '' + self.things = [] + self.player_id = 0 + + def proceed_to_next_player_turn(self): + """Run game world turns until player can decide their next step. + + Iterates through all non-player things, on each step + furthering them in their tasks (and letting them decide new + ones if they finish). The iteration order is: first all things + that come after the player in the world things list, then + (after incrementing the world turn) all that come before the + player; then the player's .proceed() is run, and if it does + not finish his task, the loop starts at the beginning. Once + the player's task is finished, the loop breaks. + """ + while True: + for thing in self.things[self.player_id+1:]: + thing.proceed() + self.turn += 1 + for thing in self.things[:self.player_id]: + thing.proceed() + player = self.get_thing(self.player_id) + player.proceed(is_AI=False) + if player.task is None: + break + + def set_map_size(self, yx): + y, x = yx + self.map_size = (y, x) + self.terrain_map = '' + for y in range(self.map_size[0]): + self.terrain_map += '?' * self.map_size[1] + + def set_map_line(self, y, line): + width_map = self.map_size[1] + if y >= self.map_size[0]: + raise ArgError('too large row number %s' % y) + width_line = len(line) + if width_line > width_map: + raise ArgError('too large map line width %s' % width_line) + self.terrain_map = self.terrain_map[:y * width_map] + line + \ + self.terrain_map[(y + 1) * width_map:] + + def get_thing(self, i): + for thing in self.things: + if i == thing.id_: + return thing + t = Thing(self, i, '?', [0,0]) + self.things += [t] + return t + + +class Task: + + def __init__(self, thing, name, args=(), kwargs={}): + self.name = name + self.thing = thing + self.args = args + self.kwargs = kwargs + self.todo = 1 + + def check(self): + if self.name == 'move': + if len(self.args) > 0: + direction = self.args[0] + else: + direction = self.kwargs['direction'] + test_pos = self.thing.position[:] + move_pos(direction, test_pos) + if test_pos[0] < 0 or test_pos[1] < 0 or \ + test_pos[0] >= self.thing.world.map_size[0] or \ + test_pos[1] >= self.thing.world.map_size[1]: + raise GameError('would move outside map bounds') + pos_i = test_pos[0] * self.thing.world.map_size[1] + test_pos[1] + map_tile = self.thing.world.terrain_map[pos_i] + if map_tile != '.': + raise GameError('would move into illegal terrain') + + +class Thing: + + def __init__(self, world, id_, type_, position): + self.world = world + self.id_ = id_ + self.type_ = type_ + self.position = position + self.task = Task(self, 'wait') + + def task_wait(self): + pass + + def task_move(self, direction): + move_pos(direction, self.position) + + def decide_task(self): + if self.position[1] > 1: + self.set_task('move', 'LEFT') + elif self.position[1] < 3: + self.set_task('move', 'RIGHT') + else: + self.set_task('wait') + + def set_task(self, task_name, *args, **kwargs): + self.task = Task(self, task_name, args, kwargs) + self.task.check() + + def proceed(self, is_AI=True): + """Further the thing in its tasks. + + Decrements .task.todo; if it thus falls to <= 0, enacts method whose + name is 'task_' + self.task.name and sets .task = None. If is_AI, calls + .decide_task to decide a self.task. + """ + self.task.todo -= 1 + if self.task.todo <= 0: + task = getattr(self, 'task_' + self.task.name) + task(*self.task.args, **self.task.kwargs) + self.task = None + if is_AI and self.task is None: + self.decide_task() diff --git a/server.py b/server.py index 16915e9..63188f3 100755 --- a/server.py +++ b/server.py @@ -6,7 +6,7 @@ import queue import sys import os from parser import ArgError, Parser -from server_.game import World, GameError +from game import World, GameError # Avoid "Address already in use" errors. @@ -154,7 +154,7 @@ class CommandHandler: self.send_all('MAP_SIZE ' + self.stringify_yx(self.world.map_size)) for y in range(self.world.map_size[0]): width = self.world.map_size[1] - terrain_line = self.world.map_[y * width:(y + 1) * width] + terrain_line = self.world.terrain_map[y * width:(y + 1) * width] self.send_all('TERRAIN_LINE %5s %s' % (y, self.quoted(terrain_line))) for thing in self.world.things: self.send_all('THING_TYPE %s %s' % (thing.id_, thing.type_)) diff --git a/server_/game.py b/server_/game.py deleted file mode 100644 index f949289..0000000 --- a/server_/game.py +++ /dev/null @@ -1,145 +0,0 @@ -class GameError(Exception): - pass - - -def move_pos(direction, pos_yx): - if direction == 'UP': - pos_yx[0] -= 1 - elif direction == 'DOWN': - pos_yx[0] += 1 - elif direction == 'RIGHT': - pos_yx[1] += 1 - elif direction == 'LEFT': - pos_yx[1] -= 1 - - -class World: - - def __init__(self): - self.turn = 0 - self.map_size = (0, 0) - self.map_ = '' - self.things = [] -# Thing(self, 'human', [3, 3]), -# Thing(self, 'monster', [1, 1]) -# ] - self.player_id = 0 -# self.player = self.things[self.player_i] - - def proceed_to_next_player_turn(self): - """Run game world turns until player can decide their next step. - - Iterates through all non-player things, on each step - furthering them in their tasks (and letting them decide new - ones if they finish). The iteration order is: first all things - that come after the player in the world things list, then - (after incrementing the world turn) all that come before the - player; then the player's .proceed() is run, and if it does - not finish his task, the loop starts at the beginning. Once - the player's task is finished, the loop breaks. - """ - while True: - for thing in self.things[self.player_id+1:]: - thing.proceed() - self.turn += 1 - for thing in self.things[:self.player_id]: - thing.proceed() - player = self.get_thing(self.player_id) - player.proceed(is_AI=False) - if player.task is None: - break - - def set_map_size(self, yx): - y, x = yx - self.map_size = (y, x) - self.map_ = '' - for y in range(self.map_size[0]): - self.map_ += '?' * self.map_size[1] - - def set_map_line(self, y, line): - width_map = self.map_size[1] - if y >= self.map_size[0]: - raise ArgError('too large row number %s' % y) - width_line = len(line) - if width_line > width_map: - raise ArgError('too large map line width %s' % width_line) - self.map_ = self.map_[:y * width_map] + line + \ - self.map_[(y + 1) * width_map:] - - def get_thing(self, i): - for thing in self.things: - if i == thing.id_: - return thing - t = Thing(self, i, '?', [0,0]) - self.things += [t] - return t - - -class Task: - - def __init__(self, thing, name, args=(), kwargs={}): - self.name = name - self.thing = thing - self.args = args - self.kwargs = kwargs - self.todo = 1 - - def check(self): - if self.name == 'move': - if len(self.args) > 0: - direction = self.args[0] - else: - direction = self.kwargs['direction'] - test_pos = self.thing.position[:] - move_pos(direction, test_pos) - if test_pos[0] < 0 or test_pos[1] < 0 or \ - test_pos[0] >= self.thing.world.map_size[0] or \ - test_pos[1] >= self.thing.world.map_size[1]: - raise GameError('would move outside map bounds') - pos_i = test_pos[0] * self.thing.world.map_size[1] + test_pos[1] - map_tile = self.thing.world.map_[pos_i] - if map_tile != '.': - raise GameError('would move into illegal terrain') - - -class Thing: - - def __init__(self, world, id_, type_, position): - self.world = world - self.id_ = id_ - self.type_ = type_ - self.position = position - self.task = Task(self, 'wait') - - def task_wait(self): - pass - - def task_move(self, direction): - move_pos(direction, self.position) - - def decide_task(self): - if self.position[1] > 1: - self.set_task('move', 'LEFT') - elif self.position[1] < 3: - self.set_task('move', 'RIGHT') - else: - self.set_task('wait') - - def set_task(self, task_name, *args, **kwargs): - self.task = Task(self, task_name, args, kwargs) - self.task.check() - - def proceed(self, is_AI=True): - """Further the thing in its tasks. - - Decrements .task.todo; if it thus falls to <= 0, enacts method whose - name is 'task_' + self.task.name and sets .task = None. If is_AI, calls - .decide_task to decide a self.task. - """ - self.task.todo -= 1 - if self.task.todo <= 0: - task = getattr(self, 'task_' + self.task.name) - task(*self.task.args, **self.task.kwargs) - self.task = None - if is_AI and self.task is None: - self.decide_task()