a-robots-conundrum/robotgame/level1.py

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# This file is part of ROBOTGAME
#
# ROBOTGAME is free software: you can redistribute it and/or modify it under the
# terms of the GNU General Public License as published by the Free Software
# Foundation, either version 3 of the License, or (at your option) any later
# version.
#
# ROBOTGAME is distributed in the hope that it will be useful, but WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
# A PARTICULAR PURPOSE. See the GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along with
# ROBOTGAME. If not, see <http://www.gnu.org/licenses/>.
#
# ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' '
#
# level1.py
# --------------------
# date created : Tue Aug 7 2012
# copyright : (C) 2012 Sakse Dalum
# maintained by : Sakse Dalum <don_s@hongabar.org>
"""
The first level.
"""
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import os
import pygame
import random
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import re
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import level
import player
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import tile
import block
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import boulder
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import lever
import logic.rollingstone
class Level1(level.Level):
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def __init__(self, game, graphics_dir, paused=False):
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level.Level.__init__(self, game, graphics_dir, size=(64 * 100,
48 * 100),
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paused=paused)
self.dimensions = 50, 50
for i in range(self.dimensions[0]):
for j in range(self.dimensions[1]):
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self.tiles.append(
tile.Tile(self, i*64, j*48, self.imgs['ground1']))
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self.draw_background()
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self.player.set_pos(64 * 10, 48 * 10)
self.player.set_init_pos()
### Task 2: Rolling stone
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task2_pos = (64 * 20, 48 * 20)
playfield, nsteps, directions = (
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logic.rollingstone.generate_simple_unsolved_solvable_extra(
10, 10, 7, 20))
for i, j in playfield:
self.objects.append(
block.Block(self,
task2_pos[0] + 64 * i,
task2_pos[1] + 48 * j,
self.imgs['block1'],
movable=True))
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arrow_blocks = []
n = 0
for i in directions:
arrow_blocks.append(block.ArrowBlock(self,
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task2_pos[0] - 64,
task2_pos[1] + 48 * n,
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i.next_pos((0, 0))))
n += 1
self.objects.extend(arrow_blocks)
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self.objects.append(lever.Lever(self,
task2_pos[0] + 64 * 3,
task2_pos[1] - 48 * 2,
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[arrow_block.activate
for arrow_block in arrow_blocks],
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toggling=True,
anim='lever_updown'))
b = boulder.Boulder(self, task2_pos[0], task2_pos[1],
direction=(0, 1))
self.objects.append(b)
self.objects.append(lever.Lever(self,
task2_pos[0] + 64 * 2,
task2_pos[1] - 48 * 2,
[b.activate],
anim='lever_updown'))
### Task 4: Inverted bits
task4_pos = (64 * 13, 48 * 13)
b = boulder.Boulder(self, task4_pos[0] - 64, task4_pos[1] - 48 * 3,
direction=(1, 0))
self.objects.append(b)
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self.objects.append(lever.Lever(self,
task4_pos[0] - 64 * 2,
task4_pos[1] - 48 * 3,
[b.activate]))
risingblocks = [block.RisingBlock(self, task4_pos[0] + 64 * i,
task4_pos[1] - 48 * 3,
is_up = False)
for i in range(8)]
for i in range(8):
r = range(8)
r.remove(i)
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self.objects.append(risingblocks[i])
n = random.choice(r)
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self.objects.append(lever.Lever(self,
task4_pos[0] + 64 * i,
task4_pos[1] - 48 * 2,
[risingblocks[i].activate,
risingblocks[n].activate],
anim='lever_updown',
toggling=True,
signal=[0, 1]))
for k in range(random.randint(0, 1)):
self.objects[-1].use(self)
self.objects[-1].set_init_pos()
risingblocks[i].set_init_pos()
risingblocks[n].set_init_pos()
n = random.choice(r)
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self.objects.append(lever.Lever(self,
task4_pos[0] + 64 * i,
task4_pos[1],
[risingblocks[i].activate,
risingblocks[n].activate],
anim='lever_updown',
toggling=True,
signal=[2, 3]))
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for k in range(random.randint(0, 1)):
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self.objects[-1].use(self)
self.objects[-1].set_init_pos()
risingblocks[i].set_init_pos()
risingblocks[n].set_init_pos()
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self.objects.append(block.Block(self, task4_pos[0] + 64 * i,
task4_pos[1] - 48 * 4,
self.imgs['block1']))
self.objects.append(block.Block(self, task4_pos[0] - 64,
task4_pos[1] - 48 * 2,
self.imgs['block1']))
self.objects.append(block.Block(self, task4_pos[0] - 64,
task4_pos[1] - 48 * 4,
self.imgs['block1']))
self.objects.append(block.Block(self, task4_pos[0] + 64 * 8,
task4_pos[1] - 48 * 4,
self.imgs['block1']))
self.objects.append(block.Block(self, task4_pos[0] + 64 * 8,
task4_pos[1] - 48 * 2,
self.imgs['block1']))
self.objects.append(block.Block(self, task4_pos[0] + 64 * 9,
task4_pos[1] - 48 * 4,
self.imgs['block1']))
self.objects.append(block.Block(self, task4_pos[0] + 64 * 9,
task4_pos[1] - 48 * 3,
self.imgs['block1']))
self.objects.append(block.Block(self, task4_pos[0] + 64 * 9,
task4_pos[1] - 48 * 2,
self.imgs['block1']))
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def load(self):
"""Load all resources used in the level."""
tile_list = ['ground1', 'ground2']
for tile in tile_list:
self.imgs[tile] = pygame.image.load(os.path.join(
self.graphics_dir, 'tiles', '%s.png' % tile))
block_list = ['block1']
for block in block_list:
self.imgs[block] = pygame.image.load(os.path.join(
self.graphics_dir, 'blocks', '%s.png' % block))
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# Load animations
for anim, directory in (
[('boulder_up', os.path.join('boulder', 'up')),
('boulder_down', os.path.join('boulder', 'down')),
('boulder_right', os.path.join('boulder', 'right')),
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('boulder_left', os.path.join('boulder', 'right')),
('lever_updown', os.path.join('lever', 'down-up')),
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('lever_leftright', os.path.join('lever', 'left-right')),
('arrow_up', os.path.join('matt', 'up')),
('arrow_right', os.path.join('matt', 'right')),
('arrow_down', os.path.join('matt', 'down')),
('arrow_left', os.path.join('matt', 'right')),]
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):
self.imgs[anim] = []
# Find all image files for the given animation
anim_files = []
for root, dirs, files in os.walk(os.path.join(
self.graphics_dir, directory)):
for f in files:
if re.match(r"^.*\.(png)$", '/'.join([root, f])):
anim_files.append('/'.join([root, f]))
# Sort and load the files
for f in sorted(anim_files):
img = pygame.image.load(f)
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# Special treatment:
if anim == 'arrow_left':
img = pygame.transform.flip(img, 1, 0)
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self.imgs[anim].append(img)
def restart(self):
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for obj in self.objects:
obj.reset_pos()