Create rooms into the partitioned space
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211
02_dynamic_bsp_rooms.py
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211
02_dynamic_bsp_rooms.py
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import pyglet
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from pyglet.window import key
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import sys
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import re
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import random
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# constants
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TILE_SIZE_X = 16
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TILE_SIZE_Y = 16
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MIN_LEAF_SIZE = 7
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class Leaf:
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""" Leaf of the BSP """
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def __init__(self, x, y, w, h, id):
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self.id = id
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self.x = x
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self.y = y
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self.width = w
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self.height = h
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self.left_leaf = None
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self.right_leaf = None
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self.room = None
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def print_leaf(self):
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print('[Leaf]' + str(self.id) + ': (' + str(self.x) + '), (' + str(self.y) + ')' +
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' - ' + str(self.width) + 'x' + str(self.height))
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def split(self):
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"""
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:return: True if the leaf has been split
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"""
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self.print_leaf()
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# choose direction
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# TODO: if leaf is not so square, split along the long side
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# if width > XX% height (25, 33 ?) -> split vertical
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if random.random() < 0.5:
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# x
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if self.width < MIN_LEAF_SIZE * 2: # leaf is too small
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return False
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split_point = random.randint(MIN_LEAF_SIZE, self.width - MIN_LEAF_SIZE)
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self.left_leaf = Leaf(self.x, self.y, split_point, self.height, self.id+1)
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self.right_leaf = Leaf(self.x + split_point-1, self.y, self.width - split_point+1, self.height, self.id+2)
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else:
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# y
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if self.height < MIN_LEAF_SIZE * 2: # leaf is too small
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return False
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split_point = random.randint(MIN_LEAF_SIZE, self.height - MIN_LEAF_SIZE)
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self.left_leaf = Leaf(self.x, self.y, self.width, split_point, self.id+1)
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self.right_leaf = Leaf(self.x, self.y + split_point-1, self.width, self.height - split_point+1, self.id+2)
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return True
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def generate_rooms(self):
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"""
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:return: generate rooms inside partitioned space
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"""
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if self.left_leaf:
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self.left_leaf.generate_rooms()
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if self.right_leaf:
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self.right_leaf.generate_rooms()
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if not self.left_leaf and not self.right_leaf:
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self.room = self.generate_room()
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def generate_room(self):
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x = random.randint(self.x+1, self.x+2)
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y = random.randint(self.y+1, self.y+2)
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w = random.randint(3, self.width-1)
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h = random.randint(3, self.height-1)
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return Room(x, y, w, h, self.id)
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def draw(self, ground):
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for y in range(0, self.height):
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for x in range(0, self.width):
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ground.blit((self.x + x)*TILE_SIZE_X, (self.y+y)*TILE_SIZE_Y)
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class Room:
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""" room """
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def __init__(self, x, y, w, h, id):
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self.x = x
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self.y = y
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self.width = w
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self.height = h
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self.id = id
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self.print_room()
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def print_room(self):
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print('[room]' + str(self.id) + ': (' + str(self.x) + '), (' + str(self.y) + ')' +
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' - ' + str(self.width) + 'x' + str(self.height))
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def draw(self, wall, ground):
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# first wall
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for x in range(0, self.width):
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wall.blit((self.x+x)*TILE_SIZE_X, self.y*TILE_SIZE_Y)
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# middle
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for y in range(1, self.height-1):
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wall.blit(self.x*TILE_SIZE_X, (self.y+y)*TILE_SIZE_Y)
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for x in range(1, self.width - 1):
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ground.blit((self.x + x)*TILE_SIZE_X, (self.y+y)*TILE_SIZE_Y)
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wall.blit((self.x+self.width-1)*TILE_SIZE_X, (self.y+y)*TILE_SIZE_Y)
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# end
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for x in range(0, self.width):
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wall.blit((self.x+x)*TILE_SIZE_X, (self.y + self.height-1)*TILE_SIZE_Y)
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def generate_tree():
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# init tree
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tree = [Leaf(0, 0, 30, 30, 0)]
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#tree = [Leaf(0, 0, 10, 10, 0)]
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#tree = [Leaf(0, 0, 5, 5, 0)]
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# split leaves until none succeed
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split_done = True
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while split_done:
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split_done = False
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for l in tree:
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if l.left_leaf == None and l.right_leaf == None:
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if (l.split()):
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tree.append(l.left_leaf)
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tree.append(l.right_leaf)
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split_done = True
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# create rooms from partitions
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tree[0].generate_rooms()
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return tree
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##
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# main
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##
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# main window
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window = pyglet.window.Window()
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@window.event
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def on_key_press(symbol, modifiers):
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#TODO: ugly hack
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global level_tree
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if symbol == key.Q:
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print('Will quit')
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if symbol == key.R:
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print('Regeneration')
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level_tree = generate_tree()
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window.invalid = True
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elif symbol == key.LEFT:
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print('Left arrow')
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elif symbol == key.ENTER:
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print('Enter !')
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@window.event
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def on_draw():
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window.clear()
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draw_tree(level_tree)
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label.draw()
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def draw_tree(t):
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"""
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:param t: each leave of t will be draw()
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"""
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for l in t:
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# draw only last leaves
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if l.left_leaf == None and l.right_leaf == None:
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l.draw(tiles[TILE_ROAD])
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for l in t:
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# draw only last leaves
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if l.left_leaf == None and l.right_leaf == None:
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if l.room:
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l.room.draw(tiles[TILE_WALL], tiles[TILE_GROUND])
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# init random
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#TODO add seed mode (how ?)
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random.seed()
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label = pyglet.text.Label('Plop World', x = window.width*5/6, y = window.height*5/6, anchor_x='center', anchor_y='center')
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# load images
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tiles = []
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resource_file = open('tiles.txt')
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line = resource_file.readline().strip()
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while line:
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tile_file = re.compile('\d: ').split(line)[1]
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print('loading tile: ' + str(tile_file))
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tiles.append(pyglet.resource.image(tile_file))
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line = resource_file.readline().strip()
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TILE_WALL = 0
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TILE_ROAD = 1
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TILE_GROUND = 2
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level_tree = generate_tree()
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# artificial tree to test drawing
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# troot = Leaf(0, 0, 24, 24, 0)
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# tll = Leaf(0, 0, 16, 24, 1)
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# trl = Leaf(16, 0, 8, 24, 2)
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# troot.left_leaf = tll
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# troot.right_leaf = trl
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# tllvl = Leaf(0, 0, 16, 4, 3)
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# tllvr = Leaf(0, 4, 16, 20, 4)
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# level_tree = [troot, tll, trl, tllvl, tllvr]
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pyglet.app.run()
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