fheroes3/lib/mapset.py

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#!/usr/bin/env python
"""
heroes renaissance
copyright 2008 - Johannes 'josch' Schauer <j.schauer@email.de>
This program 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.
This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
"""
import pyglet
from ctypes import create_string_buffer, memmove
from lib import h3m
import os
class Animation(object):
def __init__(self, tex_region, frames, objclass=None, overlay=False,
flip_x=False, flip_y=False):
self.objclass = objclass
self.overlay = overlay
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self.texgroup = tex_region.group
self.atlas = tex_region.atlas
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if flip_x or flip_y:
self.tex = tex_region.get_transform(flip_x=flip_x, flip_y=flip_y)
else:
self.tex = tex_region
self.__frames = []
self.__hash = hash(frames[0])
if len(frames) > 1:
for img in frames:
data_pitch = abs(img._current_pitch)
buf = create_string_buffer(len(img._current_data))
memmove(buf, img._current_data, len(img._current_data))
data = buf.raw
rows = [data[i:i + abs(data_pitch)] for i in
range(len(img._current_data)-abs(data_pitch),
-1, -abs(data_pitch))]
self.__frames.append(''.join(rows))
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self.__animation = 0
def next_frame(self):
self.__animation = (self.__animation + 1) % len(self.__frames)
return self.__frames[self.__animation]
def __hash__(self):
return self.__hash
def __eq__(self, other):
return self.__hash == other.__hash
def __len__(self):
return len(self.__frames)
class Animation_Object(object):
def __init__(self, animation, group=None):
if group:
self.texgroup = group
else:
self.texgroup = animation.texgroup
self.animation = animation
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@property
def width(self):
return self.animation.tex.width
@property
def height(self):
return self.animation.tex.height
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@property
def group(self):
return self.texgroup
@property
def tex_coords(self):
return self.animation.tex.tex_coords
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class MapSet(object):
def load_map_object(self, file, order=0):
image = pyglet.image.load(None, file=pyglet.resource.file(file))
try:
texture_region = self.current_atlas.add(image)
except pyglet.image.atlas.AllocatorException:
self.current_atlas = pyglet.image.atlas.TextureAtlas(1024, 1024)
texture_region = self.current_atlas.add(image)
self.atlases.append(self.current_atlas)
group = pyglet.graphics.OrderedGroup(order)
group = pyglet.graphics.TextureGroup(self.current_atlas.texture, parent=group)
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if group not in self.groups:
self.groups.append(group)
texture_region.group = self.groups.index(group)
texture_region.atlas = self.atlases.index(self.atlases[-1])
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return texture_region
def __init__(self, map_name):
h3m_data = h3m.extract(os.path.join(pyglet.resource._default_loader._script_home,"maps","%s.h3m" % map_name))
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edge_map = [[] for i in range(len(h3m_data["upper_terrain"])+16)]
for num in range(len(edge_map)):
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if num < 7 or num > len(edge_map)-8:
line = []
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line.extend([[-1, 0+(i-1)%4+4*(num%4), 0, 0, 0, 0, 0] for i in range(len(h3m_data["upper_terrain"][0])+18)])
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elif num == 7:
line = []
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line.extend([[-1, 0+(i-1)%4+4*(num%4), 0, 0, 0, 0, 0] for i in range(8)])
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line.append([-1, 16, 0, 0, 0, 0, 0])
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line.extend([[-1, 20+i%4, 0, 0, 0, 0, 0] for i in range(len(h3m_data["upper_terrain"][0]))])
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line.append([-1, 17, 0, 0, 0, 0, 0])
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line.extend([[-1, 0+(i-1)%4+4*(num%4), 0, 0, 0, 0, 0] for i in range(8)])
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elif num == len(edge_map)-8:
line = []
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line.extend([[-1, 0+(i-1)%4+4*(num%4), 0, 0, 0, 0, 0] for i in range(8)])
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line.append([-1, 19, 0, 0, 0, 0, 0])
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line.extend([[-1, 28+i%4, 0, 0, 0, 0, 0] for i in range(len(h3m_data["upper_terrain"][0]))])
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line.append([-1, 18, 0, 0, 0, 0, 0])
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line.extend([[-1, 0+(i-1)%4+4*(num%4), 0, 0, 0, 0, 0] for i in range(8)])
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else:
line = []
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line.extend([[-1, 0+(i-1)%4+4*(num%4), 0, 0, 0, 0, 0] for i in range(8)])
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line.append([-1, 32+num%4, 0, 0, 0, 0, 0])
line.extend(h3m_data["upper_terrain"][num-8])
line.append([-1, 24+num%4, 0, 0, 0, 0, 0])
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line.extend([[-1, 0+(i-1)%4+4*(num%4), 0, 0, 0, 0, 0] for i in range(8)])
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edge_map[num] = line
h3m_data["upper_terrain"] = edge_map
self.width = len(h3m_data["upper_terrain"][0])
self.height = len(h3m_data["upper_terrain"])
self.current_atlas = pyglet.image.atlas.TextureAtlas(1024, 1024)
self.atlases = [self.current_atlas]
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self.groups = []
self.__tiles = {}
tile_textures = {}
for y, line in enumerate(h3m_data["upper_terrain"]):
for x, tile in enumerate(line):
if tile[0] == -1: #edge
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if "edg" not in list(tile_textures.keys()):
tile_textures["edg"] = [self.load_map_object('data/advmap_tiles/edg.def/%d.png'%i, 1000) for i in range(36)]
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self.__tiles[x,y] = [tile_textures["edg"][tile[1]]]
elif tile[0] == 0: #dirt
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if "dirttl" not in list(tile_textures.keys()):
tile_textures["dirttl"] = [self.load_map_object('data/advmap_tiles/dirttl.def/%d.png'%i, 0) for i in range(46)]
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flip_x = bool(tile[6] & 1)
flip_y = bool(tile[6] & 2)
if flip_x or flip_y:
new = tile_textures["dirttl"][tile[1]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["dirttl"][tile[1]].group
self.__tiles[x,y] = [new]
else:
self.__tiles[x,y] = [tile_textures["dirttl"][tile[1]]]
elif tile[0] == 1: #sand
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if "sandtl" not in list(tile_textures.keys()):
tile_textures["sandtl"] = [self.load_map_object('data/advmap_tiles/sandtl.def/%d.png'%i, 0) for i in range(24)]
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self.__tiles[x,y] = [tile_textures["sandtl"][tile[1]]]
elif tile[0] == 2: #grass
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if "grastl" not in list(tile_textures.keys()):
tile_textures["grastl"] = [self.load_map_object('data/advmap_tiles/grastl.def/%d.png'%i, 0) for i in range(79)]
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flip_x = bool(tile[6] & 1)
flip_y = bool(tile[6] & 2)
if flip_x or flip_y:
new = tile_textures["grastl"][tile[1]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["grastl"][tile[1]].group
self.__tiles[x,y] = [new]
else:
self.__tiles[x,y] = [tile_textures["grastl"][tile[1]]]
elif tile[0] == 3: #snow
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if "snowtl" not in list(tile_textures.keys()):
tile_textures["snowtl"] = [self.load_map_object('data/advmap_tiles/snowtl.def/%d.png'%i, 0) for i in range(79)]
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flip_x = bool(tile[6] & 1)
flip_y = bool(tile[6] & 2)
if flip_x or flip_y:
new = tile_textures["snowtl"][tile[1]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["snowtl"][tile[1]].group
self.__tiles[x,y] = [new]
else:
self.__tiles[x,y] = [tile_textures["snowtl"][tile[1]]]
elif tile[0] == 4: #swamp
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if "swmptl" not in list(tile_textures.keys()):
tile_textures["swmptl"] = [self.load_map_object('data/advmap_tiles/swmptl.def/%d.png'%i, 0) for i in range(79)]
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flip_x = bool(tile[6] & 1)
flip_y = bool(tile[6] & 2)
if flip_x or flip_y:
new = tile_textures["swmptl"][tile[1]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["swmptl"][tile[1]].group
self.__tiles[x,y] = [new]
else:
self.__tiles[x,y] = [tile_textures["swmptl"][tile[1]]]
elif tile[0] == 5: #rough
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if "rougtl" not in list(tile_textures.keys()):
tile_textures["rougtl"] = [self.load_map_object('data/advmap_tiles/rougtl.def/%d.png'%i, 0) for i in range(79)]
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flip_x = bool(tile[6] & 1)
flip_y = bool(tile[6] & 2)
if flip_x or flip_y:
new = tile_textures["rougtl"][tile[1]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["rougtl"][tile[1]].group
self.__tiles[x,y] = [new]
else:
self.__tiles[x,y] = [tile_textures["rougtl"][tile[1]]]
elif tile[0] == 7: #lava
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if "lavatl" not in list(tile_textures.keys()):
tile_textures["lavatl"] = [self.load_map_object('data/advmap_tiles/lavatl.def/%d.png'%i, 0) for i in range(79)]
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flip_x = bool(tile[6] & 1)
flip_y = bool(tile[6] & 2)
if flip_x or flip_y:
new = tile_textures["lavatl"][tile[1]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["lavatl"][tile[1]].group
self.__tiles[x,y] = [new]
else:
self.__tiles[x,y] = [tile_textures["lavatl"][tile[1]]]
elif tile[0] == 8: #water 12 anims
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if "watrtl" not in list(tile_textures.keys()):
textures = [self.load_map_object('data/advmap_tiles/watrtl.def/%d/0.png'%i, 0) for i in range(33)]
images = [[pyglet.image.load(None, file=pyglet.resource.file('data/advmap_tiles/watrtl.def/%d/%d.png'%(i,j))) for j in range(12)] for i in range(33)]
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tile_textures["watrtl"] = {
(0,0):[Animation_Object(Animation(texture, images[i])) for i, texture in enumerate(textures)],
(1,0):[Animation_Object(Animation(texture, images[i], flip_x=True)) for i, texture in enumerate(textures)],
(0,1):[Animation_Object(Animation(texture, images[i], flip_y=True)) for i, texture in enumerate(textures)],
(1,1):[Animation_Object(Animation(texture, images[i], flip_x=True, flip_y=True)) for i, texture in enumerate(textures)],
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}
flip_x = (tile[6]>>0)&1
flip_y = (tile[6]>>1)&1
self.__tiles[x,y] = [tile_textures["watrtl"][flip_x, flip_y][tile[1]]]
elif tile[0] == 9: #rock
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if "rocktl" not in list(tile_textures.keys()):
tile_textures["rocktl"] = [self.load_map_object('data/advmap_tiles/rocktl.def/%d.png'%i, 0) for i in range(48)]
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self.__tiles[x,y] = [tile_textures["rocktl"][tile[1]]]
else:
raise NotImplementedError
if tile[2] == 0: #no river
pass
elif tile[2] == 1: #clrrvr 12 anims
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if "clrrvr" not in list(tile_textures.keys()):
textures = [self.load_map_object('data/advmap_tiles/clrrvr.def/%d/0.png'%i, 1) for i in range(13)]
images = [[pyglet.image.load(None, file=pyglet.resource.file('data/advmap_tiles/clrrvr.def/%d/%d.png'%(i,j))) for j in range(12)] for i in range(13)]
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tile_textures["clrrvr"] = {
(0,0):[Animation_Object(Animation(texture, images[i])) for i, texture in enumerate(textures)],
(1,0):[Animation_Object(Animation(texture, images[i], flip_x=True)) for i, texture in enumerate(textures)],
(0,1):[Animation_Object(Animation(texture, images[i], flip_y=True)) for i, texture in enumerate(textures)],
(1,1):[Animation_Object(Animation(texture, images[i], flip_x=True, flip_y=True)) for i, texture in enumerate(textures)],
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}
flip_x = (tile[6]>>2)&1
flip_y = (tile[6]>>3)&1
self.__tiles[x,y].append(tile_textures["clrrvr"][flip_x, flip_y][tile[3]])
elif tile[2] == 2: #icyrvr
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if "icyrvr" not in list(tile_textures.keys()):
tile_textures["icyrvr"] = [self.load_map_object('data/advmap_tiles/icyrvr.def/%d.png'%i, 1) for i in range(13)]
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flip_x = bool(tile[6] & 4)
flip_y = bool(tile[6] & 8)
if flip_x or flip_y:
new = tile_textures["icyrvr"][tile[3]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["icyrvr"][tile[3]].group
self.__tiles[x, y].append(new)
else:
self.__tiles[x, y].append(tile_textures["icyrvr"][tile[3]])
elif tile[2] == 3: #mudrvr
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if "mudrvr" not in list(tile_textures.keys()):
textures = [self.load_map_object('data/advmap_tiles/mudrvr.def/%d/0.png'%i, 1) for i in range(13)]
images = [[pyglet.image.load(None, file=pyglet.resource.file('data/advmap_tiles/clrrvr.def/%d/%d.png'%(i,j))) for j in range(12)] for i in range(13)]
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tile_textures["mudrvr"] = {
(0,0):[Animation_Object(Animation(texture, images[i])) for i, texture in enumerate(textures)],
(1,0):[Animation_Object(Animation(texture, images[i], flip_x=True)) for i, texture in enumerate(textures)],
(0,1):[Animation_Object(Animation(texture, images[i], flip_y=True)) for i, texture in enumerate(textures)],
(1,1):[Animation_Object(Animation(texture, images[i], flip_x=True, flip_y=True)) for i, texture in enumerate(textures)],
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}
flip_x = (tile[6]>>2)&1
flip_y = (tile[6]>>3)&1
self.__tiles[x,y].append(tile_textures["mudrvr"][flip_x, flip_y][tile[3]])
elif tile[2] == 4: #lavrvr
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if "lavrvr" not in list(tile_textures.keys()):
textures = [self.load_map_object('data/advmap_tiles/lavrvr.def/%d/0.png'%i, 1) for i in range(13)]
images = [[pyglet.image.load(None, file=pyglet.resource.file('data/advmap_tiles/clrrvr.def/%d/%d.png'%(i,j))) for j in range(9)] for i in range(13)]
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tile_textures["lavrvr"] = {
(0,0):[Animation_Object(Animation(texture, images[i])) for i, texture in enumerate(textures)],
(1,0):[Animation_Object(Animation(texture, images[i], flip_x=True)) for i, texture in enumerate(textures)],
(0,1):[Animation_Object(Animation(texture, images[i], flip_y=True)) for i, texture in enumerate(textures)],
(1,1):[Animation_Object(Animation(texture, images[i], flip_x=True, flip_y=True)) for i, texture in enumerate(textures)],
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}
flip_x = (tile[6]>>2)&1
flip_y = (tile[6]>>3)&1
self.__tiles[x,y].append(tile_textures["lavrvr"][flip_x, flip_y][tile[3]])
else:
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raise NotImplementedError(tile[2])
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if tile[4] == 0: #no road
pass
elif tile[4] == 1: #dirtrd
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if "dirtrd" not in list(tile_textures.keys()):
tile_textures["dirtrd"] = [self.load_map_object('data/advmap_tiles/dirtrd.def/%d.png'%i, 1) for i in range(17)]
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flip_x = bool(tile[6] & 16)
flip_y = bool(tile[6] & 32)
if flip_x or flip_y:
new = tile_textures["dirtrd"][tile[5]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["dirtrd"][tile[5]].group
self.__tiles[x, y].append(new)
else:
self.__tiles[x, y].append(tile_textures["dirtrd"][tile[5]])
elif tile[4] == 2: #gravrd
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if "gravrd" not in list(tile_textures.keys()):
tile_textures["gravrd"] = [self.load_map_object('data/advmap_tiles/gravrd.def/%d.png'%i, 1) for i in range(17)]
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flip_x = bool(tile[6] & 16)
flip_y = bool(tile[6] & 32)
if flip_x or flip_y:
new = tile_textures["gravrd"][tile[5]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["gravrd"][tile[5]].group
self.__tiles[x, y].append(new)
else:
self.__tiles[x, y].append(tile_textures["gravrd"][tile[5]])
elif tile[4] == 3: #cobbrd
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if "cobbrd" not in list(tile_textures.keys()):
tile_textures["cobbrd"] = [self.load_map_object('data/advmap_tiles/cobbrd.def/%d.png'%i, 1) for i in range(17)]
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flip_x = bool(tile[6] & 16)
flip_y = bool(tile[6] & 32)
if flip_x or flip_y:
new = tile_textures["cobbrd"][tile[5]].get_transform(flip_x=flip_x, flip_y=flip_y)
new.group = tile_textures["cobbrd"][tile[5]].group
self.__tiles[x, y].append(new)
else:
self.__tiles[x, y].append(tile_textures["cobbrd"][tile[5]])
else:
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raise NotImplementedError(tile[4])
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images = []
for order, obj in enumerate(h3m_data["objects"]):
imgs = []
i = 0
while 1:
imgs.append(pyglet.image.load(None, file=pyglet.resource.file("data/advmap_objects/" + obj["filename"] + "/%d.png"%i)))
i += 1
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if "data/advmap_objects/" + obj["filename"] + "/%d.png" % i not in list(pyglet.resource._default_loader._index.keys()):
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break;
images.append((imgs, obj["class"], obj["overlay"], order))
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self.objects = []
for imgs in sorted(images, key=lambda i:i[0][0].height, reverse=True):
try:
texture = self.current_atlas.add(imgs[0][0])
except pyglet.image.atlas.AllocatorException:
self.current_atlas = pyglet.image.atlas.TextureAtlas(1024, 1024)
texture = self.current_atlas.add(imgs[0][0])
self.atlases.append(self.current_atlas)
texture.group = None
texture.atlas = self.atlases.index(self.atlases[-1])
self.objects.append((Animation(texture, imgs[0], objclass=imgs[1], overlay=imgs[2]), imgs[3]))
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self.objects = [i[0] for i in sorted(self.objects, key=lambda i:i[1])]
for obj in [i for i in h3m_data["tunedobj"] if i["z"]==0]:
# order objects by row in which they are placed
# 8 levels offset because of objects 6 tiles high
order = obj["y"] + 8
# if the overlay attribute is set, object is drawn below all
# objects ove it - so substract its hight
if self.objects[obj["id"]].overlay:
order = order - self.objects[obj["id"]].tex.height // 32
# each row two levels - woods and mountains in the back and the
# rest in front
order *= 2
# put wood and mountains behind other objects on the same level
if self.objects[obj["id"]].objclass in [119, 134, 135, 137, 155, 199]:
order -= 1
group = pyglet.graphics.OrderedGroup(order)
group = pyglet.graphics.TextureGroup(self.atlases[self.objects[obj["id"]].tex.atlas].texture, parent=group)
if group not in self.groups:
self.groups.append(group)
group = self.groups.index(group)
self.__tiles[obj["x"] + 9, obj["y"] + 8].append(Animation_Object(self.objects[obj["id"]], group))
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def get_tiles(self, tiles_x, tiles_y, div_x, div_y):
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for y in range(tiles_y - 1, -6, -1):
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y1 = y * 32
for x in range(tiles_x + 4, -1, -1):
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for obj in self.__tiles.get((x - div_x, div_y - y), []):
x1 = x * 32 - obj.width + 32
x2 = x1 + obj.width
y2 = y1 + obj.height
yield obj, [x1, y1, x2, y1, x2, y2, x1, y2]