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minetestmapper-python/minetestmapper-numpy.py

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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""Make an image using minetest data (numpy-ized by spillz).
Authors: spillz, modified by: Poikilos; based on minetestmapper by
Jogge and modified by celeron55.
License: See LICENSE
"""
import zlib
import os
import string
import time
import argparse
import sys
import traceback
import numpy
import itertools
try:
from PIL import Image, ImageDraw, ImageFont, ImageColor
except:
print("You must first install Pillow's PIL.")
print("On Windows:")
print("Right-click windows menu, 'Command Prompt (Admin)' then:")
print("pip install Pillow")
print("")
print("On *nix-like systems:")
print("sudo python2 -m pip install --upgrade pip")
print("sudo python2 -m pip install --upgrade pip wheel")
print("#then:")
#print("sudo pip install Pillow")
print("python2 -m pip install Pillow")
print("#or")
print("#same but python3 instead")
#print("sudo pip install Pillow")
exit()
try:
import io
BytesIO = io.BytesIO
except:
import io
BytesIO = io.StringIO
#
# wrapper around PIL 1.1.6 Image.save to preserve PNG metadata
#
# public domain, Nick Galbreath
# http://blog.client9.com/2007/08/28/python-pil-and-png-metadata-take-2.html
#
def pngsave(im, file):
# these can be automatically added to Image.info dict
# they are not user-added metadata
reserved = ('interlace', 'gamma', 'dpi', 'transparency', 'aspect')
# undocumented class
try:
from PIL import PngImagePlugin
except:
print("ERROR: Could not finish at `from PIL import PngImagePlugin`")
print("You must first install Pillow's PIL.")
print("On Windows:")
print("Right-click windows menu, 'Command Prompt (Admin)' then:")
print("pip install Pillow")
print("")
print("On *nix-like systems:")
print("sudo python2 -m pip install --upgrade pip")
print("sudo python2 -m pip install --upgrade pip wheel")
print("#then:")
#print("sudo pip install Pillow")
print("python2 -m pip install Pillow")
print("#or")
print("#same but python3 instead")
#print("sudo pip install Pillow")
exit(1)
meta = PngImagePlugin.PngInfo()
# copy metadata into new object
for k,v in im.info.items():
if k in reserved: continue
meta.add_text(k, v, 0)
# and save
im.save(file, "PNG", pnginfo=meta)
TRANSLATION_TABLE = {
1: 0x800, # CONTENT_GRASS
4: 0x801, # CONTENT_TREE
5: 0x802, # CONTENT_LEAVES
6: 0x803, # CONTENT_GRASS_FOOTSTEPS
7: 0x804, # CONTENT_MESE
8: 0x805, # CONTENT_MUD
10: 0x806, # CONTENT_CLOUD
11: 0x807, # CONTENT_COALSTONE
12: 0x808, # CONTENT_WOOD
13: 0x809, # CONTENT_SAND
18: 0x80a, # CONTENT_COBBLE
19: 0x80b, # CONTENT_STEEL
20: 0x80c, # CONTENT_GLASS
22: 0x80d, # CONTENT_MOSSYCOBBLE
23: 0x80e, # CONTENT_GRAVEL
24: 0x80f, # CONTENT_SANDSTONE
25: 0x810, # CONTENT_CACTUS
26: 0x811, # CONTENT_BRICK
27: 0x812, # CONTENT_CLAY
28: 0x813, # CONTENT_PAPYRUS
29: 0x814} # CONTENT_BOOKSHELF
def hex_to_int(h):
i = int(h, 16)
if(i > 2047):
i -= 4096
return i
def hex4_to_int(h):
i = int(h, 16)
if(i > 32767):
i -= 65536
return i
def int_to_hex3(i):
if(i < 0):
return "%03X" % (i + 4096)
else:
return "%03X" % i
def int_to_hex4(i):
if(i < 0):
return "%04X" % (i + 65536)
else:
return "%04X" % i
# def signedToUnsigned(i, max_positive):
# if i >= 0:
# return i
# else:
# return i + 2*max_positive
# def getBlockAsInteger(p):
# return signedToUnsigned(p[2],2048)*16777216
# + signedToUnsigned(p[1],2048)*4096
# + signedToUnsigned(p[0],2048)
def getBlockAsInteger(p):
return p[2]*16777216 + p[1]*4096 + p[0]
def unsignedToSigned(i, max_positive):
if i < max_positive:
return i
else:
return i - 2*max_positive
def getIntegerAsBlock(i):
x = unsignedToSigned(i % 4096, 2048)
i = int((i - x) / 4096)
y = unsignedToSigned(i % 4096, 2048)
i = int((i - y) / 4096)
z = unsignedToSigned(i % 4096, 2048)
return x,y,z
def readU8(f):
return ord(f.read(1))
def readU16(f):
return ord(f.read(1))*256 + ord(f.read(1))
def readU32(f):
return ord(f.read(1))*256*256*256 + ord(f.read(1))*256*256 + ord(f.read(1))*256 + ord(f.read(1))
def readS32(f):
return unsignedToSigned(ord(f.read(1))*256*256*256 + ord(f.read(1))*256*256 + ord(f.read(1))*256 + ord(f.read(1)), 2**31)
CONTENT_WATER = 2
def content_is_ignore(d):
return d == 0
#return d in [0, "ignore"]
def content_is_water(d):
return (d == 2) | (d == 9)
#return d in [2, 9]
def content_is_air(d):
return (d == 126) | (d == 127) | (d == 254)
# return d in [126, 127, 254, "air"]
#NOT USED
def read_content(mapdata, version, datapos=None):
if datapos==None:
if version >= 24:
mapdata = numpy.array(mapdata)
x=numpy.arange(4096)
return (mapdata[x*2] << 8) | (mapdata[x*2 + 1])
if version >= 24:
return (mapdata[datapos*2] << 8) | (mapdata[datapos*2 + 1])
elif version >= 20:
if mapdata[datapos] < 0x80:
return mapdata[datapos]
else:
return (mapdata[datapos] << 4) | (mapdata[datapos + 0x2000] >> 4)
elif 16 <= version < 20:
return TRANSLATION_TABLE.get(mapdata[datapos], mapdata[datapos])
else:
raise Exception("Unsupported map format: " + str(version))
def parse_args():
parser = argparse.ArgumentParser(description='A mapper for minetest')
parser.add_argument('--bgcolor', default='black', metavar = 'COLOR', type=ImageColor.getrgb, help = 'set the background color (e.g. white or "#FFFFFF")')
parser.add_argument('--scalecolor', default='white', metavar = 'COLOR', type=ImageColor.getrgb, help = 'set the ruler and text color for the scale')
parser.add_argument('--origincolor', default='red', metavar = 'COLOR', type=ImageColor.getrgb, help = 'set the color for the map origin')
parser.add_argument('--playercolor', default='red', metavar = 'COLOR', type=ImageColor.getrgb, help = 'set the color for player markers')
parser.add_argument('--fogcolor', default='grey', metavar = 'COLOR', type=ImageColor.getrgb, help = 'set the color for fog (default grey)')
parser.add_argument('--ugcolor', default='purple', metavar = 'COLOR', type=ImageColor.getrgb, help = 'set the color for underground areas (default purple)')
parser.add_argument('--makethumb',action='store_const', const = True, default=False, help = 'create a thumbnail image in addition to the full size image with the file name <outputname>_thumb.png')
parser.add_argument('--drawscale',action='store_const', const = True, default=False, help = 'draw a scale on the border of the map')
parser.add_argument('--drawplayers',action='store_const', const = True, default = False, help = 'draw markers for players')
parser.add_argument('--draworigin',action='store_const', const = True, default = False, help = 'draw the position of the origin (0,0)')
parser.add_argument('--drawalpha',dest='drawalpha',action='store_const', const = 1, default = 0, help = 'accepted for compatibility but NOT YET IMPLEMENTED in this version')
parser.add_argument('--noshading',dest='noshading',action='store_const', const = 1, default = 0, help = 'accepted for compatibility but NOT YET IMPLEMENTED in this version')
parser.add_argument('--drawunderground',dest='drawunderground',action='store_const', const = 1, default = 0, help = 'draw underground areas overlaid on the map')
parser.add_argument('--drawunderground-standalone',dest='drawunderground',action='store_const', const = 2, help = 'draw underground areas as a standalone map')
parser.add_argument('--region', nargs=4, type = int, metavar = ('XMIN','XMAX','ZMIN','ZMAX'), default = (-2000,2000,-2000,2000),help = 'set the bounding x,z coordinates for the map (units are nodes, default = -2000 2000 -2000 2000)')
parser.add_argument('--max-y', dest='maxheight', type = int, metavar = ('YMAX'), default = 500, help = 'don\'t draw above height YMAX (default = 500)')
parser.add_argument('--min-y', dest='minheight', type = int, metavar = ('YMIN'), default = -500, help = 'don\'t draw below height YMIN (defualt = -500)')
parser.add_argument('--zoom', dest='pixelspernode', type = int, metavar = ('PPN'), default = 1, help = 'number of pixels per node (default = 1)')
parser.add_argument('--facing', type = str, choices = ('up','down','north','south','east','west'),default='down',help = 'direction to face when drawing (north, south, east or west will draw a cross-section)')
parser.add_argument('--geometry', type = str, default='',help = 'accepted for compatibility but NOT YET IMPLEMENTED in this version')
parser.add_argument('--scales', type = str, default='',help = 'accepted for compatibility but NOT YET IMPLEMENTED in this version')
parser.add_argument('--colors', type = str, default='colors.txt',help = 'accepted for compatibility but NOT YET IMPLEMENTED in this version')
parser.add_argument('--backend', type = str, choices = ('leveldb'),default='leveldb',help = 'accepted for compatibility but NOT YET IMPLEMENTED in this version')
parser.add_argument('--fog', type = float, metavar = ('FOGSTRENGTH'), default = 0.0, help = 'use fog strength of FOGSTRENGTH (0.0 by default, max of 1.0)')
parser.add_argument('world_dir',help='the path to the world you want to map')
parser.add_argument('output',nargs='?',default='map.png',help='the output filename')
args = parser.parse_args()
if args.world_dir is None:
print("Please select world path (eg. -i ../worlds/yourworld) (or use --help)")
sys.exit(1)
if not os.path.isdir(args.world_dir):
print ("World does not exist")
sys.exit(1)
args.world_dir = os.path.abspath(args.world_dir) + os.path.sep
return args
# Load color information for the blocks.
def load_colors(fname = "colors.txt"):
uid_to_color = {}
str_to_uid = {}
uid=2 #unique id, we always use ignore == 0, air == 1 because these are never drawn
try:
f = open("colors.txt")
except IOError:
f = open(os.path.join(os.path.dirname(__file__), "colors.txt"))
for line in f:
values = line.split()
if len(values) < 4:
continue
identifier = values[0]
is_hex = True
for c in identifier:
if c not in "0123456789abcdefABCDEF":
is_hex = False
break
if is_hex:
str_to_uid[int(values[0],16)] = uid
uid_to_color[uid] = (
int(values[1]),
int(values[2]),
int(values[3]))
else:
str_to_uid[values[0]] = uid
uid_to_color[uid] = (
int(values[1]),
int(values[2]),
int(values[3]))
uid+=1
f.close()
return uid_to_color, str_to_uid
#print("colors: "+repr(colors))
#sys.exit(1)
def legacy_fetch_sector_data(args, sectortype, sector_data, ypos):
yhex = int_to_hex4(ypos)
if sectortype == "old":
filename = args.world_dir + "sectors/" + sector_data[0] + "/" + yhex.lower()
else:
filename = args.world_dir + "sectors2/" + sector_data[1] + "/" + yhex.lower()
return open(filename, "rb")
def legacy_sector_scan(args,sectors_xmin, sector_xmax, sector_zmin, sector_zmax):
if os.path.exists(args.world_dir + "sectors2"):
for filename in os.listdir(args.world_dir + "sectors2"):
for filename2 in os.listdir(args.world_dir + "sectors2/" + filename):
x = hex_to_int(filename)
z = hex_to_int(filename2)
if x < sector_xmin or x > sector_xmax:
continue
if z < sector_zmin or z > sector_zmax:
continue
xlist.append(x)
zlist.append(z)
if os.path.exists(args.world_dir + "sectors"):
for filename in os.listdir(args.world_dir + "sectors"):
x = hex4_to_int(filename[:4])
z = hex4_to_int(filename[-4:])
if x < sector_xmin or x > sector_xmax:
continue
if z < sector_zmin or z > sector_zmax:
continue
xlist.append(x)
zlist.append(z)
def legacy_fetch_ylist(args,xpos,zpos,ylist):
sectortype =""
xhex = int_to_hex3(xpos)
zhex = int_to_hex3(zpos)
xhex4 = int_to_hex4(xpos)
zhex4 = int_to_hex4(zpos)
sector1 = xhex4.lower() + zhex4.lower()
sector2 = xhex.lower() + "/" + zhex.lower()
try:
for filename in os.listdir(args.world_dir + "sectors/" + sector1):
if(filename != "meta"):
pos = int(filename, 16)
if(pos > 32767):
pos -= 65536
ylist.append(pos)
if len(ylist)>0:
sectortype = "old"
if sectortype == "":
try:
for filename in os.listdir(args.world_dir + "sectors2/" + sector2):
if(filename != "meta"):
pos = int(filename, 16)
if(pos > 32767):
pos -= 65536
ylist.append(pos)
sectortype = "new"
except OSError:
pass
except OSError:
pass
return sectortype
#Alternative map_block
def find(arr,value,axis=-1):
return ((arr==value).cumsum(axis=axis)==0).sum(axis=axis)
#
# if False:
# mapdata = numpy.swapaxes(mapdata.reshape(16,16,16),0,2)
# mapdata = numpy.swapaxes(mapdata,1,2).reshape(256,16)
# content = mapdata[plist]
# opaques = ~( (content == ignore) | (content == air) )
# h = find(opaques,True,1)
# po = (h<16)
# hpo = h[po]
# hdata[po] = chunkypos + 16 - hpo
# cdata[po] = content[po][:,hpo]
# dnddata[po] = day_night_differs
# plist = plist[~po]
def map_block(mapdata, version, ypos, maxy, plist, cdata, hdata, dnddata, day_night_differs, id_map, ignore, air, face_swap_order):
chunkypos = ypos * 16
mapdata = mapdata[:4096]
mapdata = id_map[mapdata]
if (mapdata==ignore).all():
## return (~( (cdata == ignore) | (cdata == air) )).all()
return plist
(swap1a,swap1b),(swap2a,swap2b) = face_swap_order[1:]
mapdata = numpy.swapaxes(mapdata.reshape(16,16,16),swap1a,swap1b)
mapdata = numpy.swapaxes(mapdata,swap2a,swap2b).reshape(16,256)
if face_swap_order[0]>0:
r = list(range(maxy,-1,-1))
else:
r = list(range(maxy,16,1))
# mapdata=mapdata[::-1]
y=maxy
# if True:
# mapdata = mapdata[y:]
# opaques = ~( (mapdata == ignore) | (mapdata == air) )
# copaques = ~( (cdata == ignore) | (cdata == air) )
# h = find(opaques,True,0)
# po = (h<16-y)
# hpo = h*po
# hdata[~copaques] = chunkypos + 16 - hpo[~copaques]
# cdata[~copaques] = mapdata[hpo][~copaques]
# dnddata[~copaques] = day_night_differs
# if (~( (cdata == ignore) | (cdata == air) )).all():
# return []
# else:
# return plist
for y in r:
if len(plist)==0:
break
content = mapdata[y][plist]
# watercontent = content_is_water(content)
# wdata[plist] += watercontent
# opaques = ~( (content_is_air(content) | content_is_ignore(content) | watercontent))
opaques = ~( (content == ignore) | (content == air) )
po = plist[opaques]
pno = plist[~opaques]
cdata[po] = content[opaques]
hdata[po] = chunkypos + y
dnddata[po] = day_night_differs
plist = plist[~opaques]
y-=1
return plist
def map_block_ug(mapdata, version, ypos, maxy, cdata, hdata, udata, uhdata, dnddata, day_night_differs, id_map, ignore, air, underground, face_swap_order):
chunkypos = ypos * 16
mapdata = mapdata[:4096]
mapdata = id_map[mapdata]
if (mapdata==ignore).all():
return (~( (cdata == ignore) | (cdata == air) )).all()
(swap1a,swap1b),(swap2a,swap2b) = face_swap_order[1:]
mapdata = numpy.swapaxes(mapdata.reshape(16,16,16),swap1a,swap1b)
mapdata = numpy.swapaxes(mapdata,swap2a,swap2b).reshape(16,256)
if face_swap_order[0]>0:
r = list(range(maxy,-1,-1))
else:
r = list(range(maxy,16,1))
y=maxy
for y in r:
content = mapdata[y]
opaques = ~( (content == ignore) | (content == air) )
copaques = ~( (cdata == ignore) | (cdata == air) )
air = (content == air)
cdata[~copaques] = content[~copaques]
hdata[~copaques] = chunkypos + y
dnddata[~copaques] = day_night_differs
uhdata += (udata==0)*(chunkypos + y)*(air * copaques)*(~opaques)*underground
udata += (air * copaques)*(~opaques)*underground
return (~( (cdata == ignore) | (cdata == air) )).all()
# y-=1
def get_db(args):
if not os.path.exists(args.world_dir+"world.mt"):
return None
with open(args.world_dir+"world.mt") as f:
keyvals = f.read().splitlines()
keyvals = [kv.split("=") for kv in keyvals]
backend = None
for k,v in keyvals:
if k.strip() == "backend":
backend = v.strip()
break
if backend == "sqlite3":
return SQLDB(args.world_dir + "map.sqlite")
if backend == "leveldb":
return LVLDB(args.world_dir + "map.db")
class SQLDB:
def __init__(self, path):
import sqlite3
conn = sqlite3.connect(path)
self.cur = conn.cursor()
def __iter__(self):
self.cur.execute("SELECT `pos` FROM `blocks`")
while True:
r = self.cur.fetchone()
print(("getting int from first index of value "+str(r)))
if not r:
break
x, y, z = getIntegerAsBlock(r[0])
yield x,y,z,r[0]
def get(self, pos):
self.cur.execute("SELECT `data` FROM `blocks` WHERE `pos`==? LIMIT 1", (pos,))
r = self.cur.fetchone()
if not r:
return
return BytesIO(r[0])
class LVLDB:
def __init__(self, path):
import leveldb
self.conn = leveldb.LevelDB(path)
def __iter__(self):
for k in self.conn.RangeIter():
#if k is not None and len(k)>0:
try:
#print("getting int from first index of value "+str(k))
#SOMETIMES has an integer, such as getting int from first index of value ('905945065', '\x19\x01\x02\x02x\x9c\xedX\xdbu\xdb0\x0c\xa5\xa2Jv\xbf|\xbaBW\xe8\n]!+t\x85\xac\x90\x15\xbc\x82V\xd0\n\x1a\xaa\xa4\x14\x8a\xc0%\xf8\x90DK~\xe4\xf2\x9c\xc4 \xf8\x00pA\x90\xb6R\x04\x95noc\xab\xe6\xcf\x1cV_\xa2\xd5\xba\xfd\x88\xe8\xa6\xe6\xfa*\xd2$\xbd?\x17\xf5\xae\xb7!\x9f[-\xb5_\xad\x9e\xff\xd7D\xa2\xcd\xaeE\xc7\xd7L\xc3wkE\x1bC>\xe6\xeb\x9d\xce\x1f\xc5\xfd\xaf\xa3-\x86*\xa8w;\xb9]\x97\xeb\xeb\x05\xfaJ\xc8\xc3p~H\xeb\xf3H4\xe4SK\xf8\xb7\xac\xc9\xec[\x96\x1b\xc8\x1a\x9f\x9fv^\xc7\xcf\x0cjK\x93`\xffM\\\x9d\xe7\x06\x8e\x90\xf2\x7f\r\xffa\xfdr\xfen\xab\xaf\xbc\xfc\xa8\xbc\xf9~\x1cm\x0cN\x1e\xdf\x86\x97Fau\xa0\x8d\xf7\x86\xf9i2\xf8[\xaa\x0f\xd5\xb7\xd2\xfc\xc7Aw<V_\x89\xfa\xbc\xbb\xca\x9dxW\xf3\xdd\xc9\xe5\x15>\xdc\xe8Z|~\x13\xcd\x8e4\x7f\x92\x17!\xfdY\xe0W\x9e5\xe5eS\x88\xffc\xf52\xfb\xf45\x93\xc3?2\xee\x98Oq\xefF\xd7\xde|~\xfe\xa5\xf3G\xad<\x0bc\xb8^:\xbfUt\xfd0\xff\xcd\xc6\xf3o9\xb8\xad>\xc4n\x9e>\x9d\x01\x9c\xfd:\xc0i\x0e\xff\xf4\xe4\xbb\xdc\xe1\xaf\x91\x18\xff\x12\xbb\xf5\x1c\xa5\xd0|\xe7\xa5\xac\x0f\xf1O\xe7\xafG\x9c\xbd=\xf4)\xfeC5\x96GE\xee\xcdc\x9e\xe6JM\xfeO\xf3+\xf2\x16\t\xf1\x1f\xe3o\xf22\xc5\x7fx\x87X\xed\xd8\xce\xff\xf1\x88\xf3\xaf\xb2\xf8\x975\xfe[ 7\x03h\x1eL6\xdao\xacM \xfe\x95\xa8\xa3\xfc\x84\xf2\'\xa5\xb7\xde\xc8\xab?>\xff)\xa4_\x00\xa1\xb6\xf4\xf4\xe3\xf9\x9fz-&\xf6OQ\xfe$\x8e\xa8\xbeN\xcc\x8f\xf1\xefn\xfco\xfei\xe3\xbf\x18\xf8\x19\xe0\xeb9\xf3\x16\xee\xd4\xf3L@\xfd\xfa\xf3\xdd\x88\x0c\xa6\xe6\xc7o\xffo\xfe\xf17#\xcc\x00I\xdf\xea\xdb\xd4\xf2\x8c;\xe1-\xe0\x90\x8a\x7f\x9a\x9f5z\xbc\xeb^\x8d\xff\x18\xbb\x9c\x7fiL\xcb\xd6\xc1\x1a\x80\xf1\x93bLQ\x82_\xac\x00\xd2|:\x86Z-\xe9\x9f\x1dq~9\xff\xfe\x88\xd6[\x0bO9\xee\x869\x80H\x9d\xbfZ\xfd\xdc8\x9f\xf3\x8b\x1e\xe1;\xe0\xd9\x11\xe7\xf7\r\xc6\xe6\xf3_\x0b\xe7\xbf\x0c\xffe\xf5\xe8\x13V\x90gG\x95\xc8\x00\x1c\xcb\xb5\r\xac\xe6\xa28\xfd\xb6\xd7\x82>\xc5\x7f\xbc\xbe\xdfB_\x01\xfb\xa9\xfcy6 \xff\xc80"v\xfe\x9d\xbe\r\xc6\xef\xde\xce\xbf_\xff\xc5\xf9\xc30\x98\xbf=\x915\xfanp\xe8\xfb\xbe\xbb\xf6\x06V\xa9\xc7u\x1a_\xf28\xefz\xd5"1\xe7S\xcb\xfd\xacU\xeaCwt\xbdZ\x86?\xbf\x7f9\xe1\xe3\xdf\xfb_\xda\xf1\t\x1d\\66*"_\xf3w\x1d\xadv\x9e)\x13\x005\xbao\xe5n\xf4\x9f\xc9\xd4}\x13M#[\xbd\x91\xa7x\xe4\x1b\xa1\x11\xf7\xb7\xbb\xb2\x8e^\x81\xdc\xd9\tv\xf857\x04\xa3\xe3\xd4\x7fc\xff\xc8>\x91\xbb.!Sg\x07\x1b\x0f\x9bQYv\x00\xbf\xe0_?\x07`\xdab\x96\x95(k1?\x05H^\x7f-\xd63\xf2\xf4\xe2\x1d\xc8\xa8\xe7\\\x8f\x1d\xf4Hu\x19Vh\xf3\xa9\x08\xfe\xcd\x0e\xba-|\x99Y@\xc58\xc0}\xb3Y\x9f\x90q<\xa4\xfa\xc0\xdc\xcf\xcd\x00\x06t\xc0x\xa4\xdeAF=5\xa9[T\x03\x16\xca8\xdf_\x90#\xdf\x94y\x05H\x9a\x94\xacX\x90s\x93\xce\x0e/,+\x8c\x80\x1aK\xca\x88\xd56\xf1\x99~R\xf1\x94\\\x13\xf3\x92@\xff{\x87\x9dv\xdfa\x9b\xe8\xfe\x88W\xf6\x7f\xec\x83\x00\x98ke\xc1\x19]\xbc\xff\x8d\x96\xce\xde\xdf\xab\x7f~\x00z\x16\x80\xa1\\j\xac\xad\xba%\xe1\xd7\xff\x01N\x80)\xd2,\x00\xe5,\xbe\x03\xffi\x04l\x07V\x00\xffV+\xbbs\x99\xd56\x9b\xb1\xbb\xff\xea>\xfc\xf7x\x18\xb8\xff\x90\xff\xc5\xfd/\xb4\xd8f;B\xfe\xef\x9c\xff\x97\xcb\xf8\xe7\xe2:6mr\x19\xb1i\x89cP\xc6\xe6\x0b.v\x1aQd\xed\x07\x84\xcd\x84\x87\xcc\x88\xed\xb8\x88\x1fo\x85sx\xf7c@\r\xd8!\x03\xbc-v\x0e@b\xfb\xe2\xd6\xa4Czl\x06@\xd5\xdbl\x0c\x96\xd1\xf4=sl\xd9)_\xf5\xbd\x8b\xe4\xf0#\xfe\x8d\xf58kP\xf9A\x1fN\xabq\x86\x00<\xea\xcbq-\x8c\xbb\xe73\xf6\x1dc\xcb\x11\x98\xbe*x\xaf\x96\xbb{\xc6\x94\x82\xfcU\xc0{5\xbc\x9a\xff\xc9K\xfcF\xe6\xec\x8e\xd3\xe9\xbe\xbe\x0c\xfe\x07\x80pRrx\x9cc\x00\x00\x00\x01\x00\x01\x00\x00\x00\xff\xff\xff\xff\x00\x00\n\x00\x00\x00\x13default:lava_source\x00\x01\x00\x14default:lava_flowing\x00\x02\x00\x03air\x00\x03\x00\rdefault:stone\x00\x04\x00\x17default:stone_with_mese\x00\x05\x00\x17default:stone_with_coal\x00\x06\x00\x0etechnic:marble\x00\x07\x00\x14moreores:mineral_tin\x00\x08\x00\x17default:stone_with_iron\x00\t\x00\x17moreores:mineral_silver\n\x00\x00')
val = k[0]
#if k[0][:2]=="\\x":
#in leveldb, minetest stores \x before every byte of the value, so remove all and prepend 0x so python can convert to int
#but this doesn't work (resulting val still throws exception)
#val = "\\0x" + k[0].replace("\\x", "")
x, y, z = getIntegerAsBlock(int(val))
yield x, y, z, val
except Exception as e:
print("Could not finish getting int from first index of value "+str(k))
#SOMETIMES prints tons of output such as Could not finish getting int from first index of value ('\x00\x00\x00\x0e\x00\x02\x85 ', '\x19\x08\x02\x02x\x9c\xed\xc11\x01\x00\x00\x00\xc2\xa0\xf5Om\x0c\x1f\xa0\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x80\xb7\x01@\x00\x00\x01x\x9cc\x00\x00\x00\x01\x00\x01\x00\x00\x00\xff\xff\xff\xff\x00\x00\x01\x00\x00\x00\x06ignore\n\x00\x00')
raise e
def get(self, pos):
return BytesIO(self.conn.Get(pos))
R_MSG = ("<(The following issue occurred while handling the exception)"
" Could not finish writing r error since r was not"
" initialized>")
class World:
def __init__(self,args):
self.r_error_enable = True
self.xlist = []
self.zlist = []
self.args = args
self.db = None
self.minx = None
self.minz = None
self.maxx = None
self.maxz = None
self.mapinfo = None
def facing(self,x,y,z):
if self.args.facing in ['up','down']:
return x,y,z
if self.args.facing in ['east','west']:
return z,x,y
if self.args.facing in ['north','south']:
return x,z,y
def generate_sector_list(self):
'''
List all sectors to memory and calculate the width and heigth of the
resulting picture.
'''
args = self.args
sector_xmin,sector_xmax,sector_zmin,sector_zmax = numpy.array(args.region)/16
sector_ymin = args.minheight/16
sector_ymax = args.maxheight/16
xlist = []
zlist = []
self.lookup={}
self.db = get_db(args)
if self.db is not None:
for x, y, z, pos in self.db:
if x < sector_xmin or x > sector_xmax:
continue
if z < sector_zmin or z > sector_zmax:
continue
if y < sector_ymin or y > sector_ymax:
continue
x, y, z = self.facing(x, y, z)
try:
self.lookup[(x,z)].append((y,pos))
except KeyError:
self.lookup[(x,z)]=[(y,pos)]
xlist.append(x)
zlist.append(z)
else:
legacy_sector_scan(args, sectors_xmin, sector_xmax, sector_zmin, sector_zmax)
if len(xlist)>0:
# Get rid of duplicates
self.xlist, self.zlist = list(zip(*sorted(set(zip(xlist, zlist)))))
self.minx = min(xlist)
self.minz = min(zlist)
self.maxx = max(xlist)
self.maxz = max(zlist)
x0,x1,z0,z1 = numpy.array(args.region)
y0 = args.minheight
y1 = args.maxheight
self.minypos = self.facing(int(x0),int(y0),int(z0))[1]
self.maxypos = self.facing(int(x1),int(y1),int(z1))[1]
self.w = (self.maxx - self.minx) * 16 + 16
self.h = (self.maxz - self.minz) * 16 + 16
def generate_map_info(self,str_to_uid):
read_map_time = 0
db = self.db
xlist = self.xlist
zlist = self.zlist
args = self.args
minx = self.minx
minz = self.minz
maxx = self.maxx
maxz = self.maxz
w = self.w
h = self.h
#x,y,z becomes y,x,z for up/down
# becomes x,z,y for east/west
# becomes z,x,y for north/south
if args.facing in ['up','down']:
face_swap_order = [1,(1,0),(1,2)]
elif args.facing in ['east','west']:
face_swap_order = [1,(2,0),(2,1)]
elif args.facing in ['north','south']:
face_swap_order = [1,(0,0),(1,2)]
if args.facing in ['up','east','north']:
face_swap_order[0] = -1
mapinfo = {
'height':numpy.zeros([w,h],dtype = 'i2'),
'content':numpy.zeros([w,h],dtype='u2'),
'water':numpy.zeros([w,h],dtype = 'u2'),
'dnd':numpy.zeros([w,h],dtype=bool)}
if args.drawunderground:
mapinfo['underground'] = numpy.zeros([w,h],dtype = 'u2')
mapinfo['undergroundh'] = numpy.zeros([w,h],dtype = 'i2')
unknown_node_names = set()
unknown_node_ids = set()
starttime = time.time()
# Go through all sectors.
for n in range(len(xlist)):
#if n > 500:
# break
if n % 200 == 0:
nowtime = time.time()
dtime = nowtime - starttime
try:
n_per_second = 1.0 * n / dtime
except ZeroDivisionError:
n_per_second = 0
if n_per_second != 0:
seconds_per_n = 1.0 / n_per_second
time_guess = seconds_per_n * len(xlist)
remaining_s = time_guess - dtime
remaining_minutes = int(remaining_s / 60)
remaining_s -= remaining_minutes * 60
print(("Processing sector " + str(n) + " of " + str(len(xlist))
+ " (" + str(round(100.0 * n / len(xlist), 1)) + "%)"
+ " (ETA: " + str(remaining_minutes) + "m "
+ str(int(remaining_s)) + "s)"))
xpos = xlist[n]
zpos = zlist[n]
ylist = []
sectortype = ""
if db is not None:
ymin = self.minypos/16 #-2048 if args.minheight is None else args.minheight/16+1
ymax = self.maxypos/16+1 #2047 if args.maxheight is None else args.maxheight/16+1
for k in self.lookup[(xpos,zpos)]:
ylist.append(k)
sectortype = "sqlite"
else:
sectortype,sector_data = legacy_fetch_ylist(args,xpos,zpos,ylist)
if sectortype == "":
continue
ylist.sort()
if face_swap_order[0]>0:
ylist.reverse()
if args.facing in ['south','west','down']:
miny = self.minypos-1
else:
miny = self.maxypos+1
# Create map related info for the sector that will be filled as we seek down the y axis
cdata = numpy.zeros(256,dtype='i4')
hdata = numpy.ones(256,dtype='i4')*miny
wdata = numpy.zeros(256,dtype='i4')
dnddata = numpy.zeros(256,dtype=bool)
if args.drawunderground:
udata = numpy.zeros(256,dtype='i4')
uhdata = numpy.zeros(256,dtype='i4')
plist = numpy.arange(256)
# Go through the Y axis from top to bottom.
for ypos,ps in ylist:
try:
if db is not None:
f = db.get(ps)
else:
f = legacy_fetch_sector_data(args, sectortype, sector_data, ypos)
# Let's just memorize these even though it's not really necessary.
version = readU8(f)
flags = f.read(1)
#print("version="+str(version))
#print("flags="+str(version))
# Check flags
is_underground = ((ord(flags) & 1) != 0)
day_night_differs = ((ord(flags) & 2) != 0)
lighting_expired = ((ord(flags) & 4) != 0)
generated = ((ord(flags) & 8) != 0)
#print("is_underground="+str(is_underground))
#print("day_night_differs="+str(day_night_differs))
#print("lighting_expired="+str(lighting_expired))
#print("generated="+str(generated))
if version >= 22:
content_width = readU8(f)
params_width = readU8(f)
# Node data
dec_o = zlib.decompressobj()
try:
s = dec_o.decompress(f.read())
mapdata = numpy.fromstring(s,">u2")
except:
mapdata = []
# Reuse the unused tail of the file
f.close();
f = BytesIO(dec_o.unused_data)
#print("unused data: "+repr(dec_o.unused_data))
# zlib-compressed node metadata list
dec_o = zlib.decompressobj()
try:
s = dec_o.decompress(f.read())
metaliststr = numpy.frombuffer(s,"u1")
# And do nothing with it
except:
metaliststr = []
# Reuse the unused tail of the file
f.close();
f = BytesIO(dec_o.unused_data)
#print("* dec_o.unused_data: "+repr(dec_o.unused_data))
data_after_node_metadata = dec_o.unused_data
if version <= 21:
# mapblockobject_count
readU16(f)
if version == 23:
readU8(f) # Unused node timer version (always 0)
if version == 24:
ver = readU8(f)
if ver == 1:
num = readU16(f)
for i in range(0,num):
readU16(f)
readS32(f)
readS32(f)
static_object_version = readU8(f)
static_object_count = readU16(f)
for i in range(0, static_object_count):
# u8 type (object type-id)
object_type = readU8(f)
# s32 pos_x_nodes * 10000
pos_x_nodes = readS32(f)/10000
# s32 pos_y_nodes * 10000
pos_y_nodes = readS32(f)/10000
# s32 pos_z_nodes * 10000
pos_z_nodes = readS32(f)/10000
# u16 data_size
data_size = readU16(f)
# u8[data_size] data
data = f.read(data_size)
timestamp = readU32(f)
#print("* timestamp="+str(timestamp))
id_to_name = {}
name_to_id = {}
air = 1
ignore = 0
if version >= 22:
name_id_mapping_version = readU8(f)
num_name_id_mappings = readU16(f)
#print("* num_name_id_mappings: "+str(num_name_id_mappings))
for i in range(0, num_name_id_mappings):
node_id = readU16(f)
name_len = readU16(f)
name = f.read(name_len).decode('utf8')
try:
id_to_name[node_id] = str_to_uid[name]
except:
##TODO: Add to list of unknown colors
unknown_node_names.add(name)
unknown_node_ids.add(node_id)
id_to_name[node_id] = 0
if name == 'air':
air = id_to_name[node_id]
if name == 'ignore':
ignore = id_to_name[node_id]
if len(id_to_name)==0:
id_map = numpy.array([0,1],dtype='i4')
else:
id_map = numpy.array([id_to_name[i] for i in sorted(id_to_name)],dtype='i4')
# Node timers
if version >= 25:
timer_size = readU8(f)
num = readU16(f)
for i in range(0,num):
readU16(f)
readS32(f)
readS32(f)
##facing in down,south,west use maxheight, otherwise use minheight
if face_swap_order[0]>0:
maxy = 15
if ypos*16 + 15 > self.maxypos:
maxy = self.maxypos - ypos*16
else:
maxy = 0
if ypos*16 + 15 < self.minypos:
maxy = ypos*16 - self.minypos
if maxy>=0:
if args.drawunderground:
plist = map_block_ug(mapdata, version, ypos, maxy, cdata, hdata, udata, uhdata, dnddata, day_night_differs, id_map, ignore, air, is_underground, face_swap_order)
else:
plist = map_block(mapdata, version, ypos, maxy, plist, cdata, hdata, dnddata, day_night_differs, id_map, ignore, air, face_swap_order)
##plist = map_block(mapdata, version, ypos, maxy, cdata, hdata, dnddata, day_night_differs, id_map, ignore, air, face_swap_order)
# After finding all the pixels in the sector, we can move on to
# the next sector without having to continue the Y axis.
if (not args.drawunderground and len(plist) == 0) or ypos==ylist[-1][0]:
##if plist == True or ypos==ylist[-1][0]:
chunkxpos = (xpos-minx)*16
chunkzpos = (zpos-minz)*16
if True: #face_swap_order[0]<0:
pass
#chunkxpos = (maxx-minx)*16 - chunkxpos #-16?
#chunkzpos = (maxz-minz)*16 - chunkzpos #-16?
pos = (slice(chunkxpos,chunkxpos+16),slice(chunkzpos,chunkzpos+16))
mapinfo['height'][pos] = hdata.reshape(16,16)
mapinfo['content'][pos] = cdata.reshape(16,16)
mapinfo['water'][pos] = wdata.reshape(16,16)
mapinfo['dnd'][pos] = dnddata.reshape(16,16)
if args.drawunderground:
mapinfo['underground'][pos] = udata.reshape(16,16)
mapinfo['undergroundh'][pos] = uhdata.reshape(16,16)
break
except Exception as e:
print(("Error at ("+str(xpos)+","+str(ypos)+","+str(zpos)+"):"))
traceback.print_exc()
sys.stdout.write("Block data: ")
try:
for c in r[0]:
sys.stdout.write("%2.2x "%ord(c))
except NameError:
if self.r_error_enable:
sys.stdout.write(R_MSG)
# stop here or stdout is several hundred MB:
self.r_error_enable = False
sys.stdout.write(os.linesep)
sys.stdout.write("Data after node metadata:")
try:
count = 0
for c in data_after_node_metadata:
sys.stdout.write("%2.2x "%ord(c))
count += 1
if count == 0:
sys.stdout.write("<(The following issue occurred while handling the exception) Uh oh, got {}: zero characters to convert to ord>".format(data_after_node_metadata))
except TypeError:
sys.stdout.write("<(The following issue occurred while handling the"
+ " Exception) Uh oh, expected characters in"
" data_after_node_metadata; got:")
sys.stdout.flush()
sys.stdout.write(os.linesep)(type(data_after_node_metadata) + " length "
+ str(len(data_after_node_metadata))
+ ":>")
sys.stdout.write(os.linesep)
sys.stdout.write(os.linesep)
exit(1) # stop HUGE stdout
self.mapinfo = mapinfo
if unknown_node_names:
sys.stdout.write("Unknown node names:")
for name in unknown_node_names:
sys.stdout.write(" "+name)
sys.stdout.write(os.linesep)
if unknown_node_ids:
sys.stdout.write("Unknown node ids:")
for node_id in unknown_node_ids:
sys.stdout.write(" "+str(hex(node_id)))
sys.stdout.write(os.linesep)
# print str_to_uid
def draw_image(world,uid_to_color):
# Drawing the picture
args = world.args
stuff = world.mapinfo
minx = world.minx
minz = world.minz
maxx = world.maxx
maxz = world.maxz
w = world.w
h = world.h
reverse_dirs = ['east','south','up']
print("Drawing image")
starttime = time.time()
border = 40 if args.drawscale else 0
im = Image.new("RGB", (w*args.pixelspernode + border, h*args.pixelspernode + border), args.bgcolor)
draw = ImageDraw.Draw(im)
if args.pixelspernode>1:
stuff['content'] = stuff['content'].repeat(args.pixelspernode,axis=0).repeat(args.pixelspernode,axis=1)
stuff['dnd'] = stuff['dnd'].repeat(args.pixelspernode,axis=0).repeat(args.pixelspernode,axis=1)
stuff['height'] = stuff['height'].repeat(args.pixelspernode,axis=0).repeat(args.pixelspernode,axis=1)
stuff['water'] = stuff['water'].repeat(args.pixelspernode,axis=0).repeat(args.pixelspernode,axis=1)
if args.facing in reverse_dirs:
stuff['content'] = stuff['content'][::-1,:]
stuff['dnd'] = stuff['dnd'][::-1,:]
stuff['height'] = stuff['height'][::-1,:]
stuff['water'] = stuff['water'][::-1,:]
count_dnd=0
count_height=0
count_zero=0
c = stuff['content']
dnd = stuff['dnd']
hgh = stuff['height']
c0 = c[1:,:-1]
c1 = c[:-1,1:]
c2 = c[1:, 1:]
dnd0 = dnd[1:,:-1]
dnd1 = dnd[:-1,1:]
dnd2 = dnd[1:, 1:]
h0 = hgh[1:,:-1]
h1 = hgh[:-1,1:]
h2 = hgh[1:, 1:]
drop = (2*h0 - h1 - h2) * 12
if args.facing in ['east','north','up']:
drop = -drop
drop = numpy.clip(drop,-32,32)
if args.fog>0:
fogstrength = 1.0* (stuff['height']-stuff['height'].min())/(stuff['height'].max()-stuff['height'].min())
if args.facing in reverse_dirs:
fogstrength = 1-fogstrength
fogstrength = args.fog * fogstrength
fogstrength = fogstrength[:,:,numpy.newaxis]
if args.drawunderground:
ugcoeff = 0.9 if args.drawunderground == 2 else 0.4
ugstrength = 1.0*(stuff['underground'])/6 #normalize so that 6 blocks of air underground is considered "big"
ugstrength = (ugstrength>0)*0.1 + ugcoeff*ugstrength
ugstrength = ugstrength - (ugstrength-0.75)*(ugstrength>0.75)
ugstrength = ugstrength[:,:,numpy.newaxis]
print(('ugmin',stuff['undergroundh'].min()))
print(('ugmax',stuff['undergroundh'].max()))
ugdepth = 1.0* (stuff['undergroundh']-stuff['undergroundh'].min())/(stuff['undergroundh'].max()-stuff['undergroundh'].min())
ugdepth = ugdepth[:,:,numpy.newaxis]
u = stuff['underground']
u0 = u[1:,:-1]>0
u1 = u[:-1,1:]>0
u2 = u[1:, 1:]>0
hgh = stuff['undergroundh']
h0 = hgh[1:,:-1]
h1 = hgh[:-1,1:]
h2 = hgh[1:, 1:]
dropg = (2*h0 - h1 - h2) * 12 * u0 * u1 * u2
if args.facing in reverse_dirs:
dropg = -dropg
dropg = numpy.clip(dropg,-32,32)
if args.drawunderground < 2: #normal map or cave with map overlay
colors = numpy.array([args.bgcolor,args.bgcolor]+[uid_to_color[c] for c in sorted(uid_to_color)],dtype = 'i2')
else:
colors = numpy.array([args.bgcolor,args.bgcolor]+[args.bgcolor for c in sorted(uid_to_color)],dtype = 'i2')
pix = colors[stuff['content']]
if args.drawunderground < 2:
pix[1:,:-1] += drop[:,:,numpy.newaxis]
pix = numpy.clip(pix,0,255)
if args.fog>0:
pix = args.fogcolor*fogstrength + pix*(1-fogstrength)
pix = numpy.clip(pix,0,255)
if args.drawunderground:
ugpd = args.ugcolor*ugdepth + args.bgcolor * (1-ugdepth) ##average with background color based on depth (deeper caves will be more bg color)
pix = ugpd*ugstrength + pix*(1-ugstrength)
pix[1:,:-1] += dropg[:,:,numpy.newaxis]
pix = numpy.clip(pix,0,255)
pix = numpy.array(pix,dtype = 'u1')
impix = Image.fromarray(pix,'RGB')
impix = impix.transpose(Image.ROTATE_90)
im.paste(impix,(border,border))
if args.draworigin:
if args.facing in ['east','north','up']:
draw.ellipse(((w - (minx * -16 - 5))*args.pixelspernode + border, (h - minz * -16 - 6)*args.pixelspernode + border,
(w - (minx * -16 + 5))*args.pixelspernode + border, (h - minz * -16 + 4))*args.pixelspernode + border,
outline=args.origincolor)
else:
draw.ellipse(((minx * -16 - 5)*args.pixelspernode + border, (h - minz * -16 - 6)*args.pixelspernode + border,
(minx * -16 + 5)*args.pixelspernode + border, (h - minz * -16 + 4)*args.pixelspernode + border),
outline=args.origincolor)
font = ImageFont.load_default()
if args.drawscale:
if args.facing in ['up','down']:
draw.text((24, 0), "X", font=font, fill=args.scalecolor)
draw.text((2, 24), "Z", font=font, fill=args.scalecolor)
elif args.facing in ['east','west']:
draw.text((24, 0), "Z", font=font, fill=args.scalecolor)
draw.text((2, 24), "Y", font=font, fill=args.scalecolor)
elif args.facing in ['north','south']:
draw.text((24, 0), "X", font=font, fill=args.scalecolor)
draw.text((2, 24), "Y", font=font, fill=args.scalecolor)
if args.facing in reverse_dirs:
for n in range(int(minx / -4) * -4, maxx+1, 4):
draw.text(((w - (minx * -16 + n * 16))*args.pixelspernode + border + 2, 0), str(n * 16),
font=font, fill=args.scalecolor)
draw.line(((w - (minx * -16 + n * 16))*args.pixelspernode + border, 0,
(w - (minx * -16 + n * 16))*args.pixelspernode + border, border - 1), fill=args.scalecolor)
else:
for n in range(int(minx / -4) * -4, maxx, 4):
draw.text(((minx * -16 + n * 16)*args.pixelspernode + border + 2 , 0), str(n * 16),
font=font, fill=args.scalecolor)
draw.line(((minx * -16 + n * 16)*args.pixelspernode + border, 0,
(minx * -16 + n * 16)*args.pixelspernode + border, border - 1), fill=args.scalecolor)
for n in range(int(maxz / 4) * 4, minz, -4):
draw.text((2, (h - 1 - (n * 16 - minz * 16))*args.pixelspernode + border), str(n * 16),
font=font, fill=args.scalecolor)
draw.line((0, (h - 1 - (n * 16 - minz * 16))*args.pixelspernode + border, border - 1,
(h - 1 - (n * 16 - minz * 16))*args.pixelspernode + border), fill=args.scalecolor)
if args.drawplayers:
try:
for filename in os.listdir(args.world_dir + "players"):
f = open(args.world_dir + "players/" + filename)
lines = f.readlines()
name = ""
position = []
for line in lines:
p = line.split()
if p[0] == "name":
name = p[2]
print((filename + ": name = " + name))
if p[0] == "position":
position = p[2][1:-1].split(",")
print((filename + ": position = " + p[2]))
if len(name) < 0 and len(position) == 3:
x,y,z = [int(float(p)/10) for p in position]
x,y,z = world.facing(x,y,z)
if args.facing in reverse_dirs:
x = (w - x - minx * 16)*args.pixelspernode
z = (h - z - minz * 16)*args.pixelspernode
else:
x = (x - minx * 16)*args.pixelspernode
z = (h - z - minz * 16)*args.pixelspernode
draw.ellipse(((x - 2)*args.pixelspernode + border, (z - 2)*args.pixelspernode + border,
(x + 2)*args.pixelspernode + border, (z + 2)*args.pixelspernode + border), outline=args.playercolor)
draw.text(((x + 2)*args.pixelspernode + border, (z + 2)*args.pixelspernode + border), name,
font=font, fill=args.playercolor)
f.close()
except OSError:
pass
# worldlimits are measured in cubes of 16x16x16
pngminx = minx*16
pngmaxx = maxx*16+16
pngminz = minz*16
pngmaxz = maxz*16+16
pngregion=[pngminx, pngmaxx, pngminz, pngmaxz]
print(("Saving to: "+ args.output))
print(("PNG Region: ", pngregion))
print(("pngMinX: ", str(pngminx)))
print(("pngMaxZ: ", str(pngmaxz)))
print(("Pixels PerNode: ", args.pixelspernode))
print(("border: ", border))
# This saves data in tEXt chunks (non-standard naming tags are allowed according to the PNG specification)
im.info["pngRegion"] = str(pngregion[0])+ ","+ str(pngregion[1])+ ","+ str(pngregion[2])+ ","+ str(pngregion[3])
im.info["pngMinX"] = str(pngminx)
im.info["pngMaxZ"] = str(pngmaxz)
im.info["border"] = str(border)
im.info["pixPerNode"] = str(args.pixelspernode)
pngsave(im, args.output)
if args.makethumb:
# Now create a square 'thumbnail' for display on square faces (which turns out to benefit from quite high resolution).
thumbSize = 512
imSize = im.size
print(imSize)
if imSize[0] > imSize[1]:
reSize=(thumbSize, int(thumbSize*(float(imSize[1])/imSize[0])))
else:
reSize=(int(thumbSize*(float(imSize[0])/imSize[1])), thumbSize)
print(reSize)
thumbBorder=((thumbSize-reSize[0])/2, (thumbSize-reSize[1])/2, thumbSize-(thumbSize-reSize[0])/2, thumbSize-(thumbSize-reSize[1])/2)
print(thumbBorder)
thumbIm = Image.new("RGB", (thumbSize,thumbSize), args.bgcolor)
thumbIm.paste(im.resize(reSize),thumbBorder)
thumbIm.save(os.path.splitext(args.output)[0]+"_thumb.png", "PNG")
def main():
args = parse_args()
uid_to_color, str_to_uid = load_colors()
world = World(args)
world.generate_sector_list()
if len(world.xlist) == 0:
print("World data does not exist.")
sys.exit(1)
print(("Result image (w=" + str(world.w) + " h=" + str(world.h) + ") will be written to "
+ args.output))
world.generate_map_info(str_to_uid)
draw_image(world,uid_to_color)
if __name__ == '__main__':
main()
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