def __init__(self, filename, avoid=('#', '>')):
File.__init__(self, filename)
self.header = []
self.avoid = avoid
# Setup #
if self.written == True:
self.setup_header()
def __init__(self, parameter_filename='parameters.txt'):
# Memory limit #
self.memLIMIT = 10000
# Set parameters for world #
self.parameter_filedir = 'input/'
self.parameter_file = File(self.parameter_filedir+parameter_filename)
for name, value in self.get_parameters():
setattr(self, name, value)
output = 'output/'
if not os.path.exists(output): os.mkdir(output)
while self.mapname in os.listdir(output):
ans = raw_input('This mapname cannot be created. Load? ')
if ans == 'yes':
break
else:
self.mapname = raw_input('New mapname: ')
# File features #
self.map_size = (120, 60)
self.screen_size = (1200, 600)
self.seeds = set()
self.output_dir = os.path.join(output, self.mapname)
self.ext = '.MAP'
self.seedfile = File(self.output_dir+'seeds'+self.ext)
self.elevationfile = File(self.output_dir+'elevations'+self.ext)
self.raw_elevationfile = FaFile(self.output_dir+'raw_elevations.fa')
self.temperaturefile = File(self.output_dir+'temperatures'+self.ext)
self.waterfile = File(self.output_dir+'water'+self.ext)
self.water_symbol = 'W'
self.tilefile = File(self.output_dir+'tiles'+self.ext)
self.infofile = File(self.output_dir+'INFO.txt')
self.include_parameters = ('mapname', 'num_seeds', 'mountain_branch', 'mountain_spread', 'mountain_fatness', 'mountain_check_radius', 'equator_temp',\
'mountain_temp', 'sealevel', 'water_check_radius', 'desert_temp', 'hottest', 'coldest')
# Image setup #
self.screen = Screen(self.screen_size[0], self.screen_size[1], 'World')
self.screen.launch(topmost=False)
self.tile_length = int(self.screen_size[0]/self.map_size[0])
self.tm = TileMaster((self.tile_length, self.tile_length))
self.tm.setup_images()
# To be determined in self.setup()#
self.num_tiles = None
self.equator_y = None
self.tRange = None
self.sealevel = self.tm.det_sealevel()
self.setup()
self.STANDARD()
def __init__(self, filename):
File.__init__(self, filename)
def replace_phrase(self, target_phrase, desired_phrase):
f = File(self.filename)
dummy = File('dummy.txt')
target_len = len(target_phrase)-1
for line in f._parse():
dummy.skipline_if_written()
index = -1
wait = 0
matched = True
for char in line:
index += 1
write = False
if wait == 0:
if char == target_phrase[0]:
if index + target_len > len(line):
matched = False
else:
mod = -1
for test_char in target_phrase:
mod += 1
if line[index+mod] == test_char:
continue
else:
matched = False
break
if matched == False:
write = True
else:
dummy._write(desired_phrase)
wait = target_len
else:
write = True
if write == True:
dummy._write(char)
else:
wait -= 1
f._delete()
dummy._rename(self.filename)
def cleanup_elevations(self):
total_entries = self.raw_elevationfile.get_total_entries()
p = Progress(total_entries, 'Getting high...')
dummymap = File('dummy')
if dummymap.written == True:
dummymap._delete()
elevationMEMORY = {}
memCOUNT = 0
for strcoord, floatelevation in self.raw_elevationfile.parse():
p.update()
coord = self.str2coord(strcoord)
#
elevation = int(round(float(floatelevation), 0))
if elevation > 9:
elevation = 9
elif elevation < 0:
elevation = 0
else:
pass
elevationMEMORY[coord] = elevation
memCOUNT += 1
if memCOUNT > self.memLIMIT or p.progress == total_entries:
if self.elevationfile.written == False:
for y in range(self.map_size[1]):
self.elevationfile.skipline_if_written()
for x in range(self.map_size[0]):
try:
elevation = elevationMEMORY[(x, y)]
except KeyError:
elevation = 0
self.elevationfile._write(str(elevation))
else:
y = -1
for line in self.elevationfile._parse():
dummymap.skipline_if_written()
y += 1
x = -1
for char in line:
x += 1
if char != '0':
dummymap._write(char)
else:
try:
elevation = elevationMEMORY[(x, y)]
except KeyError:
elevation = 0
dummymap._write(str(elevation))
self.elevationfile._delete()
dummymap._rename(self.elevationfile.filename)
self.elevationfile = dummymap
dummymap = File('dummy')
elevationMEMORY = {}
memCOUNT = 0
else:
continue
p.close()
class Mapper:
def __init__(self, parameter_filename='parameters.txt'):
# Memory limit #
self.memLIMIT = 10000
# Set parameters for world #
self.parameter_filedir = 'input/'
self.parameter_file = File(self.parameter_filedir+parameter_filename)
for name, value in self.get_parameters():
setattr(self, name, value)
output = 'output/'
if not os.path.exists(output): os.mkdir(output)
while self.mapname in os.listdir(output):
ans = raw_input('This mapname cannot be created. Load? ')
if ans == 'yes':
break
else:
self.mapname = raw_input('New mapname: ')
# File features #
self.map_size = (120, 60)
self.screen_size = (1200, 600)
self.seeds = set()
self.output_dir = os.path.join(output, self.mapname)
self.ext = '.MAP'
self.seedfile = File(self.output_dir+'seeds'+self.ext)
self.elevationfile = File(self.output_dir+'elevations'+self.ext)
self.raw_elevationfile = FaFile(self.output_dir+'raw_elevations.fa')
self.temperaturefile = File(self.output_dir+'temperatures'+self.ext)
self.waterfile = File(self.output_dir+'water'+self.ext)
self.water_symbol = 'W'
self.tilefile = File(self.output_dir+'tiles'+self.ext)
self.infofile = File(self.output_dir+'INFO.txt')
self.include_parameters = ('mapname', 'num_seeds', 'mountain_branch', 'mountain_spread', 'mountain_fatness', 'mountain_check_radius', 'equator_temp',\
'mountain_temp', 'sealevel', 'water_check_radius', 'desert_temp', 'hottest', 'coldest')
# Image setup #
self.screen = Screen(self.screen_size[0], self.screen_size[1], 'World')
self.screen.launch(topmost=False)
self.tile_length = int(self.screen_size[0]/self.map_size[0])
self.tm = TileMaster((self.tile_length, self.tile_length))
self.tm.setup_images()
# To be determined in self.setup()#
self.num_tiles = None
self.equator_y = None
self.tRange = None
self.sealevel = self.tm.det_sealevel()
self.setup()
self.STANDARD()
def STANDARD(self):
t0 = time.time()
if self.infofile.written == False:
self.record_info()
if self.seedfile.written == False:
self.plant_seeds()
self.branch_seeds()
self.record_seeds()
if self.raw_elevationfile.written == False:
self.record_rawelevations()
if self.elevationfile.written == False:
self.cleanup_elevations()
if self.waterfile.written == False:
self.record_watercount()
if self.temperaturefile.written == False:
self.record_temperatures()
if self.tilefile.written == False:
self.record_tiles()
sys.stdout.write('\nTime: %f\n\n' % round(time.time()-t0, 7))
self.draw_tiles()
def setup(self):
if self.map_size[1]%2:
self.equator_y = float((self.map_size[1]+1)/2)
else:
self.equator_y = float(self.map_size[1]/2)
self.num_tiles = self.map_size[0]*self.map_size[1]
self.tRange = self.hottest-self.coldest
def get_parameters(self):
for line in self.parameter_file._parse():
if self.parameter_file.begins_with(line, '#') or line.isspace():
continue
else:
key = ''
value = ''
equals = False
for char in line:
if char == '=':
equals = True
elif char.isspace():
continue
elif equals == False:
key += char
else:
value += char
if '.' in value:
yield (key, float(value))
else:
try:
yield (key, int(value))
except ValueError:
yield (key, value)
def record_info(self):
for attr in self.include_parameters:
value = getattr(self, attr)
self.infofile.skipline_if_written()
self.infofile._write('%s = %s' % (attr, str(value)))
#-------------#
# USEFUL FXNS #
#-------------#
def parse(self, FILE, give_coords=True):
# Reads .map files #
# Yields info and coord #
if FILE.written == True:
y = -1
if give_coords == True:
for line in FILE._parse():
y += 1
x = -1
for char in line:
x += 1
yield char, (x, y)
else:
for line in FILE._parse():
y += 1
x = -1
for char in line:
x += 1
yield char
else:
raise ValueError('File: "%s" not found.' % FILE.filename)
def yRadius(self, radius, x):
return int(round(math.sqrt(radius**2-x**2), 0))
def get_tiles_within_radius(self, radius, coords):
# Yields the coords of interest, but also their relative coords #
# Ex. relative coords of the same tile as the one of inspection is (0,0) #
for x in range(-radius, radius+1):
yR = self.yRadius(radius, x)
if yR == 0:
yR = 1
for y in range(-yR, yR+1):
new_coords = self.change_coords(coords, (x, y))
yield new_coords, (x, y)
def change_coords(self, coords, change):
x = coords[0]+change[0]
if x < 0:
x += self.map_size[0]
elif x >= self.map_size[0]:
x -= self.map_size[0]
else:
pass
y = coords[1]+change[1]
if y < 0:
y += self.map_size[1]
elif y >= self.map_size[1]:
y -= self.map_size[1]
else:
pass
return (x, y)
def n2coords(self, n):
test = n
y = -1
while test >= 0:
y += 1
test -= self.map_size[0]
x = self.map_size[0]+test
return (x, y)
def coords2n(self, coords):
return coords[1]*self.map_size[0]+coords[0]
#-----------#
# SEED FXNS #
#-----------#
def plant_seeds(self):
self.seeds = set()
for s in range(self.num_seeds):
coord = (random.randint(0, self.map_size[0]-1), random.randint(0, self.map_size[1]-1))
self.seeds.add(coord)
def branch_seeds(self):
all_seeds = set()
possible_dir = (-1, 1)
self.min_spread = int(round(self.mountain_spread*0.2))
self.min_mountain_branch = int(round(self.mountain_branch*0.2))
for seed in self.seeds:
all_seeds.add(seed)
branch_num = random.randint(self.min_mountain_branch, self.mountain_branch)
new_seed = seed
dir_x = possible_dir[random.randint(0, 1)]
dir_y = possible_dir[random.randint(0, 1)]
for branch in range(branch_num):
dx = random.randint(self.min_spread, self.mountain_spread)*dir_x
dy = random.randint(self.min_spread, self.mountain_spread)*dir_y
new_seed = self.change_coords(new_seed, (dx, dy))
all_seeds.add(new_seed)
self.seeds = all_seeds
def record_seeds(self):
p = Progress(self.map_size[1], 'Getting seeds...')
for y in range(self.map_size[1]):
p.update()
self.seedfile.skipline_if_written()
for x in range(self.map_size[0]):
test = (x, y)
if test in self.seeds:
self.seedfile._write('1')
else:
self.seedfile._write(' ')
p.close()
def load_seeds(self):
p = Progress(self.num_tiles, 'Loading seeds...')
for char, coord in self.parse(self.seedfile):
p.update()
if char == '1':
self.seeds.add(coord)
else:
continue
p.close()
#----------------#
# Elevation Calc #
#----------------#
def coord2str(self, elevation_MEMORY):
for key, value in elevation_MEMORY.items():
corrected_key = '%d\t%d' % (key[0], key[1])
yield (corrected_key, value)
def construct_str_eleMEMORY(self, elevation_MEMORY):
new = {}
for key, value in self.coord2str(elevation_MEMORY):
new[key] = value
return new
def str2coord(self, strcoord):
coord1 = ''
coord2 = ''
readtab = False
for char in strcoord:
if char.isspace():
readtab = True
elif readtab == False:
coord1 += char
else:
coord2 += char
return (int(coord1), int(coord2))
def record_rawelevations(self):
if self.seeds == set():
self.load_seeds()
else:
pass
total_count = len(self.seeds)-1
p = Progress(total_count, 'Growing seeds...')
dummyfile = FaFile('dummy.fa')
if dummyfile.written == True:
dummyfile._delete()
elevation_MEMORY = {}
memCOUNT = 0
# ex. {coord:elevation}
for seed in self.seeds:
p.update()
for coord, rel_coord in self.get_tiles_within_radius(self.mountain_check_radius, seed):
randfactor = random.randint(0, 2)/10.0
dh = 5.0/(abs(rel_coord[0])+abs(rel_coord[1])+1)**(1.0/self.mountain_fatness)+randfactor
try:
elevation_MEMORY[coord] += dh
except KeyError:
elevation_MEMORY[coord] = dh
memCOUNT += 1
if memCOUNT > self.memLIMIT or p.progress == total_count:
if self.raw_elevationfile.written == False:
for key, value in self.coord2str(elevation_MEMORY):
self.raw_elevationfile.entry(key, str(value))
elevation_MEMORY = {}
memCOUNT = 0
else:
str_eleMEMORY = self.construct_str_eleMEMORY(elevation_MEMORY)
for key, value in self.raw_elevationfile.parse():
try:
str_eleMEMORY[key] += float(value)
except KeyError:
dummyfile.entry(key, str(value))
self.raw_elevationfile._delete()
dummyfile._rename(self.raw_elevationfile.filename)
self.raw_elevationfile = dummyfile
dummyfile = FaFile('dummy.fa')
for key, value in str_eleMEMORY.items():
self.raw_elevationfile.entry(key, str(value))
elevation_MEMORY = {}
memCOUNT = 0
else:
continue
p.close()
def cleanup_elevations(self):
total_entries = self.raw_elevationfile.get_total_entries()
p = Progress(total_entries, 'Getting high...')
dummymap = File('dummy')
if dummymap.written == True:
dummymap._delete()
elevationMEMORY = {}
memCOUNT = 0
for strcoord, floatelevation in self.raw_elevationfile.parse():
p.update()
coord = self.str2coord(strcoord)
#
elevation = int(round(float(floatelevation), 0))
if elevation > 9:
elevation = 9
elif elevation < 0:
elevation = 0
else:
pass
elevationMEMORY[coord] = elevation
memCOUNT += 1
if memCOUNT > self.memLIMIT or p.progress == total_entries:
if self.elevationfile.written == False:
for y in range(self.map_size[1]):
self.elevationfile.skipline_if_written()
for x in range(self.map_size[0]):
try:
elevation = elevationMEMORY[(x, y)]
except KeyError:
elevation = 0
self.elevationfile._write(str(elevation))
else:
y = -1
for line in self.elevationfile._parse():
dummymap.skipline_if_written()
y += 1
x = -1
for char in line:
x += 1
if char != '0':
dummymap._write(char)
else:
try:
elevation = elevationMEMORY[(x, y)]
except KeyError:
elevation = 0
dummymap._write(str(elevation))
self.elevationfile._delete()
dummymap._rename(self.elevationfile.filename)
self.elevationfile = dummymap
dummymap = File('dummy')
elevationMEMORY = {}
memCOUNT = 0
else:
continue
p.close()
#-------------#
# Water Count #
#-------------#
def get_watercount(self, coord):
water_count = 0
check_coords = set()
for test_coord, useless_information_not_needed in self.get_tiles_within_radius(self.water_check_radius, coord):
check_coords.add(test_coord)
max_check = len(check_coords)
checked = 0
for char, inspect_coord in self.parse(self.elevationfile):
if inspect_coord in check_coords:
elevation = int(char)
if elevation > self.sealevel:
pass
else:
water_count += 1
if water_count == 9:
break
else:
pass
checked += 1
if checked == max_check:
break
else:
continue
else:
continue
return water_count
def record_watercount(self):
p = Progress(self.num_tiles, 'Getting H2O...')
for char, coord in self.parse(self.elevationfile):
p.update()
if coord[0] == 0 and self.waterfile.written == True:
self.waterfile._write('\n')
else:
pass
elevation = int(char)
if elevation <= self.sealevel:
watercount = self.water_symbol
else:
watercount = self.get_watercount(coord)
self.waterfile._write(str(watercount))
p.close()
#------------------#
# Temperature Calc #
#------------------#
def get_temperature_LATITUDE(self, latitude_y):
dLat = float(abs(latitude_y-self.equator_y))
dT = self.equator_temp*(1-dLat/self.equator_y)
return dT
def get_temperature_ELEVATION(self, elevation):
dT = self.mountain_temp*float(elevation)/9
return dT
def get_temperature_WATER(self, watercount, y_lattitude):
if watercount == self.water_symbol:
dT = 0
else:
dT = self.desert_temp*(1-float(watercount)/9)*(1-abs(y_lattitude-self.equator_y)/float(self.equator_y))**0.5
return dT
def record_temperatures(self):
p = Progress(self.num_tiles, 'Getting hot...')
iter_elevationfile = iter(self.parse(self.elevationfile))
iter_waterfile = iter(self.parse(self.waterfile, give_coords=False))
for tile in range(self.num_tiles):
p.update()
ele_char, coord = next(iter_elevationfile)
wat_char = next(iter_waterfile)
if coord[0] == 0 and self.temperaturefile.written == True:
self.temperaturefile._write('\n')
else:
pass
temp_lat = self.get_temperature_LATITUDE(coord[1])
temp_ele = self.get_temperature_ELEVATION(int(ele_char))
temp_wat = self.get_temperature_WATER(wat_char, coord[1])
total = temp_lat+temp_ele+temp_wat+random.randint(0, 2)/10.0
if total > 9:
total = 9
elif total < 0:
total = 0
else:
total = int(round(total))
self.temperaturefile._write(str(total))
p.close()
#----------------#
# Matching Tiles #
#----------------#
def record_tiles(self):
p = Progress(self.num_tiles, 'Building tiles...')
iter_elevationfile = iter(self.parse(self.elevationfile))
iter_temperaturefile = iter(self.parse(self.temperaturefile, give_coords=False))
for tile in range(self.num_tiles):
p.update()
ele_char, coord = next(iter_elevationfile)
temp_char = next(iter_temperaturefile)
corrected_temp = float(temp_char)/9*self.tRange+self.coldest
tile_symbol = self.tm.choose_tile(int(ele_char), corrected_temp)
if coord[0] == 0 and self.tilefile.written == True:
self.tilefile._write('\n')
else:
pass
if tile_symbol == None:
raise Exception(str(ele_char)+'\t'+str(corrected_temp))
else:
self.tilefile._write(str(tile_symbol))
p.close()
#------------#
# Draw tiles #
#------------#
def draw_tiles(self):
p = Progress(self.map_size[1], 'Drawing tiles...')
y = -1
for line in self.tilefile._parse():
p.update()
y += 1
x = -1
for char in line.strip():
x += 1
tile = self.tm.tile_map[char]
position = (x*self.tile_length, y*self.tile_length)
CanvasTile(self, tile, position)
p.close()
raw_input()
