def generate_world(world_name, width, height, seed, num_plates, output_dir,
step, ocean_level, temps, humids, world_format='protobuf',
gamma_curve=1.25, curve_offset=.2, fade_borders=True,
verbose=True, black_and_white=False):
w = world_gen(world_name, width, height, seed, temps, humids, num_plates, ocean_level,
step, gamma_curve=gamma_curve, curve_offset=curve_offset,
fade_borders=fade_borders, verbose=verbose)
print('') # empty line
print('Producing ouput:')
sys.stdout.flush()
# Save data
filename = "%s/%s.world" % (output_dir, world_name)
with open(filename, "wb") as f:
if world_format == 'pickle':
pickle.dump(w, f, pickle.HIGHEST_PROTOCOL)
elif world_format == 'protobuf':
f.write(w.protobuf_serialize())
else:
print("Unknown format '%s', not saving " % world_format)
print("* world data saved in '%s'" % filename)
sys.stdout.flush()
# Generate images
filename = '%s/%s_ocean.png' % (output_dir, world_name)
draw_ocean_on_file(w.ocean, filename)
print("* ocean image generated in '%s'" % filename)
if step.include_precipitations:
filename = '%s/%s_precipitation.png' % (output_dir, world_name)
draw_precipitation_on_file(w, filename, black_and_white)
print("* precipitation image generated in '%s'" % filename)
filename = '%s/%s_temperature.png' % (output_dir, world_name)
draw_temperature_levels_on_file(w, filename, black_and_white)
print("* temperature image generated in '%s'" % filename)
if step.include_biome:
filename = '%s/%s_biome.png' % (output_dir, world_name)
draw_biome_on_file(w, filename)
print("* biome image generated in '%s'" % filename)
filename = '%s/%s_elevation.png' % (output_dir, world_name)
sea_level = w.sea_level()
draw_simple_elevation_on_file(w, filename, sea_level=sea_level)
print("* elevation image generated in '%s'" % filename)
return w
def generate_world(world_name, width, height, seed, num_plates, output_dir,
step, ocean_level, temps, humids,
world_format='pickle', fade_borders=True,
verbose=True, black_and_white=False):
w = world_gen(world_name, width, height, seed, temps, humids, num_plates, ocean_level,
step, fade_borders=fade_borders, verbose=verbose)
print('') # empty line
print('Producing ouput:')
sys.stdout.flush()
# Save data
filename = "%s/%s.world" % (output_dir, world_name)
with open(filename, "wb") as f:
if world_format == 'pickle':
pickle.dump(w, f, pickle.HIGHEST_PROTOCOL)
elif world_format == 'protobuf':
f.write(w.protobuf_serialize())
else:
print("Unknown format '%s', not saving " % world_format)
print("* world data saved in '%s'" % filename)
sys.stdout.flush()
# Generate images
filename = '%s/%s_ocean.png' % (output_dir, world_name)
draw_ocean_on_file(w.ocean, filename)
print("* ocean image generated in '%s'" % filename)
if step.include_precipitations:
filename = '%s/%s_precipitation.png' % (output_dir, world_name)
draw_precipitation_on_file(w, filename, black_and_white)
print("* precipitation image generated in '%s'" % filename)
filename = '%s/%s_temperature.png' % (output_dir, world_name)
draw_temperature_levels_on_file(w, filename, black_and_white)
print("* temperature image generated in '%s'" % filename)
if step.include_biome:
filename = '%s/%s_biome.png' % (output_dir, world_name)
draw_biome_on_file(w, filename)
print("* biome image generated in '%s'" % filename)
filename = '%s/%s_elevation.png' % (output_dir, world_name)
sea_level = w.sea_level()
draw_simple_elevation_on_file(w, filename, sea_level=sea_level)
print("* elevation image generated in '%s'" % filename)
return w