#!/usr/bin/env python3 import numpy as np import noise from save import save from erosion import EvolutionModel import os import sys # Always place in this script's parent directory os.chdir(os.path.dirname(sys.argv[0])) argc = len(sys.argv) if argc > 1: mapsize = int(sys.argv[1]) else: mapsize = 400 scale = mapsize / 2 n = np.zeros((mapsize, mapsize)) #micronoise_depth = 0.05 params = { "octaves" : int(np.log2(mapsize)), "persistence" : 0.5, "lacunarity" : 2., } xbase = np.random.randint(65536) ybase = np.random.randint(65536) for x in range(mapsize): for y in range(mapsize): n[x,y] = noise.snoise2(x/scale + xbase, y/scale + ybase, **params) #micronoise = np.random.rand(mapsize, mapsize) #nn = np.exp(n*2) + micronoise*micronoise_depth nn = n*mapsize/5 + mapsize/20 print('Initializing model') model = EvolutionModel(nn, K=1, m=0.35, d=1, sea_level=0) print('Flow calculation 1') model.calculate_flow() print('Advection 1') model.advection(2) print('Isostatic equilibration 1') model.adjust_isostasy() print('Flow calculation 2') model.calculate_flow() print('Diffusion') model.diffusion(4) print('Advection 2') model.advection(2) print('Isostatic equilibration 2') model.adjust_isostasy() print('Flow calculation 3') model.calculate_flow() print('Done') save(model.dem, 'dem', dtype='>i2') save(model.lakes, 'lakes', dtype='>i2') save(model.dirs, 'links', dtype='u1') save(model.rivers, 'rivers', dtype='>u4') with open('size', 'w') as sfile: sfile.write('{:d}\n{:d}'.format(mapsize, mapsize)) try: import matplotlib.pyplot as plt plt.subplot(2,2,1) plt.pcolormesh(nn, cmap='viridis') plt.gca().set_aspect('equal', 'box') #plt.colorbar(orientation='horizontal') plt.title('Raw elevation') plt.subplot(2,2,2) plt.pcolormesh(model.lakes, cmap='viridis') plt.gca().set_aspect('equal', 'box') #plt.colorbar(orientation='horizontal') plt.title('Lake surface elevation') plt.subplot(2,2,3) plt.pcolormesh(model.dem, cmap='viridis') plt.gca().set_aspect('equal', 'box') #plt.colorbar(orientation='horizontal') plt.title('Elevation after advection') plt.subplot(2,2,4) plt.pcolormesh(model.rivers, vmin=0, vmax=mapsize**2/25, cmap='Blues') plt.gca().set_aspect('equal', 'box') #plt.colorbar(orientation='horizontal') plt.title('Rivers discharge') plt.show() except: pass