mirror of
https://gitlab.com/gaelysam/mapgen_rivers.git
synced 2024-11-16 07:40:20 +01:00
87 lines
2.6 KiB
Python
87 lines
2.6 KiB
Python
import numpy as np
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import scipy.ndimage as im
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import rivermapper as rm
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def advection(dem, dirs, rivers, time, K=1, m=0.5, sea_level=0):
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dirs = dirs.copy()
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dirs[0,:] = 0
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dirs[-1,:] = 0
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dirs[:,0] = 0
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dirs[:,-1] = 0
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adv_time = 1 / (K*rivers**m)
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dem = np.maximum(dem, sea_level)
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dem_new = np.zeros(dem.shape)
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for y in range(dirs.shape[0]):
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for x in range(dirs.shape[1]):
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x0, y0 = x, y
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x1, y1 = x, y
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remaining = time
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while True:
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flow_dir = dirs[y0,x0]
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if flow_dir == 0:
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remaining = 0
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break
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elif flow_dir == 1:
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y1 += 1
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elif flow_dir == 2:
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x1 += 1
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elif flow_dir == 3:
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y1 -= 1
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elif flow_dir == 4:
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x1 -= 1
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if remaining <= adv_time[y0,x0]:
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break
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remaining -= adv_time[y0,x0]
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x0, y0 = x1, y1
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c = remaining / adv_time[y0,x0]
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dem_new[y,x] = c*dem[y1,x1] + (1-c)*dem[y0,x0]
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return np.minimum(dem, dem_new)
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def diffusion(dem, time, d=1):
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radius = d * time**.5
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return im.gaussian_filter(dem, radius, mode='reflect')
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class EvolutionModel:
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def __init__(self, dem, K=1, m=0.5, d=1, sea_level=0, flow=False, flex_radius=100):
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self.dem = dem
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#self.bedrock = dem
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self.K = K
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self.m = m
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self.d = d
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self.sea_level = sea_level
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self.flex_radius = flex_radius
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self.define_isostasy()
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if flow:
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self.calculate_flow()
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else:
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self.lakes = dem
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self.dirs = np.zeros(dem.shape, dtype='u1')
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self.rivers = np.zeros(dem.shape, dtype='u4')
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self.flow_uptodate = False
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def calculate_flow(self):
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self.dirs, self.lakes, self.rivers = rm.flow(self.dem)
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self.flow_uptodate = True
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def advection(self, time):
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dem = advection(self.lakes, self.dirs, self.rivers, time, K=self.K, m=self.m, sea_level=self.sea_level)
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self.dem = np.minimum(dem, self.dem)
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self.flow_uptodate = False
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def diffusion(self, time):
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self.dem = diffusion(self.dem, time, d=self.d)
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self.flow_uptodate = False
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def define_isostasy(self):
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self.ref_isostasy = im.gaussian_filter(self.dem, self.flex_radius, mode='reflect')
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def adjust_isostasy(self, rate=1):
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isostasy = im.gaussian_filter(self.dem, self.flex_radius, mode='reflect')
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correction = (self.ref_isostasy - isostasy) * rate
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self.dem = self.dem + correction
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