1 | #!/usr/bin/env python3 |
---|
2 | # -*- coding: utf-8 -*- |
---|
3 | #--------------------------------------------------------------------------------# |
---|
4 | # This file is part of the PALM model system. |
---|
5 | # |
---|
6 | # PALM is free software: you can redistribute it and/or modify it under the terms |
---|
7 | # of the GNU General Public License as published by the Free Software Foundation, |
---|
8 | # either version 3 of the License, or (at your option) any later version. |
---|
9 | # |
---|
10 | # PALM is distributed in the hope that it will be useful, but WITHOUT ANY |
---|
11 | # WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR |
---|
12 | # A PARTICULAR PURPOSE. See the GNU General Public License for more details. |
---|
13 | # |
---|
14 | # You should have received a copy of the GNU General Public License along with |
---|
15 | # PALM. If not, see <http://www.gnu.org/licenses/>. |
---|
16 | # |
---|
17 | # Copyright 1997-2018 Leibniz Universitaet Hannover |
---|
18 | #--------------------------------------------------------------------------------# |
---|
19 | # |
---|
20 | # Current revisions: |
---|
21 | # ----------------- |
---|
22 | # |
---|
23 | # |
---|
24 | # Former revisions: |
---|
25 | # ----------------- |
---|
26 | # $Id: palm_csd_tools.py 3773 2019-03-01 08:56:57Z suehring $ |
---|
27 | # Unspecificed changes |
---|
28 | # |
---|
29 | # 3726 2019-02-07 18:22:49Z maronga |
---|
30 | # Index bound bugfix |
---|
31 | # |
---|
32 | # 3668 2019-01-14 12:49:24Z maronga |
---|
33 | # Minor changes |
---|
34 | # |
---|
35 | # 3567 2018-11-27 13:59:21Z maronga |
---|
36 | # Initial revisions |
---|
37 | # |
---|
38 | # |
---|
39 | # Description: |
---|
40 | # ------------ |
---|
41 | # Support routines for palm_csd |
---|
42 | # |
---|
43 | # @Author Bjoern Maronga (maronga@muk.uni-hannover.de) |
---|
44 | # |
---|
45 | #------------------------------------------------------------------------------# |
---|
46 | import numpy as np |
---|
47 | from scipy.interpolate import interp2d |
---|
48 | |
---|
49 | def blend_array_2d(array1,array2,radius): |
---|
50 | # Blend over the parent and child terrain height within a radius of 50 px |
---|
51 | |
---|
52 | gradient_matrix = np.copy(array1) |
---|
53 | gradient_matrix[:,:] = 1.0 |
---|
54 | gradient_px = 50 |
---|
55 | |
---|
56 | for i in range(0,gradient_px): |
---|
57 | gradient_matrix[:,i] = float(i)/float(gradient_px) |
---|
58 | |
---|
59 | |
---|
60 | for i in range(len(gradient_matrix[0,:])-gradient_px,len(gradient_matrix[0,:])): |
---|
61 | gradient_matrix[:,i] = float(len(gradient_matrix[0,:])-i)/float(gradient_px) |
---|
62 | |
---|
63 | |
---|
64 | for j in range(0,gradient_px): |
---|
65 | for i in range(0,len(gradient_matrix[0,:])): |
---|
66 | if gradient_matrix[j,i] == 1.0: |
---|
67 | gradient_matrix[j,i] = float(j)/float(gradient_px) |
---|
68 | else: |
---|
69 | gradient_matrix[j,i] = (gradient_matrix[j,i] + float(j)/float(gradient_px))/2.0 |
---|
70 | |
---|
71 | |
---|
72 | for j in range(len(gradient_matrix[:,0])-gradient_px,len(gradient_matrix[:,0])): |
---|
73 | for i in range(0,len(gradient_matrix[0,:])): |
---|
74 | if gradient_matrix[j,i] == 1.0: |
---|
75 | gradient_matrix[j,i] = (len(gradient_matrix[:,0])-j)/float(gradient_px) |
---|
76 | else: |
---|
77 | gradient_matrix[j,i] = (gradient_matrix[j,i] + (len(gradient_matrix[:,0])-j)/float(gradient_px))/2.0 |
---|
78 | |
---|
79 | array_blended = array1 * gradient_matrix + (1.0 - gradient_matrix ) * array2 |
---|
80 | |
---|
81 | return array_blended |
---|
82 | |
---|
83 | |
---|
84 | def interpolate_2d(array,x1,y1,x2,y2): |
---|
85 | tmp_int2d = interp2d(x1,y1,array,kind='linear') |
---|
86 | array_ip = tmp_int2d(x2.astype(float), y2.astype(float)) |
---|
87 | |
---|
88 | return array_ip |
---|
89 | |
---|
90 | |
---|
91 | def bring_to_palm_grid(array,x,y,dz): |
---|
92 | |
---|
93 | # Bring the parent terrain height to the child grid |
---|
94 | k_tmp = np.arange(0,max(array.flatten())+dz*2,dz) |
---|
95 | k_tmp[1:] = k_tmp[1:] - dz * 0.5 |
---|
96 | for l in range(0,len(x)): |
---|
97 | for m in range(0,len(y)): |
---|
98 | for k in range(1,len(k_tmp+1)): |
---|
99 | if k_tmp[k] > array[m,l]: |
---|
100 | array[m,l] = k_tmp[k-1] + dz * 0.5 |
---|
101 | break |
---|
102 | |
---|
103 | return array |
---|
104 | |
---|
105 | |
---|
106 | def make_3d_from_2d(array_2d,x,y,dz): |
---|
107 | |
---|
108 | k_tmp = np.arange(0,max(array_2d.flatten())+dz*2,dz) |
---|
109 | |
---|
110 | k_tmp[1:] = k_tmp[1:] - dz * 0.5 |
---|
111 | array_3d = np.ones((len(k_tmp),len(y),len(x))) |
---|
112 | |
---|
113 | for l in range(0,len(x)): |
---|
114 | for m in range(0,len(y)): |
---|
115 | for k in range(0,len(k_tmp)): |
---|
116 | if k_tmp[k] > array_2d[m,l]: |
---|
117 | array_3d[k,m,l] = 0 |
---|
118 | |
---|
119 | return array_3d.astype(np.byte), k_tmp |
---|
120 | |
---|
121 | |
---|
122 | def make_3d_from_bridges_2d(array_3d,array_2d,x,y,dz,width,fill): |
---|
123 | |
---|
124 | for l in range(0,len(x)-1): |
---|
125 | for m in range(0,len(y)-1): |
---|
126 | if array_2d[m,l] != fill: |
---|
127 | k_min = max( int(array_2d[m,l] - width)/dz, 0 ) |
---|
128 | k_max = int(round(array_2d[m,l]/dz)) |
---|
129 | array_3d[k_min:k_max+1,m,l] = 1 |
---|
130 | |
---|
131 | |
---|
132 | return array_3d.astype(np.byte) |
---|
133 | |
---|
134 | |
---|
135 | def check_arrays_2(array1,array2,fill1,fill2): |
---|
136 | |
---|
137 | missing1 = np.where(array1 == fill1,1,0) |
---|
138 | missing2 = np.where(array2 == fill2,1,0) |
---|
139 | result = np.array_equal(missing1,missing2) |
---|
140 | |
---|
141 | return result |
---|
142 | |
---|
143 | def check_consistency_3(array1,array2,array3,fill1,fill2,fill3): |
---|
144 | |
---|
145 | tmp_array = np.where(array1 != fill1,1,0) + np.where(array2 != fill2,1,0) + np.where(array3 != fill3,-1,0) |
---|
146 | |
---|
147 | test = np.any(tmp_array.flatten() != 0) |
---|
148 | if test: |
---|
149 | print("soil_type array is not consistent!") |
---|
150 | print("max: " + str(max(tmp_array.flatten())) + ", min: " + str(min(tmp_array.flatten()))) |
---|
151 | else: |
---|
152 | print("soil_type array is consistent!") |
---|
153 | return tmp_array, test |
---|
154 | |
---|
155 | |
---|
156 | |
---|
157 | |
---|
158 | def check_consistency_4(array1,array2,array3,array4,fill1,fill2,fill3,fill4): |
---|
159 | |
---|
160 | tmp_array = np.where(array1 != fill1,1,0) + np.where(array2 != fill2,1,0) + np.where(array3 != fill3,1,0) + np.where(array4 != fill4,1,0) |
---|
161 | |
---|
162 | test = np.any(tmp_array.flatten() != 1) |
---|
163 | if test: |
---|
164 | print("*_type arrays are not consistent!") |
---|
165 | print("max: " + str(max(tmp_array.flatten())) + ", min: " + str(min(tmp_array.flatten()))) |
---|
166 | else: |
---|
167 | print("*_type arrays are consistent!") |
---|
168 | return tmp_array, test |
---|
169 | |
---|