1 | import os |
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2 | import random |
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3 | from math import sqrt, pow, pi |
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4 | from channel_domain import * |
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5 | from numpy import allclose, array, zeros, ones, take, sqrt |
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6 | from anuga_1d.config import g, epsilon |
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7 | |
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8 | |
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9 | random.seed(111) |
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10 | |
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11 | print "Variable Width Only Test" |
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12 | |
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13 | # Define functions for initial quantities |
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14 | def initial_area(x): |
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15 | y = zeros(len(x),'f') |
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16 | for i in range(len(x)): |
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17 | y[i]=(10-randomarray[i]) |
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18 | |
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19 | |
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20 | return y |
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21 | |
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22 | def width(x): |
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23 | |
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24 | y = zeros(len(x),'f') |
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25 | for i in range(len(x)): |
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26 | y[i]=randomarray[i] |
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27 | randomarray[i]=random.normalvariate(3,1) |
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28 | return y |
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29 | |
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30 | def bed(x): |
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31 | |
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32 | y = zeros(len(x),'f') |
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33 | for i in range(len(x)): |
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34 | y[i]=randomarray2[i] |
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35 | randomarray2[i]=random.normalvariate(3,1) |
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36 | return y |
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37 | |
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38 | |
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39 | |
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40 | def stage(x): |
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41 | |
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42 | y = zeros(len(x),'f') |
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43 | for i in range(len(x)): |
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44 | if x[i]<200 and x[i]>150: |
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45 | y[i]=8.0 |
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46 | else: |
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47 | y[i]=8.0 |
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48 | return y |
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49 | |
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50 | |
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51 | |
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52 | |
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53 | import time |
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54 | |
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55 | # Set final time and yield time for simulation |
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56 | finaltime = 10.0 |
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57 | yieldstep = finaltime |
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58 | |
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59 | # Length of channel (m) |
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60 | L = 1000.0 |
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61 | # Define the number of cells |
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62 | number_of_cells = [100] |
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63 | |
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64 | # Define cells for finite volume and their size |
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65 | N = int(number_of_cells[0]) |
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66 | print "Evaluating domain with %d cells" %N |
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67 | cell_len = L/N # Origin = 0.0 |
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68 | points = zeros(N+1,'f') |
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69 | |
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70 | # Define the centroid points |
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71 | for j in range(N+1): |
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72 | points[j] = j*cell_len |
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73 | |
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74 | # Create domain with centroid points as defined above |
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75 | domain = Domain(points) |
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76 | |
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77 | # Define random array for width |
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78 | randomarray=zeros(len(points),'f') |
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79 | for j in range(N+1): |
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80 | randomarray[j]=random.normalvariate(3,1) |
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81 | randomarray2=zeros(len(points),'f') |
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82 | for j in range(N+1): |
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83 | randomarray2[j]=random.normalvariate(3,1) |
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84 | |
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85 | |
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86 | # Set initial values of quantities - default to zero |
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87 | domain.set_quantity('stage',stage,'centroids') |
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88 | domain.set_quantity('elevation', bed) |
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89 | domain.set_quantity('width',width) |
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90 | domain.setstageflag = True |
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91 | # Set boundry type, order, timestepping method and limiter |
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92 | domain.set_boundary({'exterior':Reflective_boundary(domain)}) |
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93 | domain.order = 2 |
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94 | domain.set_timestepping_method('rk2') |
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95 | domain.set_CFL(1.0) |
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96 | domain.set_limiter("vanleer") |
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97 | #domain.h0=0.0001 |
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98 | |
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99 | # Start timer |
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100 | t0 = time.time() |
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101 | |
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102 | |
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103 | AreaC = domain.quantities['area'].centroid_values |
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104 | BedC = domain.quantities['elevation'].centroid_values |
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105 | WidthC = domain.quantities['width'].centroid_values |
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106 | # |
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107 | AreaC[:] = (10.0 - BedC)* WidthC |
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108 | |
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109 | |
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110 | #print domain.quantities['elevation'].vertex_values |
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111 | |
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112 | finaltime = 100.0 |
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113 | yieldstep = 1.0 |
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114 | |
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115 | domain.initialize_plotting(stage_lim = [-1.0, 20.0], |
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116 | width_lim = [0.0, 6.0], |
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117 | velocity_lim = [-15.0, 15.0]) |
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118 | |
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119 | |
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120 | for t in domain.evolve(yieldstep = yieldstep, finaltime = finaltime): |
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121 | domain.write_time() |
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122 | |
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123 | domain.update_plotting() |
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124 | |
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125 | #print domain.quantities['elevation'].vertex_values |
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126 | |
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127 | domain.hold_plotting(save='not_well_balanced_random_depth_and_width') |
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128 | |
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