1 | from dynamico.meshes import zeros |
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2 | from dynamico import meshes |
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3 | import numpy as np |
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4 | import netCDF4 as cdf |
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5 | import argparse |
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6 | |
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7 | parser = argparse.ArgumentParser() |
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8 | |
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9 | parser.add_argument("-nx", type=int, |
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10 | default=64, choices=None, |
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11 | help="number of x points") |
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12 | parser.add_argument("-ny", type=int, |
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13 | default=64, choices=None, |
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14 | help="number of y points") |
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15 | parser.add_argument("-Lx", type=float, |
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16 | default=8., choices=None, |
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17 | help="Lx") |
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18 | parser.add_argument("-Ly", type=float, |
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19 | default=8., choices=None, |
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20 | help="Ly") |
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21 | args = parser.parse_args() |
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22 | |
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23 | nx, ny, Lx, Ly, llm, nqdyn = args.nx, args.ny,args.Lx, args.Ly, 1, 1 |
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24 | |
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25 | dx,dy=Lx/nx,Ly/ny |
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26 | mesh = meshes.Cartesian_mesh(nx,ny,llm,nqdyn,Lx,Ly,0.) |
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27 | print('Successfully initialized Cartesian mesh') |
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28 | mesh.ncwrite('cart_%03d_%03d.nc'%(nx,ny)) |
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29 | print('Successfully written Cartesian mesh to NetCDF File') |
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