1 | #!/usr/bin/env python3 |
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2 | # -*- coding: utf-8 -*- |
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3 | |
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4 | #------------------------------------------------------------------------------# |
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5 | # |
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6 | # Scripts for processing of WRF and CAMx files to PALM dynamic driver |
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7 | # |
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8 | # This program is free software: you can redistribute it and/or modify |
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9 | # it under the terms of the GNU General Public License as published by |
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10 | # the Free Software Foundation, either version 3 of the License, or |
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11 | # (at your option) any later version. |
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12 | # |
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13 | # This program is distributed in the hope that it will be useful, |
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14 | # but WITHOUT ANY WARRANTY; without even the implied warranty of |
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15 | # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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16 | # GNU General Public License for more details. |
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17 | # |
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18 | # You should have received a copy of the GNU General Public License |
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19 | # along with this program. If not, see <https://www.gnu.org/licenses/>. |
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20 | # |
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21 | # Copyright 2018-2020 Institute of Computer Science |
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22 | # of the Czech Academy of Sciences, Prague |
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23 | # Authors: Krystof Eben, Jaroslav Resler, Pavel Krc |
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24 | # |
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25 | #------------------------------------------------------------------------------# |
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26 | ''' |
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27 | Load and process initial and boundary conditions from CAMx NetCDF files |
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28 | ''' |
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29 | |
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30 | import sys |
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31 | import datetime |
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32 | import re |
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33 | import numpy as np |
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34 | import netCDF4 |
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35 | from metpy.interpolate import interpolate_1d |
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36 | |
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37 | import palm_wrf_utils |
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38 | |
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39 | _na = np.newaxis |
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40 | re_num = re.compile(r'[0-9\.]+') |
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41 | |
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42 | class HelperNotFound(Exception): |
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43 | def __init__(self, name): |
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44 | self.name = name |
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45 | |
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46 | class Helpers(object): |
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47 | '''Pre-loaded helper variables from CAMx''' |
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48 | def __getattr__(self, name): |
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49 | try: |
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50 | return self.__dict__[name] |
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51 | except KeyError: |
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52 | raise HelperNotFound(name) |
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53 | |
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54 | def tflag(data, req_dts): |
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55 | assert len(data.shape) == 3 and data.shape[2] == 2 |
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56 | xdate = data[:,0,0] |
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57 | xtime = data[:,0,1] |
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58 | |
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59 | # Verify that dates are equal for each variable |
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60 | assert (data[:,:,0] == xdate[:,_na]).all() |
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61 | assert (data[:,:,1] == xtime[:,_na]).all() |
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62 | |
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63 | dts = [] |
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64 | for i in range(len(xdate)): |
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65 | dt = datetime.datetime.strptime( |
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66 | '{0:07d} {1:06d}'.format(xdate[i], xtime[i]), '%Y%j %H%M%S') |
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67 | try: |
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68 | ireq = req_dts[dt] |
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69 | except KeyError: |
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70 | continue |
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71 | dts.append((ireq, i)) |
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72 | return dts |
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73 | |
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74 | def load_conversion(spc, f, sl, hlp, camx_vars, camx_units, formula, **kwargs): |
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75 | loaded_vars = [] |
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76 | for varname, unit in zip(camx_vars, camx_units): |
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77 | try: |
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78 | v = f.variables[varname] |
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79 | except KeyError: |
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80 | print('Skipping {0}, because input variable {1}({2}) is missing.'.format( |
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81 | spc, varname, unit)) |
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82 | return None |
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83 | if getattr(v, 'units', None) != unit: |
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84 | print('Skipping {0}, because input variable {1} has wrong unit ({2} <> {3}).'.format( |
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85 | spc, varname, getattr(v, 'units', None), unit)) |
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86 | return None |
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87 | |
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88 | print('Loading variable {0}.'.format(varname)) |
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89 | loaded_vars.append(v[sl]) |
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90 | try: |
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91 | val = formula(*(loaded_vars + [hlp])) |
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92 | except HelperNotFound as e: |
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93 | print('Skipping {0} - missing helper variable {1}.'.format(spc, e.name)) |
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94 | return None |
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95 | |
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96 | return val |
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97 | |
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98 | def process_tstep(f, itf, regridder, lay_height, fout, itout, z_levels, |
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99 | vars_remaining, filled, conversions, helpers): |
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100 | |
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101 | # Load helper vars for this timestep |
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102 | hlp = Helpers() |
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103 | for helper_name, helper in helpers: |
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104 | data = load_conversion(helper_name, f, |
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105 | (itf,slice(None),regridder.ys,regridder.xs), hlp, **helper) |
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106 | if data is not None: |
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107 | setattr(hlp, helper_name, data) |
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108 | |
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109 | # Load all usable vars for this timestep, regrid horizontally |
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110 | varmeta = [] |
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111 | vardata = [] |
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112 | for spc in list(vars_remaining): |
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113 | conv = conversions[spc] |
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114 | data = load_conversion(spc, f, (itf,slice(None),regridder.ys,regridder.xs), |
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115 | hlp, **conv) |
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116 | if data is None: |
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117 | continue |
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118 | |
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119 | data = regridder.regrid(data) |
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120 | vardata.append(np.r_[data[0:1], data]) #add peg below |
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121 | varmeta.append((spc, conv['output_unit'])) |
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122 | |
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123 | # Perform vertical interpolation on all currently loaded vars at once |
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124 | print('Interpolating vertically...') |
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125 | vinterp = interpolate_1d(z_levels, lay_height, *vardata) |
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126 | if len(vardata) == 1: |
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127 | # return_list_always=True argument is only in later versions of MetPy |
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128 | vinterp = [vinterp] |
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129 | del vardata |
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130 | for (vn, vu), vd in zip(varmeta, vinterp): |
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131 | v = fout.variables[vn] |
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132 | v[itout] = vd |
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133 | v.units = vu |
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134 | filled[vn][itout] = True |
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135 | |
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136 | def process_files(camx_file_list, camx_interp_fname, palm_grid_lat, |
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137 | palm_grid_lon, terrain_rel, z_levels, times, species_names, |
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138 | conversions, helpers): |
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139 | |
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140 | terrain_shift = terrain_rel[_na,:,:] |
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141 | lowest_layer = np.zeros(((1,) + palm_grid_lat.shape), dtype='f4') |
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142 | lowest_layer[:] = -999. |
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143 | tindex = dict((dt, i) for i, dt in enumerate(times)) |
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144 | filled = {} |
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145 | |
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146 | with netCDF4.Dataset(camx_interp_fname, 'w', format='NETCDF4') as fout: |
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147 | fout.createDimension('time', len(times)) |
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148 | fout.createDimension('z', len(z_levels)) |
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149 | fout.createDimension('y', palm_grid_lat.shape[0]) |
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150 | fout.createDimension('x', palm_grid_lat.shape[1]) |
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151 | for vn in species_names: |
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152 | fout.createVariable(vn, 'f4', ('time', 'z', 'y', 'x')) |
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153 | filled[vn] = [False] * len(times) |
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154 | |
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155 | for fname in sorted(camx_file_list): |
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156 | with netCDF4.Dataset(fname) as f: |
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157 | dts = tflag(f.variables['TFLAG'][:], tindex) |
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158 | if dts: |
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159 | print('Processing CAMx file {0}.'.format(fname)) |
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160 | |
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161 | # preprare projection |
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162 | trans = palm_wrf_utils.CAMxCoordTransform(f) |
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163 | palm_in_camx_y, palm_in_camx_x = trans.latlon_to_ji( |
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164 | palm_grid_lat, palm_grid_lon) |
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165 | regridder = palm_wrf_utils.BilinearRegridder( |
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166 | palm_in_camx_x, palm_in_camx_y, preloaded=True) |
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167 | |
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168 | # locate layer heights |
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169 | try: |
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170 | vz = f.variables['z'] |
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171 | except KeyError: |
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172 | print('Loading heights from separate file') |
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173 | with open(fname+'.heights') as fh: |
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174 | fix_hgt = np.array(list(map(float, re_num.findall(fh.read())))) * 1000. #orig in km |
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175 | fix_hgt = fix_hgt[:,_na,_na] |
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176 | else: |
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177 | print('Loading heights from variable z') |
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178 | fix_hgt = None |
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179 | |
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180 | for itout, itf in dts: |
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181 | print('Timestep {0}'.format(itout)) |
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182 | vars_remaining = [vn for vn, vf in filled.items() if not vf[itout]] |
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183 | |
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184 | lay_height = fix_hgt if fix_hgt is not None else ( |
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185 | regridder.regrid(vz[itf,:,regridder.ys,regridder.xs])) |
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186 | lay_height = np.r_[lowest_layer, lay_height + terrain_shift] |
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187 | #add 1 pegging layer always below |
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188 | process_tstep(f, itf, regridder, lay_height, fout, itout, z_levels, |
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189 | vars_remaining, filled, conversions, helpers) |
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190 | else: |
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191 | print('Skipping CAMx file {0} - no required times.'.format(fname)) |
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192 | |
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193 | if not all(all(vf) for vf in filled.values()): |
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194 | sys.exit('CAMx data not complete - missing some variables/timesteps: {0}' |
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195 | .format(filled)) |
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