1 | |
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2 | |
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3 | program lslin |
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4 | |
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5 | ! Program to interpolate data in Solar Longitude linear time coordinate |
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6 | ! (usable with grads) from Netcdf diagfi or concatnc files |
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7 | ! author Y. Wanherdrick, K. Dassas 2004 |
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8 | ! Modified by F.Forget 04/2005 |
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9 | ! More modifications by Ehouarn Millour 12/2005 |
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10 | ! Modified by Ehouarn Millour 10/2007 (changed evaluation of 'start_var' |
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11 | ! from hard-coded values to a computed value) |
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12 | |
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13 | implicit none |
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14 | |
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15 | include "netcdf.inc" ! NetCDF definitions |
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16 | |
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17 | character (len=50) :: infile |
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18 | ! infile(): input file name |
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19 | character (len=50), dimension(:), allocatable :: var |
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20 | ! var(): names of the variables |
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21 | character (len=50) :: title,units |
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22 | ! title(),units(): [netcdf] "title" and "units" attributes |
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23 | character (len=100) :: outfile |
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24 | ! outfile(): output file name |
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25 | character (len=100) :: vartmp |
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26 | ! vartmp(): used for temporary storage of various strings |
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27 | character (len=1) :: answer |
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28 | ! answer: the character 'y' (or 'Y'), if input file is of 'concatnc' type |
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29 | integer :: nid,varid,ierr |
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30 | ! nid: [netcdf] ID # of input file |
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31 | ! varid: [netcdf] ID # of a variable |
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32 | ! ierr: [netcdf] error code (returned by subroutines) |
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33 | integer :: nout,varidout |
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34 | ! nout: [netcdf] ID # of output file |
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35 | ! varidout: [netcdf] ID # of a variable (to write in the output file) |
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36 | integer :: i,j,k,l,x,y |
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37 | ! counters for various loops |
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38 | integer :: start_var |
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39 | ! starting index/ID # from which physical variables are to be found |
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40 | integer :: reptime ! Ehouarn: integer or real ? |
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41 | ! rep_time: starting date/time of the run (given by user) |
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42 | integer :: day_ini ! Ehouarn: integer or real ? |
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43 | ! day_ini: starting date/time of the run stored in input file |
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44 | integer, parameter :: length=100 |
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45 | ! length: (default) lenght of tab_cntrl() |
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46 | real, dimension(length) :: tab_cntrl |
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47 | ! tab_cntrl(length): array, stored in the input file, |
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48 | ! which contains various control parameters. |
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49 | real, dimension(:), allocatable:: lat,lon,alt,time,lsgcm,timels |
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50 | ! lat(): latitude coordinates (read from input file) |
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51 | ! lon(): longitude coordinates (read from input file) |
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52 | ! alt(): altitude coordinates (read from input file) |
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53 | ! time(): time coordinates (in "sol", read from input file) |
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54 | ! lsgcm(): time coordinate (in unevenly spaced "Ls") |
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55 | ! timels(): new time coordinates (evenly spaced "Ls"; written to output file) |
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56 | integer :: latlen,lonlen,altlen,timelen,Nls |
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57 | ! latlen: # of elements of lat() array |
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58 | ! lonlen: # of elements of lon() array |
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59 | ! altvar: # of elements of alt() array |
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60 | ! timelen: # of elements of time() and lsgcm() arrays |
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61 | ! Nls: # of elements of timels() array |
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62 | integer :: nbvarfile,nbvar,ndim !,nbfile |
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63 | ! nbvar: # of time-dependent variables |
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64 | ! nbvarfile: total # of variables (in netcdf file) |
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65 | ! ndim: [netcdf] # of dimensions (3 or 4) of a variable |
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66 | integer :: latdim,londim,altdim,timedim |
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67 | ! latdim: [netcdf] "latitude" dim ID |
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68 | ! londim: [netcdf] "longitude" dim ID |
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69 | ! altdim: [netcdf] "altdim" dim ID |
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70 | ! timedim: [netcdf] "timedim" dim ID |
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71 | integer :: latvar,lonvar,altvar,timevar |
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72 | ! latvar: [netcdf] ID of "latitude" variable |
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73 | ! lonvar: [netcdf] ID of "longitude" variable |
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74 | ! altvar: [netcdf] ID of "altitude" variable |
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75 | ! timevar: [netcdf] ID of "Time" variable |
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76 | integer :: latdimout,londimout,altdimout,timedimout,timevarout |
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77 | ! latdimout: [netcdf] output latitude (dimension) ID |
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78 | ! londimout: [netcdf] output longitude (dimension) ID |
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79 | ! altdimout: [netcdf] output altitude (dimension) ID |
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80 | ! timedimout: [netcdf] output time (dimension) ID |
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81 | ! timevarout: [netcdf] ID of output "Time" variable |
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82 | integer, dimension(4) :: corner,edges,dim |
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83 | ! corner(4): [netcdf] start indexes (where block of data will be written) |
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84 | ! edges(4): [netcdf] lenght (along dimensions) of block of data to write |
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85 | ! dim(4): [netcdf] lat, long, alt and time dimensions |
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86 | real, dimension(:,:,:,:), allocatable :: var3d,var3dls |
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87 | ! var3d(,,,): 4D array to store a variable (on initial lat/lon/alt/sol grid) |
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88 | ! var3dls(,,,): 4D array to store a variable (on new lat/lon/alt/Ls grid) |
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89 | real, dimension(:), allocatable :: var3dxy |
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90 | ! var3dxy(): to store the temporal evolution of a variable (at fixed lat/lon/alt) |
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91 | real :: deltatsol,deltals,resultat |
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92 | ! deltatsol: time step (in sols) of input file data |
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93 | ! deltals: time step (in Ls) for the data sent to output |
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94 | ! resultat: to temporarily store the result of the interpolation |
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95 | character (len=3) :: mon |
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96 | ! mon(3): to store (and write to file) the 3 first letters of a month |
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97 | real :: date |
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98 | ! date: used to compute/build a fake date (for grads output) |
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99 | |
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100 | !============================================================================== |
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101 | ! 1. Initialisation step |
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102 | !============================================================================== |
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103 | |
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104 | !============================================================================== |
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105 | ! 1.1. Get input file name and 'type' (to initialize start_var and reptime) |
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106 | !============================================================================== |
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107 | |
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108 | write(*,*) "which file do you want to use?" |
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109 | read(*,'(a50)') infile |
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110 | |
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111 | write(*,*) "Is it a concatnc file? (y/n)?" |
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112 | read(*,*) answer |
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113 | if ((answer=="y").or.(answer=="Y")) then |
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114 | write(*,*) "Beginning day of the concatnc file?" |
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115 | read(*,*) reptime |
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116 | ! start_var=8 ! 'concatnc' type of file |
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117 | !else |
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118 | ! start_var=16 ! 'diagfi' type of file |
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119 | ! N.B.: start_var is now computed; see below |
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120 | endif |
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121 | |
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122 | |
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123 | !============================================================================== |
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124 | ! 1.2. Open input file and read/list the variables it contains |
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125 | !============================================================================== |
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126 | |
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127 | write(*,*) "opening "//trim(infile)//"..." |
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128 | ierr = NF_OPEN(infile,NF_NOWRITE,nid) |
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129 | if (ierr.NE.NF_NOERR) then |
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130 | write(*,*) 'Failed to open file '//infile |
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131 | write(*,*) NF_STRERROR(ierr) |
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132 | stop "" |
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133 | endif |
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134 | |
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135 | ! Compute 'start_var', the index from which variables are lon-lat-time |
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136 | ! and/or lon-lat-alt-time |
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137 | ! WARNING: We assume here that the ordering of variables in the NetCDF |
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138 | ! file is such that 0D, 1D and 2D variables are placed BEFORE 3D and 4D |
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139 | ! variables |
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140 | |
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141 | i=1 ! dummy initialization to enter loop below |
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142 | start_var=0 ! initialization |
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143 | do while (i.lt.3) |
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144 | start_var=start_var+1 |
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145 | ! request number of dims of variable number 'start_var' |
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146 | ierr=NF_INQ_VARNDIMS(nid,start_var,i) |
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147 | if (ierr.ne.NF_NOERR) then |
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148 | write(*,*) "Failed to get number of dims for variable number:",start_var |
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149 | write(*,*) NF_STRERROR(ierr) |
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150 | stop "" |
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151 | endif |
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152 | enddo |
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153 | write(*,*) "start_var=",start_var |
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154 | |
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155 | |
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156 | ierr=NF_INQ_NVARS(nid,nbvarfile) |
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157 | ! nbvarfile is now equal to the (total) number of variables in input file |
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158 | |
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159 | allocate(var(nbvarfile-(start_var-1))) |
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160 | |
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161 | ! Yield the list of variables (to the screen) |
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162 | write(*,*) |
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163 | do i=start_var,nbvarfile |
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164 | ierr=NF_INQ_VARNAME(nid,i,vartmp) |
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165 | write(*,*) trim(vartmp) |
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166 | enddo |
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167 | !nbvar=0 |
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168 | |
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169 | ! Ehouarn: Redundant (and obsolete) lines ? |
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170 | ! nbvar=nbvarfile-(start_var-1) |
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171 | ! do j=start_var,nbvarfile |
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172 | ! ierr=nf_inq_varname(nid,j,var(j-(start_var-1))) |
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173 | ! enddo |
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174 | |
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175 | ! Get the variables' names from the input file (and store them in var()) |
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176 | nbvar=nbvarfile-(start_var-1) |
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177 | do i=1,nbvar |
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178 | ierr=NF_INQ_VARNAME(nid,i+(start_var-1),var(i)) |
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179 | write(*,'(a9,1x,i2,1x,a1,1x,a50)') "variable ",i,":",var(i) |
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180 | enddo |
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181 | |
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182 | !============================================================================== |
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183 | ! 1.3. Output file name |
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184 | !============================================================================== |
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185 | ! outfile="lslin.nc" |
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186 | outfile=infile(1:len_trim(infile)-3)//"_Ls.nc" |
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187 | write(*,*) outfile |
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188 | |
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189 | |
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190 | !============================================================================== |
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191 | ! 2. Work: read input, build new time coordinate and write it to output |
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192 | !============================================================================== |
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193 | |
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194 | !============================================================================== |
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195 | ! 2.1. Read (and check) latitude, longitude and altitude from input file |
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196 | !============================================================================== |
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197 | |
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198 | ierr=NF_INQ_DIMID(nid,"latitude",latdim) |
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199 | ierr=NF_INQ_VARID(nid,"latitude",latvar) |
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200 | if (ierr.NE.NF_NOERR) then |
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201 | write(*,*) 'ERROR: Field <latitude> is missing' |
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202 | write(*,*) NF_STRERROR(ierr) |
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203 | stop "" |
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204 | endif |
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205 | ierr=NF_INQ_DIMLEN(nid,latdim,latlen) |
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206 | ! write(*,*) "latlen: ",latlen |
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207 | |
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208 | ierr=NF_INQ_DIMID(nid,"longitude",londim) |
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209 | ierr=NF_INQ_VARID(nid,"longitude",lonvar) |
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210 | if (ierr.NE.NF_NOERR) then |
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211 | write(*,*) 'ERROR: Field <longitude> is missing' |
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212 | write(*,*) NF_STRERROR(ierr) |
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213 | stop "" |
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214 | endif |
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215 | ierr=NF_INQ_DIMLEN(nid,londim,lonlen) |
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216 | ! write(*,*) "lonlen: ",lonlen |
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217 | |
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218 | ierr=NF_INQ_DIMID(nid,"altitude",altdim) |
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219 | ierr=NF_INQ_VARID(nid,"altitude",altvar) |
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220 | if (ierr.NE.NF_NOERR) then |
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221 | write(*,*) 'ERROR: Field <altitude> is missing' |
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222 | write(*,*) NF_STRERROR(ierr) |
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223 | ! stop "" |
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224 | altlen = 1 |
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225 | else |
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226 | ierr=NF_INQ_DIMLEN(nid,altdim,altlen) |
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227 | endif |
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228 | write(*,*) "altlen: ",altlen |
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229 | |
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230 | ! Allocate lat(), lon() and alt() |
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231 | allocate(lat(latlen)) |
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232 | allocate(lon(lonlen)) |
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233 | allocate(alt(altlen)) |
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234 | |
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235 | ! Read lat(),lon() and alt() from input file |
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236 | |
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237 | |
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238 | |
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239 | |
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240 | |
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241 | ierr = NF_GET_VAR_REAL(nid,latvar,lat) |
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242 | ierr = NF_GET_VAR_REAL(nid,lonvar,lon) |
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243 | ierr = NF_GET_VAR_REAL(nid,altvar,alt) |
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244 | if (ierr.NE.NF_NOERR) then |
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245 | if (altlen.eq.1) alt(1)=0. |
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246 | end if |
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247 | |
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248 | |
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249 | !============================================================================== |
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250 | ! 2.2. Create (and initialize latitude, longitude and altitude in) output file |
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251 | !============================================================================== |
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252 | |
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253 | call initiate(outfile,lat,lon,alt,nout,& |
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254 | latdimout,londimout,altdimout,timedimout,timevarout) |
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255 | |
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256 | !============================================================================== |
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257 | ! 2.3. Read time from input file |
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258 | !============================================================================== |
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259 | |
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260 | ierr=NF_INQ_DIMID(nid,"Time",timedim) |
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261 | if (ierr.NE.NF_NOERR) then |
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262 | write(*,*) 'ERROR: Dimension <Time> is missing' |
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263 | write(*,*) NF_STRERROR(ierr) |
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264 | stop "" |
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265 | endif |
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266 | ierr=NF_INQ_VARID(nid,"Time",timevar) |
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267 | if (ierr.NE.NF_NOERR) then |
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268 | write(*,*) 'ERROR: Field <Time> is missing' |
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269 | write(*,*) NF_STRERROR(ierr) |
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270 | stop "" |
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271 | endif |
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272 | |
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273 | ierr=NF_INQ_DIMLEN(nid,timedim,timelen) |
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274 | write(*,*) "timelen: ",timelen |
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275 | |
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276 | allocate(time(timelen)) |
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277 | allocate(lsgcm(timelen)) |
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278 | |
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279 | |
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280 | |
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281 | |
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282 | ierr = NF_GET_VAR_REAL(nid,timevar,time) |
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283 | |
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284 | |
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285 | !============================================================================== |
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286 | ! 2.4. Initialize day_ini (starting day of the run) |
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287 | !============================================================================== |
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288 | |
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289 | |
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290 | write(*,*) 'answer',answer |
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291 | if ((answer/="y").and.(answer/="Y")) then |
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292 | ! input file is of 'concatnc' type; the starting date of the run |
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293 | ! is stored in the "controle" array |
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294 | ierr = NF_INQ_VARID (nid, "controle", varid) |
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295 | if (ierr .NE. NF_NOERR) then |
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296 | write(*,*) 'ERROR: <controle> variable is missing' |
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297 | write(*,*) NF_STRERROR(ierr) |
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298 | stop "" |
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299 | endif |
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300 | |
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301 | |
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302 | |
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303 | |
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304 | ierr = NF_GET_VAR_REAL(nid, varid, tab_cntrl) |
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305 | |
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306 | |
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307 | if (ierr .NE. NF_NOERR) then |
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308 | write(*,*) 'ERROR: Failed to read <controle>' |
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309 | write(*,*) NF_STRERROR(ierr) |
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310 | stop "" |
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311 | endif |
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312 | |
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313 | day_ini = tab_cntrl(4) |
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314 | write(*,*) 'day_ini', day_ini |
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315 | else |
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316 | day_ini= reptime |
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317 | write(*,*) 'day_ini', day_ini |
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318 | endif |
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319 | |
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320 | !============================================================================== |
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321 | ! 2.5. Build timels() (i.e.: time, but in evenly spaced "Ls" time steps) |
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322 | !============================================================================== |
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323 | |
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324 | ! compute time step, in sols, of input dataset |
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325 | deltatsol=time(2)-time(1) |
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326 | write(*,*) 'deltatsol',deltatsol |
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327 | |
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328 | ! compute time/dates in "Ls"; result stored in lsgcm() |
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329 | do i=1,timelen |
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330 | call sol2ls(day_ini+time(i),lsgcm(i)) |
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331 | enddo |
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332 | |
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333 | write(*,*) 'Input data LS range :', lsgcm(1),lsgcm(timelen) |
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334 | |
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335 | !****************************************** |
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336 | write(*,*) "Automatic Ls timetsep (y/n)?" |
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337 | read(*,*) answer |
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338 | if ((answer=="y").or.(answer=="Y")) then |
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339 | ! ********************************************* |
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340 | ! Trick of the trade: |
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341 | ! Use the value of deltatsol to determine |
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342 | ! a suitable value for deltals |
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343 | ! ********************************************* |
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344 | deltals=1./12. |
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345 | if (0.6*deltatsol.ge.1/6.) deltals=1./6. |
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346 | if (0.6*deltatsol.ge.0.25) deltals=0.25 |
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347 | if (0.6*deltatsol.ge.0.5) deltals=0.5 |
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348 | if (0.6*deltatsol.ge.0.75) deltals=0.75 |
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349 | if (0.6*deltatsol.ge.1) deltals=1. |
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350 | if (0.6*deltatsol.ge.2) deltals=2. |
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351 | if (0.6*deltatsol.ge.3) deltals=3. |
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352 | if (0.6*deltatsol.ge.5) deltals=5. |
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353 | else |
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354 | write(*,*) "New timestep in Ls (deg)" |
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355 | read(*,*) deltals |
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356 | endif |
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357 | NLs=int(Int((lsgcm(timelen)-lsgcm(1))/deltals) +1) |
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358 | !******************************************** |
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359 | allocate(timels(Nls)) |
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360 | |
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361 | ! Build timels() |
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362 | timels(1) = 0.01*nint(100.*lsgcm(1)) ! Ehouarn: what the !!!???!!! |
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363 | do k=2,Nls |
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364 | timels(k) = timels(k-1) + deltals |
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365 | end do |
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366 | |
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367 | write(*,*) 'timestep in Ls (deg) ', deltals |
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368 | write(*,*) 'output data LS range : ', timels(1),timels(Nls) |
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369 | |
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370 | !============================================================================== |
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371 | ! 2.6. Write timels() to output file |
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372 | !============================================================================== |
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373 | |
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374 | do k=1,Nls |
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375 | |
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376 | |
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377 | |
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378 | ierr= NF_PUT_VARA_REAL(nout,timevarout,k,1,timels(k)) |
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379 | |
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380 | enddo |
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381 | |
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382 | |
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383 | !============================================================================== |
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384 | ! 3. Read variables, interpolate them along the new time coordinate |
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385 | ! and send the result to output |
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386 | !============================================================================== |
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387 | |
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388 | do j=1,nbvar ! loop on the variables to read/interpolate/write |
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389 | |
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390 | !============================================================================== |
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391 | ! 3.1 Check that variable exists, and get some of its attributes |
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392 | !============================================================================== |
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393 | write(*,*) "variable ",var(j) |
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394 | ! Get the variable's ID |
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395 | ierr=NF_INQ_VARID(nid,var(j),varid) |
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396 | if (ierr.NE.NF_NOERR) then |
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397 | write(*,*) 'ERROR: Field <',var(j),'> not found' |
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398 | write(*,*) NF_STRERROR(ierr) |
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399 | stop "" |
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400 | endif |
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401 | ! Get the value of 'ndim' for this varriable |
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402 | ierr=NF_INQ_VARNDIMS(nid,varid,ndim) |
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403 | write(*,*) 'ndim', ndim |
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404 | |
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405 | !============================================================================== |
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406 | ! 3.2 Prepare a few things in order to interpolate/write |
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407 | !============================================================================== |
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408 | |
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409 | if (ndim==3) then |
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410 | allocate(var3d(lonlen,latlen,timelen,1)) |
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411 | allocate(var3dls(lonlen,latlen,Nls,1)) |
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412 | allocate(var3dxy(timelen)) |
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413 | |
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414 | dim(1)=londimout |
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415 | dim(2)=latdimout |
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416 | dim(3)=timedimout |
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417 | |
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418 | corner(1)=1 |
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419 | corner(2)=1 |
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420 | corner(3)=1 |
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421 | corner(4)=1 |
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422 | |
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423 | edges(1)=lonlen |
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424 | edges(2)=latlen |
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425 | edges(3)=Nls |
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426 | edges(4)=1 |
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427 | |
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428 | else if (ndim==4) then |
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429 | allocate(var3d(lonlen,latlen,altlen,timelen)) |
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430 | allocate(var3dls(lonlen,latlen,altlen,Nls)) |
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431 | allocate(var3dxy(timelen)) |
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432 | |
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433 | dim(1)=londimout |
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434 | dim(2)=latdimout |
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435 | dim(3)=altdimout |
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436 | dim(4)=timedimout |
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437 | |
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438 | corner(1)=1 |
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439 | corner(2)=1 |
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440 | corner(3)=1 |
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441 | corner(4)=1 |
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442 | |
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443 | edges(1)=lonlen |
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444 | edges(2)=latlen |
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445 | edges(3)=altlen |
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446 | edges(4)=Nls |
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447 | endif |
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448 | |
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449 | !============================================================================== |
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450 | ! 3.3 Write this variable's definition and attributes to the output file |
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451 | !============================================================================== |
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452 | units=" " |
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453 | title=" " |
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454 | ierr=NF_GET_ATT_TEXT(nid,varid,"title",title) |
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455 | ierr=NF_GET_ATT_TEXT(nid,varid,"units",units) |
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456 | |
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457 | call def_var(nout,var(j),title,units,ndim,dim,varidout,ierr) |
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458 | |
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459 | !============================================================================== |
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460 | ! 3.4 Read variable |
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461 | !============================================================================== |
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462 | |
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463 | |
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464 | |
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465 | |
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466 | ierr = NF_GET_VAR_REAL(nid,varid,var3d) |
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467 | |
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468 | |
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469 | !============================================================================== |
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470 | ! 3.5 Interpolate |
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471 | !============================================================================== |
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472 | |
---|
473 | ! 2D variable (lon, lat, time) |
---|
474 | ! interpolation of var at timels |
---|
475 | if (ndim==3) then |
---|
476 | do x=1,lonlen |
---|
477 | do y=1,latlen |
---|
478 | ! write(*,*) 'd: x, y', x, y |
---|
479 | do l=1,timelen |
---|
480 | var3dxy(l)=var3d(x,y,l,1) |
---|
481 | enddo |
---|
482 | do l=1,Nls |
---|
483 | call interpolf(timels(l),resultat,lsgcm,var3dxy,timelen) |
---|
484 | var3dls(x,y,l,1)=resultat |
---|
485 | enddo |
---|
486 | enddo |
---|
487 | enddo |
---|
488 | ! 3D variable (lon, lat, alt, time) |
---|
489 | ! interpolation of var at timels |
---|
490 | else if (ndim==4) then |
---|
491 | do x=1,lonlen |
---|
492 | do y=1,latlen |
---|
493 | do k=1,altlen |
---|
494 | do l=1,timelen |
---|
495 | var3dxy(l)=var3d(x,y,k,l) |
---|
496 | enddo |
---|
497 | do l=1,Nls |
---|
498 | call interpolf(timels(l),resultat,lsgcm,var3dxy,timelen) |
---|
499 | var3dls(x,y,k,l)=resultat |
---|
500 | enddo |
---|
501 | enddo |
---|
502 | enddo |
---|
503 | enddo |
---|
504 | endif |
---|
505 | |
---|
506 | !============================================================================== |
---|
507 | ! 3.4 Write variable to output file |
---|
508 | !============================================================================== |
---|
509 | |
---|
510 | |
---|
511 | |
---|
512 | |
---|
513 | ierr= NF_PUT_VARA_REAL(nout,varidout,corner,edges,var3dls) |
---|
514 | |
---|
515 | |
---|
516 | if (ierr.ne.NF_NOERR) then |
---|
517 | write(*,*) 'PUT_VAR ERROR: ',NF_STRERROR(ierr) |
---|
518 | stop "" |
---|
519 | endif |
---|
520 | |
---|
521 | deallocate(var3d) |
---|
522 | deallocate(var3dls) |
---|
523 | deallocate(var3dxy) |
---|
524 | |
---|
525 | enddo ! of do j=1,nbvar loop |
---|
526 | |
---|
527 | deallocate(time) |
---|
528 | deallocate(lsgcm) |
---|
529 | |
---|
530 | ! close input and output files |
---|
531 | ierr=nf_close(nid) |
---|
532 | ierr=NF_CLOSE(nout) |
---|
533 | |
---|
534 | |
---|
535 | !============================================================================== |
---|
536 | ! 4. Build a companion file 'lslin.ctl', so that output file can be |
---|
537 | ! processed by Grads |
---|
538 | !============================================================================== |
---|
539 | |
---|
540 | ! ---------------------------------------------------- |
---|
541 | ! Writing ctl file to directly read Ls coordinate in grads |
---|
542 | ! (because of bug in grads that refuse to read date like 0089 in .nc files) |
---|
543 | !open(33,file='lslin.ctl') |
---|
544 | open(33,file=infile(1:len_trim(infile)-3)//"_Ls.ctl") |
---|
545 | date= (timels(1)-int(timels(1)))*365. |
---|
546 | mon='jan' |
---|
547 | if(date.ge.32) mon='feb' |
---|
548 | if(date.ge.60) mon='mar' |
---|
549 | if(date.ge.91) mon='apr' |
---|
550 | if(date.ge.121) mon='may' |
---|
551 | if(date.ge.152) mon='jun' |
---|
552 | if(date.ge.182) mon='jul' |
---|
553 | if(date.ge.213) mon='aug' |
---|
554 | if(date.ge.244) mon='sep' |
---|
555 | if(date.ge.274) mon='oct' |
---|
556 | if(date.ge.305) mon='nov' |
---|
557 | if(date.ge.335) mon='dec' |
---|
558 | write(33,98) outfile |
---|
559 | 98 format("DSET ",a) |
---|
560 | write(33,99) Nls, 15,mon, int(timels(1)),nint(deltals*12),'mo' |
---|
561 | 99 format("TDEF Time ",i5," LINEAR ", i2,a3,i4.4,1x,i2,a2) |
---|
562 | |
---|
563 | deallocate(timels) |
---|
564 | contains |
---|
565 | |
---|
566 | !************************************ |
---|
567 | subroutine initiate (filename,lat,lon,alt,& |
---|
568 | nout,latdimout,londimout,altdimout,timedimout,timevarout) |
---|
569 | !============================================================================== |
---|
570 | ! Purpose: |
---|
571 | ! Create and initialize a data file (NetCDF format) |
---|
572 | !============================================================================== |
---|
573 | ! Remarks: |
---|
574 | ! The NetCDF file (created in this subroutine) remains open |
---|
575 | !============================================================================== |
---|
576 | |
---|
577 | implicit none |
---|
578 | |
---|
579 | include "netcdf.inc" ! NetCDF definitions |
---|
580 | |
---|
581 | !============================================================================== |
---|
582 | ! Arguments: |
---|
583 | !============================================================================== |
---|
584 | character (len=*), intent(in):: filename |
---|
585 | ! filename(): the file's name |
---|
586 | real, dimension(:), intent(in):: lat |
---|
587 | ! lat(): latitude |
---|
588 | real, dimension(:), intent(in):: lon |
---|
589 | ! lon(): longitude |
---|
590 | real, dimension(:), intent(in):: alt |
---|
591 | ! alt(): altitude |
---|
592 | integer, intent(out):: nout |
---|
593 | ! nout: [netcdf] file ID |
---|
594 | integer, intent(out):: latdimout |
---|
595 | ! latdimout: [netcdf] lat() (i.e.: latitude) ID |
---|
596 | integer, intent(out):: londimout |
---|
597 | ! londimout: [netcdf] lon() ID |
---|
598 | integer, intent(out):: altdimout |
---|
599 | ! altdimout: [netcdf] alt() ID |
---|
600 | integer, intent(out):: timedimout |
---|
601 | ! timedimout: [netcdf] "Time" ID |
---|
602 | integer, intent(out):: timevarout |
---|
603 | ! timevarout: [netcdf] "Time" (considered as a variable) ID |
---|
604 | |
---|
605 | !============================================================================== |
---|
606 | ! Local variables: |
---|
607 | !============================================================================== |
---|
608 | !integer :: latdim,londim,altdim,timedim |
---|
609 | integer :: nvarid,ierr |
---|
610 | ! nvarid: [netcdf] ID of a variable |
---|
611 | ! ierr: [netcdf] return error code (from called subroutines) |
---|
612 | |
---|
613 | !============================================================================== |
---|
614 | ! 1. Create (and open) output file |
---|
615 | !============================================================================== |
---|
616 | write(*,*) "creating "//trim(adjustl(filename))//'...' |
---|
617 | ierr = NF_CREATE(filename,NF_CLOBBER,nout) |
---|
618 | ! NB: setting NF_CLOBBER mode means that it's OK to overwrite an existing file |
---|
619 | if (ierr.NE.NF_NOERR) then |
---|
620 | WRITE(*,*)'ERROR: Impossible to create the file.' |
---|
621 | stop "" |
---|
622 | endif |
---|
623 | |
---|
624 | !============================================================================== |
---|
625 | ! 2. Define/write "dimensions" and get their IDs |
---|
626 | !============================================================================== |
---|
627 | |
---|
628 | ierr = NF_DEF_DIM(nout, "latitude", size(lat), latdimout) |
---|
629 | ierr = NF_DEF_DIM(nout, "longitude", size(lon), londimout) |
---|
630 | ierr = NF_DEF_DIM(nout, "altitude", size(alt), altdimout) |
---|
631 | ierr = NF_DEF_DIM(nout, "Time", NF_UNLIMITED, timedimout) |
---|
632 | |
---|
633 | ! End netcdf define mode |
---|
634 | ierr = NF_ENDDEF(nout) |
---|
635 | |
---|
636 | !============================================================================== |
---|
637 | ! 3. Write "Time" and its attributes |
---|
638 | !============================================================================== |
---|
639 | |
---|
640 | call def_var(nout,"Time","Time","years since 0000-00-0 00:00:00",1,& |
---|
641 | (/timedimout/),timevarout,ierr) |
---|
642 | |
---|
643 | !============================================================================== |
---|
644 | ! 4. Write "latitude" (data and attributes) |
---|
645 | !============================================================================== |
---|
646 | |
---|
647 | call def_var(nout,"latitude","latitude","degrees_north",1,& |
---|
648 | (/latdimout/),nvarid,ierr) |
---|
649 | |
---|
650 | ierr = NF_PUT_VAR_REAL (nout,nvarid,lat) |
---|
651 | |
---|
652 | !============================================================================== |
---|
653 | ! 4. Write "longitude" (data and attributes) |
---|
654 | !============================================================================== |
---|
655 | |
---|
656 | call def_var(nout,"longitude","East longitude","degrees_east",1,& |
---|
657 | (/londimout/),nvarid,ierr) |
---|
658 | |
---|
659 | ierr = NF_PUT_VAR_REAL (nout,nvarid,lon) |
---|
660 | |
---|
661 | !============================================================================== |
---|
662 | ! 4. Write "altitude" (data and attributes) |
---|
663 | !============================================================================== |
---|
664 | |
---|
665 | ! Switch to netcdf define mode |
---|
666 | ierr = NF_REDEF (nout) |
---|
667 | |
---|
668 | ierr = NF_DEF_VAR (nout,"altitude",NF_FLOAT,1,altdimout,nvarid) |
---|
669 | |
---|
670 | ierr = NF_PUT_ATT_TEXT (nout,nvarid,"long_name",8,"altitude") |
---|
671 | ierr = NF_PUT_ATT_TEXT (nout,nvarid,'units',2,"km") |
---|
672 | ierr = NF_PUT_ATT_TEXT (nout,nvarid,'positive',2,"up") |
---|
673 | |
---|
674 | ! End netcdf define mode |
---|
675 | ierr = NF_ENDDEF(nout) |
---|
676 | |
---|
677 | ierr = NF_PUT_VAR_REAL (nout,nvarid,alt) |
---|
678 | |
---|
679 | end Subroutine initiate |
---|
680 | !************************************ |
---|
681 | subroutine def_var(nid,name,title,units,nbdim,dim,nvarid,ierr) |
---|
682 | !============================================================================== |
---|
683 | ! Purpose: Write a variable (i.e: add a variable to a dataset) |
---|
684 | ! called "name"; along with its attributes "title", "units"... |
---|
685 | ! to a file (following the NetCDF format) |
---|
686 | !============================================================================== |
---|
687 | ! Remarks: |
---|
688 | ! The NetCDF file must be open |
---|
689 | !============================================================================== |
---|
690 | |
---|
691 | implicit none |
---|
692 | |
---|
693 | include "netcdf.inc" ! NetCDF definitions |
---|
694 | |
---|
695 | !============================================================================== |
---|
696 | ! Arguments: |
---|
697 | !============================================================================== |
---|
698 | integer, intent(in) :: nid |
---|
699 | ! nid: [netcdf] file ID # |
---|
700 | character (len=*), intent(in) :: name |
---|
701 | ! name(): [netcdf] variable's name |
---|
702 | character (len=*), intent(in) :: title |
---|
703 | ! title(): [netcdf] variable's "title" attribute |
---|
704 | character (len=*), intent(in) :: units |
---|
705 | ! unit(): [netcdf] variable's "units" attribute |
---|
706 | integer, intent(in) :: nbdim |
---|
707 | ! nbdim: number of dimensions of the variable |
---|
708 | integer, dimension(nbdim), intent(in) :: dim |
---|
709 | ! dim(nbdim): [netcdf] dimension(s) ID(s) |
---|
710 | integer, intent(out) :: nvarid |
---|
711 | ! nvarid: [netcdf] ID # of the variable |
---|
712 | integer, intent(out) :: ierr |
---|
713 | ! ierr: [netcdf] subroutines returned error code |
---|
714 | |
---|
715 | ! Switch to netcdf define mode |
---|
716 | ierr=NF_REDEF(nid) |
---|
717 | |
---|
718 | ! Insert the definition of the variable |
---|
719 | ierr=NF_DEF_VAR(nid,adjustl(name),NF_FLOAT,nbdim,dim,nvarid) |
---|
720 | |
---|
721 | ! Write the attributes |
---|
722 | ierr=NF_PUT_ATT_TEXT(nid,nvarid,"title",len_trim(adjustl(title)),adjustl(title)) |
---|
723 | ierr=NF_PUT_ATT_TEXT(nid,nvarid,"units",len_trim(adjustl(units)),adjustl(units)) |
---|
724 | |
---|
725 | ! End netcdf define mode |
---|
726 | ierr=NF_ENDDEF(nid) |
---|
727 | |
---|
728 | end subroutine def_var |
---|
729 | !************************************ |
---|
730 | subroutine sol2ls(sol,Ls) |
---|
731 | !============================================================================== |
---|
732 | ! Purpose: |
---|
733 | ! Convert a date/time, given in sol (martian day), |
---|
734 | ! into solar longitude date/time, in Ls (in degrees), |
---|
735 | ! where sol=0 is (by definition) the northern hemisphere |
---|
736 | ! spring equinox (where Ls=0). |
---|
737 | !============================================================================== |
---|
738 | ! Notes: |
---|
739 | ! Even though "Ls" is cyclic, if "sol" is greater than N (martian) year, |
---|
740 | ! "Ls" will be increased by N*360 |
---|
741 | ! Won't work as expected if sol is negative (then again, |
---|
742 | ! why would that ever happen?) |
---|
743 | !============================================================================== |
---|
744 | |
---|
745 | implicit none |
---|
746 | |
---|
747 | !============================================================================== |
---|
748 | ! Arguments: |
---|
749 | !============================================================================== |
---|
750 | real,intent(in) :: sol |
---|
751 | real,intent(out) :: Ls |
---|
752 | |
---|
753 | !============================================================================== |
---|
754 | ! Local variables: |
---|
755 | !============================================================================== |
---|
756 | real year_day,peri_day,timeperi,e_elips,twopi,degrad |
---|
757 | data year_day /669./ ! # of sols in a martian year |
---|
758 | data peri_day /485.0/ |
---|
759 | data timeperi /1.9082314/ |
---|
760 | data e_elips /0.093358/ |
---|
761 | data twopi /6.2831853/ ! 2.*pi |
---|
762 | data degrad /57.2957795/ ! pi/180 |
---|
763 | |
---|
764 | real zanom,xref,zx0,zdx,zteta,zz |
---|
765 | |
---|
766 | integer count_years |
---|
767 | integer iter |
---|
768 | |
---|
769 | !============================================================================== |
---|
770 | ! 1. Compute Ls |
---|
771 | !============================================================================== |
---|
772 | |
---|
773 | zz=(sol-peri_day)/year_day |
---|
774 | zanom=twopi*(zz-nint(zz)) |
---|
775 | xref=abs(zanom) |
---|
776 | |
---|
777 | ! The equation zx0 - e * sin (zx0) = xref, solved by Newton |
---|
778 | zx0=xref+e_elips*sin(xref) |
---|
779 | do iter=1,20 ! typically, 2 or 3 iterations are enough |
---|
780 | zdx=-(zx0-e_elips*sin(zx0)-xref)/(1.-e_elips*cos(zx0)) |
---|
781 | zx0=zx0+zdx |
---|
782 | if(abs(zdx).le.(1.e-7)) then |
---|
783 | ! write(*,*)'iter:',iter,' |zdx|:',abs(zdx) |
---|
784 | exit |
---|
785 | endif |
---|
786 | enddo |
---|
787 | |
---|
788 | if(zanom.lt.0.) zx0=-zx0 |
---|
789 | |
---|
790 | zteta=2.*atan(sqrt((1.+e_elips)/(1.-e_elips))*tan(zx0/2.)) |
---|
791 | Ls=zteta-timeperi |
---|
792 | |
---|
793 | if(Ls.lt.0.) then |
---|
794 | Ls=Ls+twopi |
---|
795 | else |
---|
796 | if(Ls.gt.twopi) then |
---|
797 | Ls=Ls-twopi |
---|
798 | endif |
---|
799 | endif |
---|
800 | |
---|
801 | Ls=degrad*Ls |
---|
802 | ! Ls is now in degrees |
---|
803 | |
---|
804 | !============================================================================== |
---|
805 | ! 1. Account for (eventual) years included in input date/time sol |
---|
806 | !============================================================================== |
---|
807 | |
---|
808 | count_years=0 ! initialize |
---|
809 | zz=sol ! use "zz" to store (and work on) the value of sol |
---|
810 | do while (zz.ge.year_day) |
---|
811 | count_years=count_years+1 |
---|
812 | zz=zz-year_day |
---|
813 | enddo |
---|
814 | |
---|
815 | ! Add 360 degrees to Ls for every year |
---|
816 | if (count_years.ne.0) then |
---|
817 | Ls=Ls+360.*count_years |
---|
818 | endif |
---|
819 | |
---|
820 | |
---|
821 | end subroutine sol2ls |
---|
822 | !************************************ |
---|
823 | |
---|
824 | Subroutine interpolf(x,y,xd,yd,nd) |
---|
825 | !interpolation, give y = f(x) with array xd,yd known, size nd |
---|
826 | ! Version with CONSTANT values oustide limits |
---|
827 | ! Variable declaration |
---|
828 | ! -------------------- |
---|
829 | ! Arguments : |
---|
830 | real x,y |
---|
831 | real xd(*),yd(*) |
---|
832 | integer nd |
---|
833 | ! internal |
---|
834 | integer i,j |
---|
835 | real y_undefined |
---|
836 | |
---|
837 | ! run |
---|
838 | ! --- |
---|
839 | y_undefined=1.e20 |
---|
840 | |
---|
841 | y=0. |
---|
842 | if ((x.le.xd(1)).and.(x.le.xd(nd))) then |
---|
843 | if (xd(1).lt.xd(nd)) y = yd(1) !y_undefined |
---|
844 | if (xd(1).ge.xd(nd)) y = y_undefined ! yd(nd) |
---|
845 | else if ((x.ge.xd(1)).and.(x.ge.xd(nd))) then |
---|
846 | if (xd(1).lt.xd(nd)) y = y_undefined ! yd(nd) |
---|
847 | if (xd(1).ge.xd(nd)) y = y_undefined ! yd(1) |
---|
848 | y = yd(nd) |
---|
849 | else |
---|
850 | do i=1,nd-1 |
---|
851 | if ( ( (x.ge.xd(i)).and.(x.lt.xd(i+1)) ).or.((x.le.xd(i)).and.(x.gt.xd(i+1))) ) then |
---|
852 | y=yd(i)+(x-xd(i))*(yd(i+1)-yd(i))/(xd(i+1)-xd(i)) |
---|
853 | goto 99 |
---|
854 | end if |
---|
855 | end do |
---|
856 | end if |
---|
857 | |
---|
858 | ! write (*,*)' x , y' , x,y |
---|
859 | ! do i=1,nd |
---|
860 | ! write (*,*)' i, xd , yd' ,i, xd(i),yd(i) |
---|
861 | ! end do |
---|
862 | ! stop |
---|
863 | |
---|
864 | 99 continue |
---|
865 | |
---|
866 | end subroutine interpolf |
---|
867 | |
---|
868 | end |
---|