1 | MODULE YOMFPC |
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2 | |
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3 | USE PARKIND1 ,ONLY : JPIM ,JPRB |
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4 | |
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5 | USE PARFPOS, ONLY : JPOS2DF ,JPOS3DF ,JPOS3H ,JPOS3P ,JPOS3PV , & |
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6 | & JPOS3S ,JPOS3TH ,JPOSCFU ,JPOSDIR ,JPOSLEN ,JPOSDOM , & |
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7 | & JPOSSGP ,JPOSXFU |
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8 | |
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9 | IMPLICIT NONE |
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10 | |
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11 | SAVE |
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12 | |
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13 | ! ------------------------------------------------------------------ |
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14 | |
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15 | !* Scientific and technical variables |
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16 | |
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17 | ! === TECHNICAL VARIABLES === |
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18 | |
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19 | ! CFPDIR : prefix (path) for the output files |
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20 | ! CFPIDEN: identificator of the output files |
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21 | ! CFPFMT : format of the output files ('MODEL','GAUSS','LELAM' or 'LALON') |
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22 | ! CFPDOM, C1FPDOM : names of the subdomains |
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23 | ! CFP3DF, C1FP3DF : names 3D dynamics fields to compute |
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24 | ! CFP3DFS,C1FP3DFS: names 3D dynamics fields to compute on model levels |
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25 | ! CFP3DFP,C1FP3DFP: names 3D dynamics fields to compute on Pressure levels |
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26 | ! CFP3DFH,C1FP3DFH: names 3D dynamics fields to compute on H levels |
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27 | ! CFP3DFT,C1FP3DFT: names 3D dynamics fields to compute on THETA levels |
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28 | ! CFP3DFV,C1FP3DFV: names 3D dynamics fields to compute on PV levels |
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29 | ! CFP2DF, C1FP2DF : names 2D dynamics fields to compute |
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30 | ! CFPPHY, C1FPPHY : names of physical fields to be post-processed |
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31 | ! CFPCFU, C1FPCFU : names of cumulated fluxes fields to be post-processed |
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32 | ! CFPXFU, C1FPXFU : names of instantaneous fluxes fields to be post-proc |
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33 | ! Remark: C1FPXXX=CFPXXX(1)//CFPXXX(2)//...//CFPXXX(JPOSXXX) |
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34 | ! for XXX=DOM,3DF,2DF,PHY,CFU,XFU. |
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35 | |
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36 | ! Variables used for ECMWF |
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37 | |
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38 | ! MFP3DFS: Gribcodes of 3D dynamics fields to compute on model levels |
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39 | ! MFP3DFH: Gribcodes of 3D dynamics fields to compute on H levels |
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40 | ! MFP3DFT: Gribcodes of 3D dynamics fields to compute on THETA levels |
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41 | ! MFP3DFV: Gribcodes of 3D dynamics fields to compute on PV levels |
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42 | ! MFP3DFP: Gribcodes of 3D dynamics fields to compute on P levels |
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43 | ! MFP2DF : Gribcodes of 2D dynamics fields to compute |
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44 | ! MFPPHY : Gribcodes of physical fields to processed |
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45 | |
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46 | ! RFP3P : post-processing pressure levels |
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47 | ! RFP3H : post-processing height (above orography) levels |
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48 | ! RFP3TH : post-processing potential temperature levels |
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49 | ! RFP3PV : post-processing potential vorticity levels |
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50 | ! NRFP3S : post-processing eta levels (CONF. 927 only) |
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51 | |
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52 | ! LFPCNT : control varying output variables according to time step |
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53 | ! LTRACEFP: trace for Full-POS |
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54 | ! NFPGRIB : level of GRIB coding in output file ARPEGE/ALADIN. |
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55 | ! 0 : no packing at all |
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56 | ! 1 : standart GRIB encoding |
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57 | ! 2 : modified GRIB encoding |
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58 | |
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59 | ! NFPDOM : useful dimension of CFPDOM |
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60 | ! NFP3DF : useful dimension of CFP3DF |
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61 | ! NFP3DFS: useful dimension of CFP3DFS |
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62 | ! NFP3DFH: useful dimension of CFP3DFH |
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63 | ! NFP3DFT: useful dimension of CFP3DFT |
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64 | ! NFP3DFV: useful dimension of CFP3DFV |
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65 | ! NFP3DFP: useful dimension of CFP3DFP |
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66 | ! NFP2DF : useful dimension of CFP2DF |
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67 | ! NFPPHY : useful dimension of CFPPHY |
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68 | ! NFPCFU : useful dimension of CFPCFU |
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69 | ! NFPXFU : useful dimension of CFPXFU |
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70 | ! NFP3P : useful dimension of RFP3P |
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71 | ! NFP3H : useful dimension of RFP3H |
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72 | ! NFP3TH : useful dimension of RFP3TH |
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73 | ! NFP3PV : useful dimension of RFP3PV |
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74 | ! NFP3S : useful dimension of NRFP3S |
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75 | ! NFPXLEV: max. number of pp. levels |
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76 | ! MFP3DYN : max. number of 3D-dynamic fields neeeded for LFPART2 |
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77 | ! MFP2DYN : max. number of 2D-dynamic fields neeeded for LFPART2 |
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78 | ! NFPDPHY : maximum number of physical fields |
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79 | |
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80 | ! The next keys force variables to be primitive for the post-processing : |
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81 | ! LFPNHPD : .TRUE. if pp of NH pressure departure |
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82 | ! LFPNHVD : .TRUE. if pp of NH vertical divergence |
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83 | ! LFPNHVW : .TRUE. if pp of NH true vertical velocity |
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84 | |
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85 | ! LFPLOSP : .TRUE. = Fill Ps array with Log(Ps) |
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86 | ! LFPRH100 : .TRUE. to convert relative humidity in percent |
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87 | |
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88 | ! === SCIENTIFIC VARIABLES === |
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89 | |
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90 | ! LFPSPEC: =.T. if pp. dyn. fields are written out as spectral coefficients |
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91 | ! =.F. if pp. dyn. fields are written out as grid point values. |
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92 | ! LFITP : =1 if pp. fields on P levels should be fited ; =0 otherwise |
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93 | ! LFITT : =1 if pp. fields on THETA levels should be fited ; =0 otherwise |
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94 | ! LFITV : =1 if pp. fields on PV levels should be fited ; =0 otherwise |
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95 | |
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96 | ! NFPCLI : usage level for climatology |
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97 | ! =0 no climatology |
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98 | ! =1 orography and land-sea mask of output only |
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99 | ! =2 all available climatological fields of the current month |
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100 | ! =3 shifting mean from the climatological fields of the current |
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101 | ! month to the ones of the closest month |
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102 | |
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103 | ! NFPINDYN : type of interpolations for dynamical fields |
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104 | ! NFPINPHY : type of interpolations for physical fields |
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105 | ! 4 for bilinear, 12 for quadratic |
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106 | |
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107 | ! LFPQ : =.TRUE. if specific humidity is interpolated |
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108 | ! : =.FALSE. if relative humidity is interpolated |
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109 | ! LASQ : =.TRUE. if ASQ set to 80% saturation |
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110 | |
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111 | ! WSXI : max. surface moisture in input |
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112 | ! WDXI : max. deep soil moisture in input |
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113 | ! WSXO : max. surface moisture in output |
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114 | ! WDXO : max. deep soil moisture in output |
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115 | |
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116 | ! FPBL : Critical Thickness of PBL |
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117 | ! RFPCORR: Critical orography difference for correcting surface |
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118 | ! temperature through standart profile. |
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119 | ! RFPCSAB: Critical sand percentage difference for computing relative |
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120 | ! soil moisture in ISBA |
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121 | ! RFPCD2 : Critical soil depth difference for computing relative |
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122 | ! soil moisture in ISBA |
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123 | ! RFPVCAP: Minimum pressure of model level to provide an equatorial |
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124 | ! cap in the computation of variables on constant PV surfaces |
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125 | ! NFPLNPR : 0 => conventional formulation of (delta P) : ln(P(l)/P(l-1)) |
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126 | ! 1 => formulation of (delta P) used in non hydrostatic model, |
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127 | ! i.e. (P(l)-P(l-1))/SQRT(P(l)*P(l-1)) |
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128 | ! LFPMOIS: Month allowed for climatology usage : |
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129 | ! .F. => month of the model (forecast) |
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130 | ! .T. => month of the file |
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131 | ! NFPINCR : Bogussing indicator ; =0 for no bogussing ; =1 for bogussing |
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132 | ! NFPLAKE : To overwrite created lakes or islands by specific data : |
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133 | ! 0 => do not overwrite |
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134 | ! -1 => overwrite with rhoughly interpolated data |
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135 | ! +1 => overwrite with climatology |
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136 | ! NFPCAPE : Kind of computation for CAPE & CIN : |
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137 | ! 1 => from bottom model layer |
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138 | ! 2 => from the most unstable layer |
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139 | ! 3 => from mto standart height (2 meters) as recomputed values |
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140 | ! 4 => from mto standart height (2 meters) out of fluxes |
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141 | ! (used for analysis) |
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142 | ! NFPSURFEX : Subcontract surface fields to SURFEX |
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143 | ! 0 => no subcontract |
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144 | ! 1 => transform native arp/ald surface fields to surfex fields |
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145 | ! and write out by surfex |
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146 | ! NFPMASK : number of masks for the interpolation of surface fields |
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147 | ! 0 => no mask |
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148 | ! 1 => land-sea mask |
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149 | ! 2 => land mask, sea mask |
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150 | ! LMOCONVAR : if true mocon is computed from N-1 level parameters (for varpack use) |
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151 | |
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152 | CHARACTER (LEN = JPOSDIR) :: CFPDIR |
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153 | CHARACTER (LEN = 5) :: CFPFMT |
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154 | CHARACTER (LEN = 8) :: CFPIDEN |
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155 | CHARACTER (LEN = JPOSLEN) :: CFPDOM(JPOSDOM) |
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156 | CHARACTER (LEN = 12) :: CFP3DF(JPOS3DF) |
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157 | CHARACTER (LEN = 12) :: CFP3DFS(JPOS3DF) |
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158 | CHARACTER (LEN = 12) :: CFP3DFP(JPOS3DF) |
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159 | CHARACTER (LEN = 12) :: CFP3DFH(JPOS3DF) |
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160 | CHARACTER (LEN = 12) :: CFP3DFT(JPOS3DF) |
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161 | CHARACTER (LEN = 12) :: CFP3DFV(JPOS3DF) |
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162 | CHARACTER (LEN = 16) :: CFP2DF(JPOS2DF) |
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163 | CHARACTER (LEN = 16) :: CFPPHY(JPOSSGP) |
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164 | CHARACTER (LEN = 16) :: CFPCFU(JPOSCFU) |
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165 | CHARACTER (LEN = 16) :: CFPXFU(JPOSXFU) |
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166 | CHARACTER (LEN = 12*JPOS3DF) :: C1FP3DF |
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167 | CHARACTER (LEN = 12*JPOS3DF) :: C1FP3DFS |
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168 | CHARACTER (LEN = 12*JPOS3DF) :: C1FP3DFP |
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169 | CHARACTER (LEN = 12*JPOS3DF) :: C1FP3DFH |
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170 | CHARACTER (LEN = 12*JPOS3DF) :: C1FP3DFT |
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171 | CHARACTER (LEN = 12*JPOS3DF) :: C1FP3DFV |
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172 | CHARACTER (LEN = 16*JPOS2DF) :: C1FP2DF |
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173 | CHARACTER (LEN = 16*JPOSSGP) :: C1FPPHY |
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174 | CHARACTER (LEN = 16*JPOSCFU) :: C1FPCFU |
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175 | CHARACTER (LEN = 16*JPOSXFU) :: C1FPXFU |
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176 | CHARACTER (LEN = JPOSLEN*JPOSDOM) :: C1FPDOM |
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177 | INTEGER(KIND=JPIM) :: MFP3DFS(JPOS3DF) |
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178 | INTEGER(KIND=JPIM) :: MFP3DFP(JPOS3DF) |
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179 | INTEGER(KIND=JPIM) :: MFP3DFH(JPOS3DF) |
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180 | INTEGER(KIND=JPIM) :: MFP3DFT(JPOS3DF) |
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181 | INTEGER(KIND=JPIM) :: MFP3DFV(JPOS3DF) |
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182 | INTEGER(KIND=JPIM) :: MFP2DF(JPOS2DF) |
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183 | INTEGER(KIND=JPIM) :: MFPPHY(JPOSSGP) |
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184 | |
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185 | REAL(KIND=JPRB) :: RFP3P(JPOS3P) |
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186 | REAL(KIND=JPRB) :: RFP3H(JPOS3H) |
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187 | REAL(KIND=JPRB) :: RFP3TH(JPOS3TH) |
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188 | REAL(KIND=JPRB) :: RFP3PV(JPOS3PV) |
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189 | INTEGER(KIND=JPIM) :: NRFP3S(JPOS3S) |
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190 | |
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191 | INTEGER(KIND=JPIM) :: NFPDOM |
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192 | INTEGER(KIND=JPIM) :: NFP3DF |
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193 | INTEGER(KIND=JPIM) :: NFP3DFS |
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194 | INTEGER(KIND=JPIM) :: NFP3DFP |
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195 | INTEGER(KIND=JPIM) :: NFP3DFH |
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196 | INTEGER(KIND=JPIM) :: NFP3DFT |
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197 | INTEGER(KIND=JPIM) :: NFP3DFV |
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198 | INTEGER(KIND=JPIM) :: NFP2DF |
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199 | INTEGER(KIND=JPIM) :: NFPPHY |
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200 | INTEGER(KIND=JPIM) :: NFPCFU |
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201 | INTEGER(KIND=JPIM) :: NFPXFU |
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202 | INTEGER(KIND=JPIM) :: NFP3P |
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203 | INTEGER(KIND=JPIM) :: NFP3H |
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204 | INTEGER(KIND=JPIM) :: NFP3TH |
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205 | INTEGER(KIND=JPIM) :: NFP3PV |
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206 | INTEGER(KIND=JPIM) :: NFP3S |
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207 | INTEGER(KIND=JPIM) :: NFPGRIB |
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208 | INTEGER(KIND=JPIM) :: NFPCLI |
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209 | INTEGER(KIND=JPIM) :: MFP3DYN |
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210 | INTEGER(KIND=JPIM) :: MFP2DYN |
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211 | INTEGER(KIND=JPIM) :: NFPLNPR |
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212 | INTEGER(KIND=JPIM) :: NFPINCR |
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213 | INTEGER(KIND=JPIM) :: NFPINDYN |
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214 | INTEGER(KIND=JPIM) :: NFPINPHY |
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215 | INTEGER(KIND=JPIM) :: NFPCAPE |
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216 | REAL(KIND=JPRB) :: WSXI |
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217 | REAL(KIND=JPRB) :: WDXI |
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218 | REAL(KIND=JPRB) :: WSXO |
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219 | REAL(KIND=JPRB) :: WDXO |
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220 | REAL(KIND=JPRB) :: FPBL |
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221 | REAL(KIND=JPRB) :: RFPCORR |
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222 | REAL(KIND=JPRB) :: RFPCSAB |
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223 | REAL(KIND=JPRB) :: RFPCD2 |
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224 | REAL(KIND=JPRB) :: RFPVCAP |
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225 | LOGICAL :: LFPSPEC |
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226 | LOGICAL :: LFITP |
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227 | LOGICAL :: LFITT |
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228 | LOGICAL :: LFITV |
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229 | LOGICAL :: LFPQ |
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230 | LOGICAL :: LTRACEFP |
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231 | LOGICAL :: LFPCNT |
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232 | LOGICAL :: LASQ |
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233 | LOGICAL :: LFPNHPD |
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234 | LOGICAL :: LFPNHVD |
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235 | LOGICAL :: LFPNHVW |
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236 | LOGICAL :: LFPMOIS |
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237 | LOGICAL :: LFPLOSP |
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238 | LOGICAL :: LFPRH100 |
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239 | LOGICAL :: LMOCONVAR |
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240 | INTEGER(KIND=JPIM) :: NFPLAKE |
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241 | INTEGER(KIND=JPIM) :: NFPXLEV |
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242 | INTEGER(KIND=JPIM) :: NFPDPHY |
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243 | INTEGER(KIND=JPIM) :: NFPSURFEX |
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244 | INTEGER(KIND=JPIM) :: NFPMASK |
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245 | ! ------------------------------------------------------------------ |
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246 | END MODULE YOMFPC |
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