1 | module output_hemin40_mod |
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2 | |
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3 | USE module3D_phy |
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4 | |
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5 | implicit none |
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6 | |
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7 | real :: bmean ! |
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8 | real :: accmean ! accumulation moyenne |
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9 | real :: ablmean ! ablation moyenne |
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10 | real :: calvmean ! moyenne calving |
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11 | real :: ablbordmean ! |
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12 | real :: ablatotmean |
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13 | real :: bmeltmean ! moyenne fusion basale |
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14 | real :: tbmean ! temperature basale moyenne |
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15 | real :: tbdotmean ! moyenne variation / temps temperature basale |
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16 | real :: vsmean ! vitesse de surface moyenne |
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17 | !real :: vsdotmean ! moyenne variation / temps vitesse de surface |
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18 | real :: uzsmean !!!! utilise ? ! vitesse verticale de surface moyenne |
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19 | real :: uzsdotmean ! moyenne variation / temps vitesse verticale de surface |
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20 | real :: uzkmean ! moyenne vitesse verticale de surface |
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21 | real :: hdotmean ! moyenne derivee / temps de H |
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22 | real :: bdotmean ! moyenne bedrock derive / temps |
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23 | !real :: pf0mean ! moyenne de PF0 |
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24 | !real :: pf1mean ! moyenne de PF1 |
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25 | !real :: evapmean ! moyenne de EVAP |
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26 | !real :: pwmean ! moyenne PW |
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27 | !real :: pdfmean ! moyenne PDF |
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28 | logical,dimension(nx,ny,13) :: mask_cal ! masque regions calotte |
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29 | integer, dimension(nx,ny) :: write_mask |
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30 | CONTAINS |
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31 | !_________________________________________________________________________ |
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32 | subroutine init_outshort |
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33 | |
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34 | !ndisp sorite courte tous les ndisp |
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35 | NDISP=100 |
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36 | mask_cal(:,:,:)=.false. |
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37 | mask_cal(:,:,1)=.true. |
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38 | ! calcul d'un masque pour les regions des calottes |
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39 | do j=1,ny |
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40 | do i=1,nx |
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41 | ! -- Laurentide |
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42 | IF( (((xlong(i,j).ge.190).AND.(xlong(i,j).lt.210)).AND. & |
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43 | ((ylat(i,j).ge.50).AND.(ylat(i,j).le.70))).OR. & |
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44 | (((xlong(i,j).ge.210).AND.(xlong(i,j).lt.220)).AND. & |
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45 | ((ylat(i,j).ge.55).AND.(ylat(i,j).le.75))).OR. & |
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46 | (((xlong(i,j).ge.220).AND.(xlong(i,j).lt.250)).AND. & |
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47 | ((ylat(i,j).ge.40).AND.(ylat(i,j).le.85))).OR. & |
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48 | (((xlong(i,j).ge.250).AND.(xlong(i,j).lt.290)).AND. & |
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49 | ((ylat(i,j).ge.35).AND.(ylat(i,j).le.85))).OR. & |
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50 | (((xlong(i,j).ge.290).AND.(xlong(i,j).lt.300)).AND. & |
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51 | ((ylat(i,j).ge.35).AND.(ylat(i,j).le.75))).OR. & |
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52 | (((xlong(i,j).ge.300).AND.(xlong(i,j).le.310)).AND. & |
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53 | ((ylat(i,j).ge.35).AND.(ylat(i,j).lt.60))) ) mask_cal(i,j,2)=.true. |
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54 | ! -- Groenland |
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55 | |
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56 | ! -- Labrador Sector |
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57 | IF((((xlong(i,j).ge.285).AND.(xlong(i,j).le.300)).AND. & |
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58 | ((ylat(i,j).ge.35).AND.(ylat(i,j).le.70))).OR. & |
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59 | (((xlong(i,j).ge.300).AND.(xlong(i,j).lt.310)).AND. & |
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60 | ((ylat(i,j).ge.35).AND.(ylat(i,j).lt.60)))) mask_cal(i,j,5)=.true. |
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61 | ! -- Keewatin Sector |
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62 | IF( ((xlong(i,j).gt.240).AND.(xlong(i,j).lt.285)).AND. & |
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63 | ((ylat(i,j).ge.35).AND.(ylat(i,j).le.70)) ) mask_cal(i,j,6)=.true. |
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64 | ! -- Innuitian Ice Sheet |
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65 | IF( ((xlong(i,j).gt.230).AND.(xlong(i,j).lt.290)).AND. & |
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66 | ((ylat(i,j).gt.70).AND.(ylat(i,j).le.85))) mask_cal(i,j,7)=.true. |
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67 | ! -- Cordilleran Ice Sheet |
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68 | IF( (((xlong(i,j).ge.190).AND.(xlong(i,j).lt.210)).AND. & |
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69 | ((ylat(i,j).ge.50).AND.(ylat(i,j).le.70))).OR. & |
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70 | (((xlong(i,j).ge.210).AND.(xlong(i,j).lt.220)).AND. & |
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71 | ((ylat(i,j).ge.55).AND.(ylat(i,j).le.75))).OR. & |
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72 | (((xlong(i,j).ge.210).AND.(xlong(i,j).lt.220)).AND. & |
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73 | ((ylat(i,j).ge.55).AND.(ylat(i,j).le.75))).OR. & |
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74 | (((xlong(i,j).ge.220).AND.(xlong(i,j).le.240)).AND. & |
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75 | ((ylat(i,j).ge.40).AND.(ylat(i,j).le.70))) ) mask_cal(i,j,8)=.true. |
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76 | ! -- Groenland |
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77 | IF( (((xlong(i,j).ge.290).AND.(xlong(i,j).le.310)).AND. & |
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78 | ((ylat(i,j).ge.75).AND.(ylat(i,j).le.85))).OR. & |
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79 | (((xlong(i,j).ge.300).AND.(xlong(i,j).lt.310)).AND. & |
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80 | ((ylat(i,j).ge.60).AND.(ylat(i,j).le.75))).OR. & |
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81 | ! (((xlong(i,j).ge.310).AND.(xlong(i,j).le.350)).AND. & |
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82 | ! ((ylat(i,j).ge.40).AND.(ylat(i,j).le.85))) ) THEN |
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83 | (((xlong(i,j).ge.310).AND.(xlong(i,j).le.345)).AND. & |
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84 | ((ylat(i,j).ge.54).AND.(ylat(i,j).le.85))) ) mask_cal(i,j,3)=.true. |
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85 | ! -- Fennoscandie |
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86 | IF( (((xlong(i,j).ge.345).AND.(xlong(i,j).lt.360)).AND. & !British |
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87 | ((ylat(i,j).ge.50).AND.(ylat(i,j).le.60))).OR. & |
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88 | (((xlong(i,j).ge.0).AND.(xlong(i,j).le.40)).AND. & !Scand |
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89 | ((ylat(i,j).ge.50).AND.(ylat(i,j).le.70))).OR. & |
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90 | ! (((xlong(i,j).ge.50).AND.(xlong(i,j).le.120)).AND. & |
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91 | (((xlong(i,j).ge.10).AND.(xlong(i,j).le.122)).AND. & !BK |
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92 | ((ylat(i,j).ge.65).AND.(ylat(i,j).le.85))) ) mask_cal(i,j,4)=.true. |
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93 | !! -- Scandinavian Ice Sheet Pauline |
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94 | IF( ((xlong(i,j).gt.0.).AND.(xlong(i,j).le.40)).AND. & |
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95 | ((ylat(i,j).ge.50).AND.(ylat(i,j).le.70))) mask_cal(i,j,9)=.true. |
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96 | ! -- Barents Ice Sheet Pauline |
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97 | IF ( (((xlong(i,j).gt.10.).AND.(xlong(i,j).le.60.)).AND. & |
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98 | ((ylat(i,j).gt.70).AND.(ylat(i,j).le.85.))).OR. & |
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99 | (((xlong(i,j).gt.40.).AND.(xlong(i,j).le.60.)).AND. & |
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100 | ((ylat(i,j).ge.65.).AND.(ylat(i,j).lt.70.)))) mask_cal(i,j,10)=.true. |
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101 | ! -- Kara Ice Sheet Pauline |
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102 | IF( (((xlong(i,j).gt.60.).AND.(xlong(i,j).le.122)).AND. & |
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103 | ((ylat(i,j).ge.70).AND.(ylat(i,j).le.85))).OR. & |
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104 | (((xlong(i,j).gt.60.).AND.(xlong(i,j).le.80.)).AND. & |
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105 | ((ylat(i,j).ge.65.).AND.(ylat(i,j).lt.70.)))) mask_cal(i,j,11)=.true. |
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106 | ! -- British Ice Sheet Pauline |
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107 | IF( ((xlong(i,j).gt.350.).AND.(xlong(i,j).le.360)).AND. & |
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108 | ((ylat(i,j).ge.50).AND.(ylat(i,j).le.60))) mask_cal(i,j,13)=.true. |
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109 | ! -- Siberian Ice Sheet |
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110 | IF( ((xlong(i,j).gt.122.).AND.(xlong(i,j).lt.190)).AND. & |
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111 | ((ylat(i,j).ge.60).AND.(ylat(i,j).le.85))) mask_cal(i,j,12)=.true. |
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112 | enddo |
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113 | enddo |
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114 | ! open (UNIT=7777,file='mask_hemin40-02.dat') |
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115 | ! do j=1,ny |
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116 | ! do i=1,nx |
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117 | ! if (mask_cal(i,j,2)) then |
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118 | ! write_mask(i,j)=2 |
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119 | ! else |
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120 | ! write_mask(i,j)=0 |
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121 | ! endif |
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122 | ! write(7777,*) i,j,write_mask(i,j) |
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123 | ! enddo |
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124 | ! enddo |
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125 | ! close(UNIT=7777) |
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126 | ! stop |
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127 | |
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128 | ! ecriture entete avec les colonnes du fichier short : |
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129 | WRITE(num_ritz, '(a91)')"! hemin40 : time,isvol,deltavol,inp,isvolf,inf,isacc,isabl,ISABLBORD,ABLATOT,ISCALV,ISBM" |
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130 | WRITE(num_ritz, '(a90)')"! colonne : 1 2 3 4 5 6 7 8 9 10 11 12" |
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131 | WRITE(num_ritz,'(a157)')"! calotte : Laurentide Groenland Fennoscandie LabradorSector KeewatinSector InnuitianIS CordilleranIS ScandinavianIS BarentsIS KaraIS SiberianIS BritishIS" |
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132 | WRITE(num_ritz,'(a153)')"! isvol : 13 26 39 52 65 78 91 104 117 130 143 156" |
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133 | WRITE(num_ritz,'(a153)')"! inp : 14 27 40 53 66 79 92 105 118 131 144 157" |
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134 | WRITE(num_ritz,'(a153)')"! isvolf : 15 28 41 54 67 80 93 106 119 132 145 158" |
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135 | WRITE(num_ritz,'(a153)')"! inf : 16 29 42 55 68 81 94 107 120 133 146 159" |
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136 | WRITE(num_ritz,'(a153)')"! isacc : 17 30 43 56 69 82 95 108 121 134 147 160" |
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137 | WRITE(num_ritz,'(a153)')"! isabl : 18 31 44 57 70 83 96 109 122 135 148 161" |
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138 | WRITE(num_ritz,'(a153)')"! isablbord : 19 32 45 58 71 84 97 110 123 136 149 162" |
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139 | WRITE(num_ritz,'(a153)')"! ablatot : 20 33 46 59 72 85 98 111 124 137 150 163" |
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140 | WRITE(num_ritz,'(a153)')"! iscalv : 21 34 47 60 73 86 99 112 125 138 151 164" |
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141 | WRITE(num_ritz,'(a153)')"! isbm : 22 35 48 61 74 87 100 113 126 139 152 165" |
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142 | WRITE(num_ritz,'(a153)')"! itjjamean_ : 23 36 49 62 75 88 101 114 127 140 153 166" |
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143 | WRITE(num_ritz,'(a153)')"! hmean_ : 24 37 50 63 76 89 102 115 128 141 154 167" |
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144 | WRITE(num_ritz,'(a153)')"! Hmax_ : 25 38 51 64 77 90 103 116 129 142 155 168" |
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145 | WRITE(num_ritz,*) |
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146 | end subroutine init_outshort |
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147 | |
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148 | !_________________________________________________________________________ |
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149 | subroutine shortoutput |
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150 | |
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151 | ! 1_initialization |
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152 | !------------------ |
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153 | integer KK |
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154 | ! integer inpl, INPG, INPF |
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155 | ! integer inplab,inpkeew,inpinn,inpcord |
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156 | ! integer inpscaN,inpbar,inpkara,inpsib,inpbrit |
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157 | integer inp(13) ! Surface posee (nb de noeuds) |
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158 | integer inf(13) ! surface flottante |
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159 | |
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160 | !Variables pour sommer |
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161 | real isvol(13),isvolf(13) ! volume posé et flottants |
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162 | REAL ISCALV(13),ISACC(13),ISBM(13),ISABL(13) |
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163 | REAL ISABLBORD(13),ABLATOT(13),TACC(13),TBM(13) |
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164 | REAL ITJJA(13) |
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165 | ! REAL ABLAMEAN |
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166 | !moyennes utilisées en output |
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167 | REAL HMAX_(13) , HMEAN_(13) |
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168 | REAL BMEAN_(13) , ACCMEAN_(13) , ABLMEAN_(13) , ABLBORDMEAN_(13) |
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169 | REAL ABLATOTMEAN_(13) , CALVMEAN_(13) , ITJJAMEAN_(13) |
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170 | |
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171 | |
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172 | |
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173 | ! REAL ITJJAMEAN_L, ITJJAMEAN_G, ITJJAMEAN_F ... |
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174 | ! REAL ITJJAMEAN_LAB,ITJJAMEAN_KEEW,ITJJAMEAN_INN,ITJJAMEAN_CORD |
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175 | ! REAL ITJJAMEAN_SCAN,ITJJAMEAN_BAR,ITJJAMEAN_KARA,ITJJAMEAN_SIB,ITJJAMEAN_BRIT |
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176 | |
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177 | REAL HDOTMEAN_G |
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178 | ! REAL ABLA(NX,NY) |
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179 | REAL DELTAVOL |
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180 | |
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181 | |
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182 | ! open(unit=4145,file='reg_output_nord.dat') |
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183 | |
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184 | BMELTMEAN=0. |
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185 | TBMEAN=0. |
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186 | TBDOTMEAN=0. |
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187 | VSMEAN=0. |
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188 | UZSMEAN=0. |
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189 | UZSDOTMEAN=0. |
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190 | UZKMEAN=0. |
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191 | HDOTMEAN=0. |
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192 | HDOTMEAN_G = 0. |
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193 | BDOTMEAN=0. |
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194 | |
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195 | DO kk = 1,13 |
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196 | INP(kk) = 0 |
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197 | INF(kk) = 0 |
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198 | ISVOL(kk) = 0. |
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199 | ISVOLF(kk) = 0. |
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200 | ISBM(kk) = 0. |
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201 | ISACC(kk) = 0. |
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202 | ISCALV(kk) = 0. |
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203 | ISABL(kk) = 0. |
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204 | ISABLBORD(kk) = 0. |
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205 | ABLATOT(kk)= 0. |
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206 | TACC(kk) = 0. |
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207 | TBM(kk) = 0. |
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208 | ITJJA(kk) = 0. |
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209 | |
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210 | ! nouveau tof mai 2009 |
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211 | ! where (mask_cal(:,:,kk).and.H(:,:).gt.2..and.flot(:,:)) ISVOLF(kk) = ISVOLF(kk) + H(I,J) |
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212 | isvolf(kk) = sum(H(:,:),mask=(mask_cal(:,:,kk).and.(H(:,:).gt.2.).and.flot(:,:))) |
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213 | INF(kk) = count(mask_cal(:,:,kk).and.(H(:,:).gt.2.).and.flot(:,:)) |
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214 | |
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215 | INP(kk) = count(mask_cal(:,:,kk).and.(H(:,:).gt.2.).and..not.flot(:,:)) |
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216 | isvol(kk) = sum(H(:,:),mask=(mask_cal(:,:,kk).and.(H(:,:).gt.2.).and..not.flot(:,:))) |
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217 | isacc(kk) = sum(Acc(:,:),mask=(mask_cal(:,:,kk).and.(H(:,:).gt.2.).and..not.flot(:,:))) |
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218 | isabl(kk) = sum(Abl(:,:),mask=(mask_cal(:,:,kk).and.(H(:,:).gt.2.).and..not.flot(:,:))) |
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219 | itjja(kk) = sum(Tjuly(:,:),mask=(mask_cal(:,:,kk).and.(H(:,:).gt.2.).and..not.flot(:,:))) |
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220 | Hmax_(kk) = maxval(H(:,:),mask=(mask_cal(:,:,kk).and.(H(:,:).gt.2.).and..not.flot(:,:))) |
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221 | Tacc(kk) = sum(Acc(:,:),mask=(mask_cal(:,:,kk).and.(H(:,:).gt.2.))) |
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222 | isablbord(kk) = sum(ablbord(:,:),mask=(mask_cal(:,:,kk))) |
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223 | iscalv(kk) = sum(calv(:,:),mask=(mask_cal(:,:,kk).and.(H(:,:).gt.2.)))/dt |
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224 | |
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225 | ablatot(kk) = isabl(kk) + isablbord(kk) |
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226 | isbm(kk) = isacc(kk)+isabl(kk)+iscalv(kk)+isablbord(kk) |
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227 | Tbm(kk) = Tacc(kk)+isabl(kk)+iscalv(kk)+isablbord(kk) |
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228 | |
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229 | |
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230 | enddo |
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231 | |
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232 | |
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233 | !!$ |
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234 | !!$ |
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235 | !!$ IF(H(i,j).gt.2.) THEN |
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236 | !!$ if (mk(i,j).eq.1) then |
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237 | !!$ INF(2) = INF(2) + 1 |
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238 | !!$ ISVOLF(2) = ISVOLF(2) + H(I,J) |
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239 | !!$ else |
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240 | !!$ INP(2) = INP(2) + 1 |
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241 | !!$ ISVOL(2) = ISVOL(2) + H(I,J) |
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242 | !!$ ISACC(2) = ISACC(2) + ACC(I,J) |
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243 | !!$ ISABL(2) = ISABL(2) + ABL(I,J) |
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244 | !!$ ITJJA(2) = ITJJA(2) + TJULY(I,J) |
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245 | !!$ if (H(I,J).gt.HMAX_(2)) HMAX_(2)=H(I,J) |
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246 | !!$ endif |
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247 | !!$ ENDIF |
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248 | !!$ TACC(2) = TACC(2) + ACC(I,J) |
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249 | !!$ ISABLBORD(2) = ISABLBORD(2) + ABLBORD(I,J) |
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250 | !!$ ABLATOT(2) = ISABL(2) + ISABLBORD(2) |
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251 | !!$ ISCALV(2) = ISCALV(2) + CALV(I,J) |
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252 | !!$ ISBM(2) = ISACC(2)+ISABL(2)+ISCALV(2)+ISABLBORD(2) |
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253 | !!$ TBM(2) = TACC(2)+ISABL(2)+ISCALV(2)+ISABLBORD(2) |
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254 | !!$ ENDIF |
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255 | !!$ |
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256 | !!$ |
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257 | !!$ END DO |
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258 | |
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259 | |
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260 | |
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261 | do K=1,13 |
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262 | |
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263 | ! == Les moyennes |
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264 | IF(INP(K).ne.0)THEN |
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265 | HMEAN_(K) = ISVOL(K) /INP(K) ! /(DX*DY*INP(K)) |
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266 | BMEAN_(K) = ISBM(K) /INP(K) |
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267 | ACCMEAN_(K) = ISACC(K) /INP(K) |
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268 | ABLMEAN_(K) = ISABL(K) /INP(K) |
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269 | ABLBORDMEAN_(K) = ISABLBORD(K) /INP(K) |
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270 | CALVMEAN_(K) = ISCALV(K) /INP(K) |
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271 | ABLATOTMEAN_(K) = ABLATOT(K) /INP(K) |
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272 | ITJJAMEAN_(K) = ITJJA(K) /INP(K) |
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273 | ENDIF |
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274 | ! == Les volmes intergrées (3D) |
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275 | ISVOL(K) = ISVOL(K)*DX*DY |
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276 | isacc(k)=isacc(k)*dx*dy |
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277 | isabl(k)=isabl(k)*dx*dy |
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278 | isablbord(k)=isablbord(k)*dx*dy |
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279 | ablatot(k)=ablatot(k)*dx*dy |
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280 | iscalv(k)=iscalv(k)*dx*dy |
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281 | isbm(k)=isbm(k)*dx*dy |
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282 | tacc(k)=tacc(k)*dx*dy |
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283 | tbm(k)=tbm(k)*dx*dy |
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284 | enddo |
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285 | !nom_table='abl' |
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286 | !call printtable_r(abl,nom_table) |
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287 | |
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288 | !==================================================== |
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289 | ! -- Hemin40 : : 1 |
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290 | |
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291 | if (NP.ne.0) then |
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292 | ! HMEAN=VOL/NP |
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293 | ! VOL=VOL*DX*DY |
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294 | ! ISVOL(1) = VOL |
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295 | ! BMEAN=BMEAN/NP |
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296 | ! ACCMEAN=ACCMEAN/NP |
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297 | ! ITJJAMEAN = ITJJA(1)/NP |
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298 | ! ABLMEAN=BMEAN-ACCMEAN |
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299 | !!! ABLMEAN = ABLMEAN/NP |
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300 | ! CALVMEAN=CALVMEAN/NP |
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301 | !!! BMELTMEAN=BMELTMEAN/NP |
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302 | !!! ABLBORDMEAN=ABLBORDMEAN/NP |
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303 | !!! ABLAMEAN = ABLAMEAN/NP |
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304 | TBMEAN=TBMEAN/NP |
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305 | TBDOTMEAN=TBDOTMEAN/NP |
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306 | VSMEAN=VSMEAN/NP |
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307 | ! VSDOTMEAN=VSDOTMEAN/NP |
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308 | UZSMEAN=UZSMEAN/NP |
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309 | UZSDOTMEAN=UZSDOTMEAN/NP |
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310 | UZKMEAN=UZKMEAN/NP |
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311 | DELTAVOL = HDOTMEAN*DX*DY |
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312 | HDOTMEAN=HDOTMEAN/NP |
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313 | ELSE |
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314 | TBMEAN=0. |
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315 | TBDOTMEAN=0. |
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316 | VSMEAN=0. |
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317 | UZSMEAN=0. |
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318 | UZSDOTMEAN=0. |
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319 | UZKMEAN=0. |
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320 | DELTAVOL = 0. |
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321 | HDOTMEAN=0. |
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322 | endif |
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323 | |
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324 | BDOTMEAN=BDOTMEAN/NX/NY |
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325 | |
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326 | ! 2_writing outputs |
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327 | !------------------ |
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328 | |
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329 | ! WRITE(35,904)TIME,VOL,DELTAVOL,NP,ISACC(1),ISABL(1), & |
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330 | ! ISABLBORD(1),ABLATOT(1),ISCALV(1),ISBM(1), & |
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331 | ! ISVOL(2),INPL,ISACC(2), & |
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332 | ! ISABL(2),ISABLBORD(2),ABLATOT(2),ISCALV(2),ISBM(2), & |
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333 | ! ISVOL(3),INPG,ISACC(3),ISABL(3),ISABLBORD(3), & |
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334 | ! ABLATOT(3),ISCALV(3),ISBM(3),ISVOL(4),INPF,ISACC(4), & |
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335 | ! ISABL(4),ISABLBORD(4),ABLATOT(4),ISCALV(4),ISBM(4), & |
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336 | ! nint(HMEAN),nint(HMAX),BMEAN,TBMEAN,nint(VSMEAN), & |
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337 | ! TBDOTMEAN,HDOTMEAN,BDOTMEAN,BMELTMEAN,NPAB, & |
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338 | !! TBDOTMEAN,VSDOTMEAN,HDOTMEAN,BDOTMEAN,BMELTMEAN,NPAB, & |
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339 | ! NPCAL,HDOTMEAN_G,TACC(1),TBM(1),TACC(2),TBM(2), & |
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340 | ! TACC(3),TBM(3),TACC(4),TBM(4), & |
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341 | ! ITJJAMEAN,ITJJAMEAN_L,ITJJAMEAN_G,ITJJAMEAN_F, & |
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342 | ! ISVOL(5),INPLAB,ISACC(5),ABLATOT(5),ITJJAMEAN_LAB, & |
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343 | ! ISVOL(6),INPKEEW,ISACC(6),ABLATOT(6),ITJJAMEAN_KEEW, & |
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344 | ! ISVOL(7),INPINN,ISACC(7),ABLATOT(7),ITJJAMEAN_INN, & |
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345 | ! ISVOL(8),INPCORD,ISACC(8),ABLATOT(8),ITJJAMEAN_CORD, & |
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346 | ! ISVOL(9),INPSCAN,ISACC(9),ABLATOT(9),ITJJAMEAN_SCAN, & |
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347 | ! ISVOL(10),INPBAR,ISACC(10),ABLATOT(10),ITJJAMEAN_BAR, & |
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348 | ! ISVOL(11),INPKARA,ISACC(11),ABLATOT(11),ITJJAMEAN_KARA, & |
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349 | ! ISVOL(12),INPSIB,ISACC(12),ABLATOT(12),ITJJAMEAN_SIB, & |
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350 | ! ISVOL(13),INPBRIT,ISACC(13),ABLATOT(13),ITJJAMEAN_BRIT, & |
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351 | ! HMEAN,HMEAN_L,HMEAN_G,HMEAN_F,HMEAN_LAB,HMEAN_KEEW, & |
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352 | ! HMEAN_INN,HMEAN_CORD,HMEAN_SCAN,HMEAN_BAR,HMEAN_KARA, & |
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353 | ! HMEAN_SIB,HMEAN_BRIT, & |
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354 | ! HMAX,HMAX_L,HMAX_G,HMAX_F,HMAX_LAB,HMAX_KEEW,HMAX_INN, & |
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355 | ! HMAX_CORD, HMAX_SCAN,HMAX_BAR,HMAX_KARA,HMAX_SIB,HMAX_BRIT |
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356 | |
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357 | |
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358 | |
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359 | |
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360 | !print*,'=========================' |
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361 | !print*,'ecrit short, time = ',time,dt |
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362 | !print*,'hdot ISABLBORD',hdot(30:40,100),ISABLBORD(2) |
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363 | |
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364 | write(num_ritz,905) time,isvol(1),deltavol,inp(1),isvolf(1),inf(1),isacc(1),isabl(1), & ! 8 |
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365 | ISABLBORD(1),ABLATOT(1),ISCALV(1),ISBM(1), & ! 4 |
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366 | isvol(2),inp(2),isvolf(2),inf(2),isacc(2),isabl(2),isablbord(2),ablatot(2),iscalv(2),isbm(2),itjjamean_(2),hmean_(2),Hmax_(2), & ! 13 |
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367 | isvol(3),inp(3),isvolf(3),inf(3),isacc(3),isabl(3),isablbord(3),ablatot(3),iscalv(3),isbm(3),itjjamean_(3),hmean_(3),hmax_(3), & ! 13 |
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368 | isvol(4),inp(4),isvolf(4),inf(4),isacc(4),isabl(4),isablbord(4),ablatot(4),iscalv(4),isbm(4),itjjamean_(4),hmean_(4),hmax_(4), & ! 13 |
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369 | isvol(5),inp(5),isvolf(5),inf(5),isacc(5),isabl(5),isablbord(5),ablatot(5),iscalv(5),isbm(5),itjjamean_(5),hmean_(5),hmax_(5), & ! 13 |
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370 | isvol(6),inp(6),isvolf(6),inf(6),isacc(6),isabl(6),isablbord(6),ablatot(6),iscalv(6),isbm(6),itjjamean_(6),hmean_(6),hmax_(6), & ! 13 |
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371 | isvol(7),inp(7),isvolf(7),inf(7),isacc(7),isabl(7),isablbord(7),ablatot(7),iscalv(7),isbm(7),itjjamean_(7),hmean_(7),hmax_(7), & ! 13 |
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372 | isvol(8),inp(8),isvolf(8),inf(8),isacc(8),isabl(8),isablbord(8),ablatot(8),iscalv(8),isbm(8),itjjamean_(8),hmean_(8),hmax_(8), & ! 13 |
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373 | isvol(9),inp(9),isvolf(9),inf(9),isacc(9),isabl(9),isablbord(9),ablatot(9),iscalv(9),isbm(9),itjjamean_(9),hmean_(9),hmax_(9), & ! 13 |
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374 | isvol(10),inp(10),isvolf(10),inf(10),isacc(10),isabl(10),isablbord(10),ablatot(10),iscalv(10),isbm(10),itjjamean_(10),hmean_(10),hmax_(10), & ! 13 |
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375 | isvol(11),inp(11),isvolf(11),inf(11),isacc(11),isabl(11),isablbord(11),ablatot(11),iscalv(11),isbm(11),itjjamean_(11),hmean_(11),hmax_(11), & ! 13 |
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376 | isvol(12),inp(12),isvolf(12),inf(12),isacc(12),isabl(12),isablbord(12),ablatot(12),iscalv(12),isbm(12),itjjamean_(12),hmean_(12),hmax_(12), & ! 13 |
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377 | isvol(13),inp(13),isvolf(13),inf(13),isacc(13),isabl(13),isablbord(13),ablatot(13),iscalv(13),isbm(13),itjjamean_(13),hmean_(13),hmax_(13) ! 13 |
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378 | |
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379 | |
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380 | ! !! format 900 faux, a reprendre |
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381 | |
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382 | 905 format(f9.1,1x, e11.4,1x,e11.5, 1x,i5, 1x,e10.4,1x,i5 , 6(1x,e12.5), & |
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383 | 12(2(1x,e10.4,1x,i5), 9(1x,e11.4) ) ) |
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384 | |
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385 | |
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386 | 940 format('%%%% ',a,' time=',f8.0,' %%%%') |
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387 | end subroutine shortoutput |
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388 | |
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389 | |
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390 | end module output_hemin40_mod |
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