1 | ;------------------------------------------------------------ |
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2 | ;------------------------------------------------------------ |
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3 | ;------------------------------------------------------------ |
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4 | ;+ |
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5 | ; |
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6 | ; @file_comments |
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7 | ; Draw the grid |
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8 | ; |
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9 | ; @categories |
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10 | ; |
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11 | ; @param GLAMIN {in}{required} |
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12 | ; The 1d or 2d array in longitude of points of the grid.If GLAM/GLAMIN |
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13 | ; is not specified, it trace the grid specified by vargrid, on the |
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14 | ; domain defined by domdef. |
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15 | ; |
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16 | ; @param GPHIIN {in}{required} |
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17 | ; The 1d or 2d array in latitude of points of the grid.If GPHI/GPHIIN |
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18 | ; is not specified, it trace the grid specified by vargrid, on the |
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19 | ; domain defined by domdef. |
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20 | ; |
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21 | ; @keyword XSTRIDE |
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22 | ; It is an integer to specify that we want to trace only one line of |
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23 | ; constant i every xstride points |
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24 | ; |
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25 | ; @keyword YSTRIDE |
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26 | ; It is an integer to specify that we want to trace only one line of |
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27 | ; constant j every xstride points |
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28 | ; |
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29 | ; @keyword OCEAN |
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30 | ; To trace the grid only on ocean points. |
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31 | ; |
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32 | ; @keyword EARTH |
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33 | ; To trace the grid only on land points pour ne tracer la grille que sur les points terre |
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34 | ; |
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35 | ; @keyword RMOUT |
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36 | ; Select to remove all cell having one corner out of the |
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37 | ; plot boundaries (!x.range, !y.range) |
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38 | ; |
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39 | ; @keyword _EXTRA |
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40 | ; Used to pass your keywords. |
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41 | ; |
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42 | ; @uses |
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43 | ; common.pro |
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44 | ; |
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45 | ; @examples |
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46 | ; |
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47 | ; IDL> plt,indgen(jpi,jpj),/nocontour,/nofill |
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48 | ; IDL> vargrid='T' |
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49 | ; IDL> tracegrille,/ocean,color=20 |
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50 | ; IDL> tracegrille,/earth,color=80 |
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51 | ; |
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52 | ; |
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53 | ; @history |
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54 | ; Sebastien Masson (smasson@lodyc.jussieu.fr) |
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55 | ; |
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56 | ; @version |
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57 | ; $Id$ |
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58 | ; |
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59 | ;- |
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60 | ;------------------------------------------------------------ |
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61 | ;------------------------------------------------------------ |
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62 | ;------------------------------------------------------------ |
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63 | PRO tracegrille, glamin, gphiin, OCEAN = ocean, EARTH = earth $ |
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64 | , XSTRIDE = xstride, YSTRIDE = ystride, RMOUT = rmout $ |
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65 | , _extra = extra |
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66 | ;--------------------------------------------------------- |
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67 | ; |
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68 | compile_opt idl2, strictarrsubs |
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69 | ; |
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70 | @cm_4mesh |
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71 | @cm_4data |
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72 | IF NOT keyword_set(key_forgetold) THEN BEGIN |
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73 | @updatenew |
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74 | ENDIF |
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75 | ;--------------------------------------------------------- |
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76 | tempsun = systime(1) ; For key_performance |
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77 | ; to avoid warning message |
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78 | oldexcept = !except |
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79 | !except = 0 |
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80 | if n_elements(key_gridtype) EQ 0 then key_gridtype = 'c' |
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81 | ; |
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82 | if n_elements(glamin) * n_elements(gphiin) EQ 0 then BEGIN |
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83 | grille, mask, glam, gphi, gdep, nx, ny, nz, firstx, firsty, firstz, lastx, lasty, lastz |
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84 | IF keyword_set(ocean) AND key_gridtype EQ 'c' THEN BEGIN |
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85 | ; we reduce the mask to take into account the point located ON the coastline. |
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86 | CASE vargrid OF |
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87 | 'U':BEGIN |
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88 | mask = tmask[firstx:lastx, firsty:lasty] |
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89 | IF NOT keyword_set(key_periodic) OR nx NE jpi $ |
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90 | THEN tmpx = mask[nx-1, *] |
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91 | mask = (mask+shift(mask, -1, 0)) < 1 |
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92 | IF NOT keyword_set(key_periodic) OR nx NE jpi $ |
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93 | THEN mask[nx-1, *] = temporary(tmpx) |
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94 | END |
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95 | 'V':BEGIN |
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96 | mask = tmask[firstx:lastx, firsty:lasty] |
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97 | tmpy = mask[*, ny-1] |
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98 | mask = (mask+shift(mask, 0, -1)) < 1 |
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99 | mask[*, ny-1] = temporary(tmpy) |
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100 | END |
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101 | 'F':BEGIN |
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102 | mask = tmask[firstx:lastx, firsty:lasty] |
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103 | IF NOT keyword_set(key_periodic) OR nx NE jpi $ |
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104 | THEN tmpx = mask[nx-1, *] |
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105 | tmpy = mask[*, ny-1] |
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106 | mask = (mask+shift(mask, -1, 0)+shift(mask, 0, -1)+shift(mask, -1, -1)) < 1 |
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107 | mask[*, ny-1] = temporary(tmpy) |
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108 | IF NOT keyword_set(key_periodic) OR nx NE jpi $ |
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109 | THEN mask[nx-1, *] = temporary(tmpx) |
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110 | END |
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111 | ELSE: |
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112 | ENDCASE |
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113 | ENDIF |
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114 | ENDIF ELSE BEGIN |
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115 | glam = glamin |
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116 | gphi = gphiin |
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117 | IF (size(glam))[0] EQ 1 AND (size(gphi))[0] EQ 1 THEN BEGIN |
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118 | nx = n_elements(glam) |
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119 | ny = n_elements(gphi) |
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120 | glam = glam#replicate(1, ny) |
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121 | gphi = replicate(1, nx)#gphi |
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122 | ENDIF ELSE BEGIN |
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123 | nx = (size(glam))[1] |
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124 | ny = (size(glam))[2] |
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125 | ENDELSE |
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126 | ENDELSE |
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127 | if n_elements(mask) EQ 0 then mask = replicate(1b, nx, ny) |
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128 | if (size(mask))[0] EQ 3 then mask = mask[*, *, 0] |
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129 | ; |
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130 | IF keyword_set(RMOUT) THEN BEGIN |
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131 | out = where(glam GT max(!x.range) OR glam LT min(!x.range) $ |
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132 | OR gphi GT max(!y.range) OR gphi LT min(!y.range)) |
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133 | IF out[0] NE -1 THEN BEGIN |
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134 | glam[out] = !values.f_nan |
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135 | gphi[out] = !values.f_nan |
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136 | ENDIF |
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137 | ENDIF |
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138 | ; |
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139 | IF keyword_set(ocean) then BEGIN |
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140 | earth = where(mask EQ 0) |
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141 | if earth[0] NE -1 then begin |
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142 | glam[earth] = !values.f_nan |
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143 | gphi[earth] = !values.f_nan |
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144 | ENDIF |
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145 | earth = 0 |
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146 | ENDIF |
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147 | ; |
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148 | IF keyword_set(earth) THEN BEGIN |
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149 | ocean = where(mask EQ 1) |
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150 | if ocean[0] NE -1 then begin |
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151 | glam[ocean] = !values.f_nan |
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152 | gphi[ocean] = !values.f_nan |
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153 | ENDIF |
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154 | ocean = 0 |
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155 | ENDIF |
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156 | ; |
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157 | if NOT keyword_set(xstride) then xstride = 1 |
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158 | if NOT keyword_set(ystride) then ystride = 1 |
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159 | case key_gridtype of |
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160 | 'c':BEGIN |
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161 | for i = 0, ny-1, ystride do begin |
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162 | plots, glam[*, i], gphi[*, i], _extra = extra |
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163 | endfor |
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164 | for i = 0, nx-1, xstride do begin |
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165 | plots, glam[i, *], gphi[i, *], _extra = extra |
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166 | endfor |
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167 | END |
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168 | 'e':BEGIN |
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169 | shifted = glam[0, 0] LT glam[0, 1] |
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170 | glam2 = glam+(glam[1]-glam[0])/2. |
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171 | if shifted then begin |
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172 | for i = 0, ny-2 do BEGIN |
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173 | xx = (transpose([[glam[*, i]], [glam2[*, i]]]))[*] |
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174 | yy = (transpose([[gphi[*, i]], [gphi[*, i+1]]]))[*] |
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175 | plots, xx[0:2*nx-2], yy[0:2*nx-2], _extra = extra |
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176 | ENDFOR |
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177 | ENDIF ELSE BEGIN |
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178 | for i = 1, ny-1 do BEGIN |
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179 | xx = (transpose([[glam[*, i]], [glam2[*, i]]]))[*] |
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180 | yy = (transpose([[gphi[*, i]], [gphi[*, i-1]]]))[*] |
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181 | plots, xx[0:2*nx-2], yy[0:2*nx-2], _extra = extra |
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182 | ENDFOR |
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183 | ENDELSE |
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184 | for i = 1, (ny-1)/2 do $ |
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185 | plots, [glam[0, 2*i-1], glam[0, 2*i]] $ |
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186 | , [gphi[0, 2*i-1], gphi[0, 2*i]], _extra = extra |
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187 | for i = 0, (ny-2)/2 do $ |
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188 | plots, [glam[nx-1, 2*i], glam[nx-1, 2*i+1]] $ |
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189 | , [gphi[nx-1, 2*i], gphi[nx-1, 2*i+1]], _extra = extra |
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190 | END |
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191 | endcase |
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192 | |
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193 | if keyword_set(key_performance) THEN print, 'temps trace grille', systime(1)-tempsun |
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194 | !except = oldexcept |
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195 | |
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196 | return |
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197 | end |
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