[2] | 1 | ;+ |
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[150] | 2 | ; @file_comments |
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[2] | 3 | ; |
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| 4 | ; |
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[150] | 5 | ; @categories |
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[2] | 6 | ; |
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[150] | 7 | ; @param FIELD |
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[2] | 8 | ; |
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[150] | 9 | ; @param RES |
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[2] | 10 | ; |
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[150] | 11 | ; @param GLAMAXE |
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[2] | 12 | ; |
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[150] | 13 | ; @param GPHIAXE |
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[2] | 14 | ; |
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[231] | 15 | ; @keyword ENDPOINTS |
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| 16 | ; |
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[150] | 17 | ; @keyword BOXZOOM |
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[2] | 18 | ; |
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[231] | 19 | ; @keyword TYPE |
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[2] | 20 | ; |
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[150] | 21 | ; @keyword WDEPTH |
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[2] | 22 | ; |
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[150] | 23 | ; @keyword DIREC |
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| 24 | ; |
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| 25 | ; @keyword SHOWBUILD |
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| 26 | ; |
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| 27 | ; @keyword ONLYBOX |
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| 28 | ; |
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[231] | 29 | ; @keyword _EXTRA |
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| 30 | ; Used to pass keywords |
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[150] | 31 | ; |
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| 32 | ; @returns |
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[231] | 33 | ; |
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[150] | 34 | ; @uses |
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[370] | 35 | ; <pro>common</pro> |
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[231] | 36 | ; |
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[150] | 37 | ; @restrictions |
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[231] | 38 | ; |
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[150] | 39 | ; @examples |
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[231] | 40 | ; |
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[150] | 41 | ; @history |
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[157] | 42 | ; Sebastien Masson (smasson\@lodyc.jussieu.fr) |
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[231] | 43 | ; |
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| 44 | ; @version |
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[186] | 45 | ; $Id$ |
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[231] | 46 | ; |
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[2] | 47 | ;- |
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[327] | 48 | PRO section, field, res, glamaxe, gphiaxe, ENDPOINTS=endpoints $ |
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| 49 | , BOXZOOM=boxzoom, TYPE=type, WDEPTH=wdepth $ |
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| 50 | , DIREC=direc, SHOWBUILD=showbuild, ONLYBOX=onlybox $ |
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| 51 | , _EXTRA=ex |
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[29] | 52 | ; |
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[114] | 53 | compile_opt idl2, strictarrsubs |
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| 54 | ; |
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[29] | 55 | @cm_4mesh |
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| 56 | @cm_4data |
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| 57 | @cm_4cal |
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| 58 | IF NOT keyword_set(key_forgetold) THEN BEGIN |
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| 59 | @updatenew |
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| 60 | @updatekwd |
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| 61 | ENDIF |
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| 62 | ;-------------------------------------------------------------- |
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[2] | 63 | ;--------------------- |
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| 64 | ;--------------------- |
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[150] | 65 | ; definition of boxzoom in function of endpoints, then redefinition of the domain |
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[29] | 66 | boxzoom2d = [min([endpoints[0], endpoints[2]], max = ma02), ma02 $ |
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| 67 | , min([endpoints[1], endpoints[3]], max = ma13), ma13] |
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[2] | 68 | ; |
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[29] | 69 | minprof = 0. |
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| 70 | profdefault = 200. |
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| 71 | if n_elements(type) EQ 0 then type = 'nothing' |
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| 72 | Case N_Elements(Boxzoom) OF |
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| 73 | 0:localbox = [boxzoom2d, minprof, profdefault] |
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| 74 | 1:localbox = [boxzoom2d, minprof, boxzoom[0]] |
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[386] | 75 | 2:localbox = [boxzoom2d, boxzoom] |
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[29] | 76 | 4:if strpos(type, 'z') NE -1 THEN $ |
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| 77 | localbox = [boxzoom2d, minprof, profdefault] ELSE localbox = boxzoom2d |
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| 78 | 5:localbox = [boxzoom2d, minprof, boxzoom[4]] |
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| 79 | 6:localbox = [boxzoom2d, boxzoom[4:5]] |
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| 80 | Else:BEGIN |
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[237] | 81 | ras = report('Bad definition of the box') |
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[29] | 82 | stop |
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| 83 | END |
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| 84 | ENDCASE |
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| 85 | nelbox = n_elements(localbox) |
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| 86 | ; |
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| 87 | if keyword_set(wdepth) then grillechoice = [vargrid, 'W'] $ |
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| 88 | ELSE grillechoice = vargrid |
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| 89 | domdef, localbox, GRIDTYPE = grillechoice, /findalways, _extra = ex |
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| 90 | grille, -1, -1, -1, -1, nx, ny |
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[231] | 91 | ; if less than 10 points where found, we apply domdef over the whole domain |
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[29] | 92 | ; -> problem... why 10 points as a test value??? |
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| 93 | ; how can we find a good test value? |
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| 94 | IF nx * ny LE 10 THEN domdef, GRIDTYPE = grillechoice, _extra = ex |
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[150] | 95 | ; We redefine lon1, ... in case findalways has been used in domdef |
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[29] | 96 | lon1 = min([endpoints[0], endpoints[2]], max = lon2) |
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| 97 | lat1 = min([endpoints[1], endpoints[3]], max = lat2) |
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| 98 | ; we extend the box along the z axis -> i that way the plot will be drawn |
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| 99 | ; until its bottom part. |
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| 100 | if strpos(type, 'z') NE -1 THEN BEGIN |
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[150] | 101 | ; We keep yranges (axis z) before changing the boxzoom. |
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[231] | 102 | !y.range = [localbox[nelbox-1], localbox[nelbox-2]] |
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[29] | 103 | if vargrid EQ 'W' OR keyword_set(wdepth) then BEGIN |
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| 104 | firstzw = 0 > (firstzw-1) |
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| 105 | lastzw = (lastzw+1) < (jpk-1) |
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| 106 | nzw = lastzw - firstzw + 1 |
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| 107 | ENDIF ELSE BEGIN |
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| 108 | firstzt = 0 > (firstzt-1) |
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| 109 | lastzt = (lastzt+1) < (jpk-1) |
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| 110 | nzt = lastzt - firstzt + 1 |
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| 111 | ENDELSE |
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| 112 | IF NOT keyword_set(key_forgetold) THEN BEGIN |
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| 113 | @updateold |
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[231] | 114 | ENDIF |
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[29] | 115 | ENDIF |
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[231] | 116 | !y.range = [localbox[nelbox-1], localbox[nelbox-2]] |
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[150] | 117 | ; We recuperate the grid on the boxzoom. |
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[29] | 118 | ; |
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| 119 | IF NOT keyword_set(onlybox) THEN saveboxparam, 'boxparam4section.dat' |
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| 120 | grille, -1, -1, -1, -1, nx, ny, nz $ |
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| 121 | , firstx, firsty, firstz, lastx, lasty, lastz |
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| 122 | ; the extend the box in the x and y direction in order to maximise |
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| 123 | ; the number of triangles used to build the section |
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| 124 | firstx = 0 > (firstx - 1) |
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| 125 | lastx = (lastx + 1) < (jpi -1) |
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| 126 | firsty = 0 > (firsty - 1) |
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| 127 | lasty = (lasty + 1) < (jpj -1) |
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[231] | 128 | |
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[29] | 129 | domdef, firstx, lastx, firsty, lasty, firstz, lastz $ |
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| 130 | , /index, gridtype = vargrid |
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| 131 | |
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| 132 | IF keyword_set(onlybox) THEN return |
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| 133 | ; |
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| 134 | grille, mask, glam, gphi, gdep, nx, ny, nz $ |
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| 135 | , firstx, firsty, firstz, lastx, lasty, lastz |
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| 136 | |
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[2] | 137 | ;--------------------- |
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[231] | 138 | ; We define the triangulation which will allows us to determinate the section. |
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[150] | 139 | ; We recalculate it because it must be defined on the Earth and on oceans. |
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[231] | 140 | ; Following the direction of the section -rather longitude or rather latitude- |
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[150] | 141 | ; we define the way to triangulate. |
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[231] | 142 | if strpos(type, 'x') NE -1 then BEGIN |
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[29] | 143 | downward = (lindgen(nx, ny))[0:nx-2, 0:ny-2] |
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[231] | 144 | tri = definetri(nx, ny, (downward)[*]) |
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[29] | 145 | ENDIF ELSE tri = definetri(nx, ny) |
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| 146 | ; If we have an irregular grid that is periodic, then it is possible that |
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| 147 | ; some of the triangle have a very large size (neighborg points on the |
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| 148 | ; sphere but far away when doing the projection) and should not be |
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[231] | 149 | ; taken into account.. |
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[29] | 150 | IF keyword_set(key_irregular) AND keyword_set(key_periodic) THEN BEGIN |
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| 151 | glamtri = glam[tri] |
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| 152 | glamtri = abs(glamtri - shift(glamtri, 1, 0)) |
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| 153 | good = temporary(glamtri) LT (10.*max(glam)/nx) |
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| 154 | good = where(total(temporary(good), 1) EQ 3) |
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| 155 | tri = (temporary(tri))[*, temporary(good)] |
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| 156 | ENDIF |
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[2] | 157 | ;--------------------- |
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[150] | 158 | ; Equation of the line on which we do the section. |
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[2] | 159 | ;--------------------- |
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[29] | 160 | abc = linearequation(endpoints[0:1], endpoints[2:3]) |
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| 161 | glamtri = glam[tri] |
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| 162 | gphitri = gphi[tri] |
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[150] | 163 | ; Which points of the triangulation are above and below the line? |
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[29] | 164 | if abc[1] NE 0 THEN $ |
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[2] | 165 | test = temporary(gphitri) GE (-abc[0]/abc[1]*temporary(glamtri)-abc[2]/abc[1]) $ |
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[29] | 166 | ELSE test = temporary(glamtri) GE (-abc[1]/abc[0]*temporary(gphitri)-abc[2]/abc[0]) |
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[2] | 167 | |
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[29] | 168 | zero123 = total(test, 1) |
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[150] | 169 | ; to keep: triangles of the triangulation which are over the line. |
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[29] | 170 | tokeep1 = where(zero123 EQ 1) |
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| 171 | tokeep2 = where(temporary(zero123) EQ 2) |
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| 172 | tokeep = [tokeep1, tokeep2] |
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[2] | 173 | |
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[29] | 174 | test = test[*, tokeep] |
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| 175 | tri = tri[*, tokeep] |
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[150] | 176 | ; Which summit of the triangle is alone in a side of the line? |
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[29] | 177 | single1 = where(test[*, 0:n_elements(tokeep1)-1] EQ 1) |
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| 178 | single1 = single1-(single1/3)*3 |
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| 179 | single2 = where(test[*, n_elements(tokeep1):n_elements(tokeep)-1] EQ 0) |
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| 180 | single2 = single2-(single2/3)*3 |
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[2] | 181 | |
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[29] | 182 | undefine, tokeep |
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| 183 | undefine, tokeep1 |
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| 184 | undefine, tokeep2 |
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| 185 | undefine, test |
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[2] | 186 | |
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[29] | 187 | single = [temporary(single1), temporary(single2)] |
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[150] | 188 | ; points1 the point (of the triangle) alone in a side of the line. |
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| 189 | ; point2 the other point of the triangle in the other side of the line. |
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[29] | 190 | point1 = [single, single] |
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| 191 | point2 = [single EQ 0, 1 + (single LE 1)] |
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[2] | 192 | |
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[29] | 193 | undefine, single |
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[2] | 194 | |
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[29] | 195 | ntri = (size(tri))[2] |
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| 196 | index = [lindgen(ntri), lindgen(ntri)] |
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[2] | 197 | |
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[29] | 198 | points1 = tri[point1, index] |
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| 199 | points2 = tri[point2, temporary(index)] |
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[231] | 200 | ; points : complex containing couples of points in a side and the other |
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[150] | 201 | ; side of the line. We have to delete duplicates. |
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[29] | 202 | points = dcomplex(points1, points2) |
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| 203 | points = points[uniq(points, sort(points))] |
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| 204 | symetrique = dcomplex(imaginary(points), double(points)) |
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| 205 | points = points[where(points-shift(temporary(symetrique), 1) NE 0)] |
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[150] | 206 | ; points1 coordinates of the point of the triangle which is alone in a side of the line. |
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| 207 | ; point2 coordinates of the other point of the triangle in the other side of the line. |
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[29] | 208 | points1 = complex(glam[ double(points)], gphi[ double(points)]) |
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| 209 | points2 = complex(glam[imaginary(points)], gphi[imaginary(points)]) |
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[150] | 210 | ; droites equations of line whose we look for the intersection wit the section. |
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[29] | 211 | droites = linearequation(points1, points2) |
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| 212 | inter = lineintersection(droites, abc#replicate(1, n_elements(points1) ) ) |
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[2] | 213 | |
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[150] | 214 | ; Geographic coordinates of points we look for on the section. |
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[29] | 215 | glamaxe = float(inter) |
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| 216 | gphiaxe = imaginary(inter) |
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[150] | 217 | ; We arrange them in the growing order between boundaries of the section. |
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[231] | 218 | if strpos(type, 'x') NE -1 then BEGIN |
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[29] | 219 | sort = sort(glamaxe) |
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| 220 | glamaxe = glamaxe[sort] |
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| 221 | inbox = where(glamaxe GE lon1 AND glamaxe LE lon2) |
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| 222 | glamaxe = glamaxe[inbox] |
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| 223 | sort = sort[inbox] |
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| 224 | gphiaxe = gphiaxe[sort] |
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| 225 | ENDIF ELSE BEGIN |
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| 226 | sort = sort(gphiaxe) |
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| 227 | gphiaxe = gphiaxe[sort] |
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| 228 | inbox = where(gphiaxe GE lat1 AND gphiaxe LE lat2) |
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| 229 | gphiaxe = gphiaxe[inbox] |
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| 230 | sort = sort[inbox] |
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| 231 | glamaxe = glamaxe[sort] |
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| 232 | ENDELSE |
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| 233 | points = points[sort] |
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| 234 | points1 = points1[sort] |
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| 235 | points2 = points2[sort] |
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| 236 | inter = inter[sort] |
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| 237 | poids = abs(points2-inter)/abs(points2-points1) |
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[2] | 238 | |
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| 239 | ;--------------------- |
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[29] | 240 | array = litchamp(field) |
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| 241 | array = fitintobox(array) |
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| 242 | if array[0] EQ -1 THEN BEGIN |
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| 243 | res = -1 |
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| 244 | return |
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| 245 | ENDIF |
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| 246 | if n_elements(valmask) EQ 0 THEN valmask = 1e20 |
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| 247 | taille = size(array) |
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| 248 | if jpt GT 1 AND taille[0] GE 3 AND strpos(type, 't') EQ -1 then BEGIN |
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| 249 | direc = 't' |
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| 250 | array = grossemoyenne(array, 't') |
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| 251 | taille = size(array) |
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| 252 | jpt = 1 |
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| 253 | ENDIF |
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| 254 | case 1 of |
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[2] | 255 | ;---------------------------------------------------------------------------- |
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| 256 | ;xy |
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| 257 | ;---------------------------------------------------------------------------- |
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[29] | 258 | taille[0] EQ 2:BEGIN |
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| 259 | value1 = array[double(points)] |
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| 260 | terre = where(value1 GT valmask/10) |
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| 261 | if terre[0] NE -1 then value1[terre] = !values.f_nan |
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| 262 | value2 = array[imaginary(points)] |
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| 263 | terre = where(value2 GT valmask/10) |
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| 264 | if terre[0] NE -1 then value2[terre] = !values.f_nan |
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| 265 | res = poids*value1+(1-poids)*value2 |
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| 266 | END |
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[2] | 267 | ;---------------------------------------------------------------------------- |
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| 268 | ;xyz |
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| 269 | ;---------------------------------------------------------------------------- |
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[29] | 270 | taille[0] EQ 3 AND jpt EQ 1:BEGIN |
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[231] | 271 | npoints = n_elements(points) |
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[29] | 272 | index = double(points)#replicate(1, nz)+replicate(nx*ny, npoints)#lindgen(nz) |
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| 273 | value1 = array[index] |
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| 274 | terre = where(value1 GT valmask/10) |
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| 275 | if terre[0] NE -1 then value1[terre] = !values.f_nan |
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| 276 | index = imaginary(points)#replicate(1, nz)+replicate(nx*ny, npoints)#lindgen(nz) |
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| 277 | value2 = array[index] |
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| 278 | terre = where(value2 GT valmask/10) |
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| 279 | if terre[0] NE -1 then value2[terre] = !values.f_nan |
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| 280 | poids = poids#replicate(1, nz) |
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| 281 | res = poids*value1+(1-poids)*value2 |
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[150] | 282 | ; average following z ? |
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[29] | 283 | if strpos(type, 'z') EQ -1 then begin |
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| 284 | nan = where(finite(res) EQ 0) |
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| 285 | if vargrid EQ 'W' then e3 = e3w[firstzw:lastzw] ELSE e3 = e3t[firstzt:lastzt] |
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| 286 | weight = replicate(1, npoints)#e3 |
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| 287 | if nan[0] NE -1 then weight[nan] = !values.f_nan |
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| 288 | totalweight = total(weight, 2, /nan) |
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| 289 | zero = where(totalweight EQ 0) |
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| 290 | if zero[0] NE -1 then totalweight[zero] = !values.f_nan |
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| 291 | res = total(res*weight, 2, /nan)/totalweight |
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| 292 | direc = 'z'+string(byte(testvar(var = toto))) |
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| 293 | endif |
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| 294 | END |
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[2] | 295 | ;---------------------------------------------------------------------------- |
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| 296 | ;xyt |
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| 297 | ;---------------------------------------------------------------------------- |
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[29] | 298 | taille[0] EQ 3 AND jpt NE 1:BEGIN |
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[231] | 299 | npoints = n_elements(points) |
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[29] | 300 | index = double(points)#replicate(1, jpt)+replicate(nx*ny, npoints)#lindgen(jpt) |
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| 301 | value1 = array[index] |
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| 302 | terre = where(value1 GT valmask/10) |
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| 303 | if terre[0] NE -1 then value1[terre] = !values.f_nan |
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| 304 | index = imaginary(points)#replicate(1, jpt)+replicate(nx*ny, npoints)#lindgen(jpt) |
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| 305 | value2 = array[index] |
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| 306 | terre = where(value2 GT valmask/10) |
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| 307 | if terre[0] NE -1 then value2[terre] = !values.f_nan |
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| 308 | poids = poids#replicate(1, jpt) |
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| 309 | res = poids*value1+(1-poids)*value2 |
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| 310 | END |
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[2] | 311 | ;---------------------------------------------------------------------------- |
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| 312 | ;xyzt |
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| 313 | ;---------------------------------------------------------------------------- |
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[29] | 314 | taille[0] EQ 4:BEGIN |
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[231] | 315 | npoints = n_elements(points) |
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[29] | 316 | index = double(points)#replicate(1, nz*jpt)+replicate(nx*ny, npoints)#lindgen(nz*jpt) |
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| 317 | index = reform(index, npoints, nz, jpt, /over) |
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| 318 | value1 = array[index] |
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| 319 | terre = where(value1 GT valmask/10) |
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| 320 | if terre[0] NE -1 then value1[terre] = !values.f_nan |
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| 321 | index = imaginary(points)#replicate(1, nz*jpt)+replicate(nx*ny, npoints)#lindgen(nz*jpt) |
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| 322 | index = reform(index, npoints, nz, jpt, /over) |
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| 323 | value2 = array[index] |
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| 324 | terre = where(value2 GT valmask/10) |
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| 325 | if terre[0] NE -1 then value2[terre] = !values.f_nan |
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| 326 | poids = poids#replicate(1, nz*jpt) |
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| 327 | poids = reform(poids, npoints, nz, jpt, /over) |
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| 328 | res = poids*value1+(1-poids)*value2 |
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[150] | 329 | ; average following z ? |
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[29] | 330 | if strpos(type, 'z') EQ -1 then begin |
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| 331 | nan = where(finite(res) EQ 0) |
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| 332 | if vargrid EQ 'W' then e3 = e3w[firstzw:lastzw] ELSE e3 = e3t[firstzt:lastzt] |
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| 333 | weight = replicate(1, npoints)#e3 |
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| 334 | weight = weight[*]#replicate(1, jpt) |
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| 335 | weight = reform(weight, npoints, nz, jpt, /over) |
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| 336 | if nan[0] NE -1 then weight[nan] = !values.f_nan |
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| 337 | totalweight = total(weight, 2, /nan) |
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| 338 | zero = where(totalweight EQ 0) |
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| 339 | if zero[0] NE -1 then totalweight[zero] = !values.f_nan |
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| 340 | res = total(res*weight, 2, /nan)/totalweight |
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| 341 | direc = 'z'+string(byte(testvar(var = toto))) |
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| 342 | endif |
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| 343 | END |
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| 344 | endcase |
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[2] | 345 | ;--------------------- |
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| 346 | |
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[29] | 347 | terre = where(finite(res) EQ 0) |
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| 348 | if terre[0] NE -1 then res[terre] = valmask |
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[2] | 349 | |
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[231] | 350 | if n_elements(showbuild) then BEGIN |
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[29] | 351 | winsave = !window |
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| 352 | psave = !p |
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| 353 | xsave = !x |
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| 354 | ysave = !y |
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[114] | 355 | plt, findgen(nx, ny), /nodata, /nofill, /rempli, title = '', subtitle = '' $ |
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| 356 | , coast_thick = 2, window = showbuild |
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[29] | 357 | !p.title = '' |
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| 358 | !p.subtitle = '' |
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[2] | 359 | |
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[29] | 360 | plots, [endpoints[0], endpoints[2]], [endpoints[1], endpoints[3]], color = 50 |
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| 361 | plots, [endpoints[0], endpoints[2]], [endpoints[1], endpoints[3]], color = 50, psym = 2, thick = 2 |
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[2] | 362 | |
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[29] | 363 | FOR i = 0, n_elements(points1)-1 DO $ |
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| 364 | plots, [float(points1[i]), float(points2[i])] $ |
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| 365 | , [imaginary(points1[i]), imaginary(points2[i])], color = 150 |
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[2] | 366 | |
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[29] | 367 | plots, float(points1), imaginary(points1), color = 150, psym = 1 |
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| 368 | plots, float(points2), imaginary(points2), color = 150, psym = 1 |
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| 369 | plots, float(inter), imaginary(inter), color = 250, psym = 1 |
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[114] | 370 | |
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| 371 | ; ?? bug ?? IF terre[0] NE -1 THEN plots, float(terre[inter]), imaginary(terre[inter]), color = 0, psym = 1 |
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[231] | 372 | |
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[29] | 373 | ; dummy = '' |
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| 374 | ; read, dummy, prompt = 'press return to continue' |
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| 375 | IF !d.name EQ 'PS' THEN erase ELSE wset, winsave |
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| 376 | !p = psave |
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| 377 | !x = xsave |
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| 378 | !y = ysave |
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[231] | 379 | ENDIF |
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[2] | 380 | |
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[29] | 381 | restoreboxparam, 'boxparam4section.dat' |
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[2] | 382 | |
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| 383 | ;--------------------- |
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[29] | 384 | return |
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[2] | 385 | end |
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