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[/Title (PostScript pictures: http://farbe.li.tu-berlin.de/AEP6/AEP6.HTM)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
 /Subject (goto: http://farbe.li.tu-berlin.de http://130.149.60.45/~farbmetrik)
 /Keywords (image reproduction, colour devices)
 /Creator (klaus.richter@mac.com)
 /CreationDate (D:2020090112000)
 /ModDate (D:2020090112000)
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[ /View [ /Fit ]
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[/Title (PostScript pictures: farbe.li.tu-berlin.de/AEP6/AEP6.HTM)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
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 88.7 89.3 90.0 89.8 89.6 88.6 87.7 85.5 83.3 83.5 83.7 
 81.9 80.0 80.1 80.2 81.2 82.3 80.3 78.3 74.0 69.7 70.7 
 71.6 73.0 74.3 68.0 61.6 65.7 69.9 72.5 75.1 69.3 63.6 55.0 
 46.4 56.6 66.8 65.1] def

/SD50 %80 data 5 nm CIE 15.3, Seite 30
[24.5 27.2 29.9 39.6 49.3 52.9 56.5 58.3 60.0 58.9
 57.8 66.3 74.8 81.0 87.2 88.9 90.6 91.0 91.4 93.2
 95.1 93.5 92.0 93.8 95.7 96.2 96.6 96.8 97.1 99.6
102.1 101.4 100.8 101.5 102.3 101.2 100.0 98.9 97.7 98.3
 98.9 96.2 93.5 95.6 97.7 98.5 99.3 99.2 99.0 97.4
 95.7 97.3 98.9 97.3 95.7 96.9 98.2 100.6 103.0 101.1
 99.1 93.3 87.4 89.5 91.6 92.2 92.9 84.9 76.9 81.7
 86.5 89.5 92.6 85.4 78.2 68.0 57.7 70.3 82.9 0.0] def %0.0 not used

 
/F2  %3x80 data
[.001368 .002236 .004243 .007650 .01431 .02319 .04351 .07763 
 .1344 .2148 .2839 .3285 .3483 .3481 .3362 .3187 .2908 .2511 
 .1954 .1421 .09564 .05795 .03201 .01470 .0049 .0024 .0093 .0291 
 .06327 .1096 .1655 .2257 .2904 .3597 .4334 .5121 .5945 .6784 
 .7621
 .8425 .9163 .9786 1.0263 1.0567 1.0622 1.0456 1.0026 .9384 
 .8544 .7514 .6424 .5419 .4479 .3608 .2835 .2187 .1649 .1212 
 .0874 .0636 .04677 .03290 .02270 .01584 .01136 .00811 .00579 
 .004109 .002899 .002049 .001440 .0009999 .0006901 
 .000476 .0003323 .0002348 .0001662 .0001174 .00008308 .00005871 
 .000039 .000064 .00012 .000217 .000396 .00064 .00121 .00218 
 .004 .0073 .0116 .01684 .023 .0298 .0380 .048 .06 .0739 
 .09098 .1126 .139 .1693 .208 .2586 .323 .4073 .503 .6082 .71 
 .7932 .862 .9149 .954 .9803 .995 1.0 .995 .9786 .952 
 .9154 .870 .8163 .757 .6949 .631 .5668 .503 .4412 .381 .321 
 .265 .217 .175 .1382 .107 .0816 .061 .04458 .032 .0232 .017 
 .01192 .00821 .005723 .004102 .002929 .002091 .001484 
 .001047 .00074 .00052 .0003611 .0002492 .0001719 
 .00012 .0000848 .00006 .0000424 .00003 .0000212 
 .00645 .01055 .02005 .03621 .06785 .1102 .2074 .3713 .6456 
 1.0391 1.3856 1.623 1.7471 1.7826 1.7721 1.7441 1.6692 
 1.5281 1.2876 1.0419 .8130 .6162 .4652 .3533 .2720 .2123 
 .1582 .1117 .07825 .05725 .04216 .02984 .0203 .0134 .00875 
 .00575 .0039 .00275 .0021 .0018 .00165 .0014 .0011 .0010 .0008 
 .0006 .00034 .00024 .00019 .0001 .00005 .00003 .00002 .00001 % 26*0 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 %26
] def

/IN 27 array def
/IN
[0000 0001 0002 0003 0004 0005 0006 0007 0008
 0243 0244 0245 0246 0247 0248 0249 0250 0251
 0486 0487 0488 0489 0490 0491 0492 0493 0494] def

/LUTL* 99 array def
/LUTA* 99 array def
/LUTB* 99 array def

/LUTL*a 99 array def
/LUTA*a 99 array def
/LUTB*a 99 array def

/LUTL*b 99 array def
/LUTA*b 99 array def
/LUTB*b 99 array def
  
/LUTL*c 99 array def
/LUTA*c 99 array def
/LUTB*c 99 array def

/habton 99 array def
/indton 99 array def
/LNWton 99 array def
/ANWton 99 array def
/BNWton 99 array def

/RXA 41 array def
/RAA 41 array def
/Xt 17 array def
/Yt 17 array def
/Zt 17 array def
/LAB*Lt 17 array def
/LAB*at 17 array def
/LAB*bt 17 array def
/LAB*Lta 17 array def
/LAB*ata 17 array def
/LAB*bta 17 array def

/L*ton 5 array def

/RYGBLAB* 12 array def
/RYGBLAB*[
  39.92  58.74  27.99 % R CIE No.09 elementary colours in LAB, D65
  81.26  -2.89  71.56 % J CIE No.10
  52.23 -42.42  13.60 % G CIE No.11
  30.57   1.41 -46.47 % B CIE No.12
] def

/RYGB16 16 array def
/RYGB16 [(R00Y=R) (R25Y) (R50Y) (R75Y)
         (Y00G=Y) (Y25G) (Y50G) (Y75G)
         (G00B=G) (G25B) (G50B) (G75B)
         (B00R=B) (B25R) (B50R) (B75R)] def
/L05 5 array def
/L05 [(N000W=N) (N025W) (N050W) (N075W) (N100W=W)] def

/RGB*16 16 array def
/RGB*16 [(1.00 0.00 0.00) (1.00 0.25 0.00) (1.00 0.50 0.00) (1.00 0.75 0.00)
         (1.00 1.00 0.00) (0.75 1.00 0.00) (0.50 1.00 0.00) (0.25 1.00 0.00)
         (0.00 1.00 0.00) (0.00 1.00 0.50) (0.00 1.00 1.00) (0.00 0.50 1.00)
         (0.00 0.00 1.00) (0.50 0.00 1.00) (1.00 0.00 1.00) (1.00 0.00 0.50)
        ] def
/RGBNM*16 16 array def
/RGBNW*16 [(1.00 0.00 0.00) (0.50 0.00 0.00) (1.00 0.50 0.50) ()
           (1.00 1.00 0.00) (0.50 0.50 0.00) (1.00 1.00 0.50) ()
           (0.00 1.00 0.00) (0.00 0.50 0.00) (0.50 1.00 0.50) ()
           (0.00 0.00 1.00) (0.00 0.00 0.50) (0.50 0.50 1.00) ()] def

/RGB*005 05 array def
/RGB*005 [(0.00 0.00 0.00) (0.25 0.25 0.25) (0.50 0.50 0.50)
          (0.75 0.75 0.75) (1.00 1.00 1.00)] def

/XD65W  95.04 def
/YD65W 100.00 def
/ZD65W 108.88 def

/XD50W  96.42 def
/YD50W 100.00 def
/ZD50W  82.51 def

/DAKTE [(D65) (D50)] def

/cvi100 {100 mul cvi /xi exch def
         xi 0 lt {/vorz -1 def} {/vorz 1 def} ifelse
         /xia xi abs def
         vorz -1 eq {(\255) show} {(0) show} ifelse
         xia    0 ge xia    9 le     {(0000) show} if
         xia   10 ge xia   99 le and {(000) show} if
         xia  100 ge xia  999 le and {(00) show} if
         xia 1000 ge xia 9999 le and {(0) show} if
         xia cvishow
         } bind def

gsave

72 90 translate

0.01 MM dup scale

/xwide 12000 def
20 setlinewidth
1 1 1 setrgbcolor
0 0 moveto xwide     0 rlineto 0 8000 rlineto
           xwide neg 0 rlineto closepath fill
0 0 0 setrgbcolor
0 0 moveto xwide     0 rlineto 0 8000 rlineto
           xwide neg 0 rlineto closepath stroke

/XN0 2.39 def
/YN0 2.51 def
/ZN0 2.74 def

/XN1 2.39 1.0251 mul def
/YN1 2.51 1.0251 mul def %-> 2,71
/ZN1 2.74 1.0251 mul def

/K 0 def %0: Yfak=1, 1: Yfak=0.886
/YFa 0 def %0: YNK=0.01, 1: YNK=2,71->2,51
 
K 0 eq {/Yfak 1.0000 def} if
K 1 eq {/Yfak 0.8860 def} if

TK
0 setgray
100 -200 moveto (AEP60-3N) show

%************************************************
%DEFINES 48 STEP HUE CIRCLE and 9 GREY STEPS

/TS {170 /Times-ISOL1 FS} bind def
/TK {200 /Times-ISOL1 FS} bind def
/TM {270 /Times-ISOL1 FS} bind def
/TG {320 /Times-ISOL1 FS} bind def

/TIS {170 /TimesI-ISOL1 FS} bind def
/TIK {200 /TimesI-ISOL1 FS} bind def
/TIM {270 /TimesI-ISOL1 FS} bind def
/TIG {320 /TimesI-ISOL1 FS} bind def

/TBS {170 /TimesB-ISOL1 FS} bind def
/TBK {200 /TimesB-ISOL1 FS} bind def
/TBM {270 /TimesB-ISOL1 FS} bind def
/TBG {320 /TimesB-ISOL1 FS} bind def

/TBIS {170 /TimesBI-ISOL1 FS} bind def
/TBIK {200 /TimesBI-ISOL1 FS} bind def
/TBIM {270 /TimesBI-ISOL1 FS} bind def
/TBIG {320 /TimesBI-ISOL1 FS} bind def

/CBKK {200 /CourierB-ISOL1 FS} bind def
/CBK {250 /CourierB-ISOL1 FS} bind def
/CBM {300 /CourierB-ISOL1 FS} bind def
/CBG {350 /CourierB-ISOL1 FS} bind def

/TSS {170 /Symbol FS} bind def
/TSK {200 /Symbol FS} bind def
/TSM {270 /Symbol FS} bind def
/TSG {320 /Symbol FS} bind def

/F89 0.8859 def
% achromatic (D65), (D50), (C00) colours
/XLWD65100  95.04 def
/YLWD65100 100.00 def
/ZLWD65100 108.88 def

/XLWD65089  95.04 F89 mul def
/YLWD65089 100.00 F89 mul def
/ZLWD65089 108.88 F89 mul def

/XLWD50100  96.42 def
/YLWD50100 100.00 def
/ZLWD50100  82.51 def

/XLWD50089  96.42 F89 mul def
/YLWD50089 100.00 F89 mul def
/ZLWD50089  82.51 F89 mul def

/XLWC00100  94.94 def
/YLWC00100 100.00 def
/ZLWC00100 108.76 def

/XLWC00089  94.94 F89 mul def
/YLWC00089 100.00 F89 mul def
/ZLWC00089 108.76 F89 mul def

/XYZC00100 303 array def
/LABC00100 303 array def
/YABC00100 303 array def

/XYZC00089 303 array def
/LABC00089 303 array def
/YABC00089 303 array def

/DecodeXYZ* {dup 6 29 div ge {dup dup mul mul}
            {4 29 div sub 108 841 div mul} ifelse} bind def

/cvishow {cvi 6 string cvs show} def
/cvsshow1 {10 mul cvi 0.1 mul 7 string cvs show} def
/cvsshow2 {100 mul cvi 0.01 mul 7 string cvs show} def
/cvsshow3 {1000 mul cvi 0.001 mul 7 string cvs show} def

/cvishowb {cvi 6 string cvs show ( ) show} def
/cvsshow1b {10 mul cvi 0.1 mul 7 string cvs show ( ) show} def
/cvsshow2b {100 mul cvi 0.01 mul 7 string cvs show ( ) show} def
/cvsshow3b {1000 mul cvi 0.001 mul 7 string cvs show ( ) show} def

/cvishowr {0.5 add cvi 6 string cvs show} def
/cvsshow1r {0.05 add 10 mul cvi 0.1 mul 7 string cvs show} def
/cvsshow2r {0.005 add 100 mul cvi 0.01 mul 7 string cvs show} def
/cvsshow3r {0.0005 add 1000 mul cvi 0.001 mul 7 string cvs show} def

/cvi100 {100 mul cvi /xi exch def
         xi 0 lt {/vorz -1 def} {/vorz 1 def} ifelse
         /xia xi abs def
         vorz -1 eq {(\255) show} {(0) show} ifelse
         xia    0 ge xia    9 le     {(0000) show} if
         xia   10 ge xia   99 le and {(000) show} if
         xia  100 ge xia  999 le and {(00) show} if
         xia 1000 ge xia 9999 le and {(0) show} if
         xia cvishow
         } bind def

/cvi1000 {1000 mul cvi /xi exch def
          xi    0 ge xi    9 le     {(000) show} if
          xi   10 ge xi   99 le and {(00) show} if
          xi  100 ge xi  999 le and {(0) show} if
          xi cvishow
         } bind def

/SD65 80 array def %380 bis 775 mit deltalambda=05
/SD50 80 array def %380 bis 775 mit deltalambda=05
/SP40 80 array def %380 bis 775 mit deltalambda=05
/SA00 80 array def %380 bis 775 mit deltalambda=05
/SE00 80 array def %380 bis 775 mit deltalambda=05
/SC00 80 array def %380 bis 775 mit deltalambda=05
/SP00 80 array def %380 bis 775 mit deltalambda=05
/SQ00 80 array def %380 bis 775 mit deltalambda=05

/SDAK 80 array def %380 bis 775 mit deltalambda=05
/RA   80 array def %380 bis 770 nm
/F2  240 array def %3 x 80 Daten fuer Bereich 380 bis 770nm
/F2N 240 array def %normiert auf Y=100 fuer D65 und 10nm

%C
%C      LITERATURQUELLEN  LICHTARTEN
%C      SA,SC,SD65,  CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 1.1.1, SEITE 81
%C      SD55,SD75,   CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 1.1.4, SEITE 85
%C                   LINEAR INTERPOLIERT VON 5 ZU 5NM
%C      SG,SP,SXE,   DIN 5033, BLATT 7 ,SEITE 8-9
%C                   AUSGABE  1966

/SD65 %80 data 5 nm
[50.0  52.3 54.6 68.7 82.8 87.1 91.5 92.5 93.4 90.1 86.7 
 95.8 104.9 110.9 117.0 117.4 117.8 116.3 114.9 115.4 115.9 
 112.4 108.8 109.1 109.4 108.6 107.8 106.3 104.8 106.2 107.7 
 106.0 104.4 104.2 104.0 102.0 100.0 98.2 96.3 96.1 95.8 92.2 
 88.7 89.3 90.0 89.8 89.6 88.6 87.7 85.5 83.3 83.5 83.7 
 81.9 80.0 80.1 80.2 81.2 82.3 80.3 78.3 74.0 69.7 70.7 
 71.6 73.0 74.3 68.0 61.6 65.7 69.9 72.5 75.1 69.3 63.6 55.0 
 46.4 56.6 66.8 65.1] def

/SD50 %80 data 5 nm CIE 15.3, Seite 30; aus JE540-1N.PS
[24.5 27.2 29.9 39.6 49.3 52.9 56.5 58.3 60.0 58.9
 57.8 66.3 74.8 81.0 87.2 88.9 90.6 91.0 91.4 93.2
 95.1 93.5 92.0 93.8 95.7 96.2 96.6 96.8 97.1 99.6
102.1 101.4 100.8 101.5 102.3 101.2 100.0 98.9 97.7 98.3
 98.9 96.2 93.5 95.6 97.7 98.5 99.3 99.2 99.0 97.4
 95.7 97.3 98.9 97.3 95.7 96.9 98.2 100.6 103.0 101.1
 99.1 93.3 87.4 89.5 91.6 92.2 92.9 84.9 76.9 81.7
 86.5 89.5 92.6 85.4 78.2 68.0 57.7 70.3 82.9 0.0] def %0.0 not used

/SA00 %80 data 5 nm CIE 15.3  Seite 30; aus JE540-1N.PS
[9.80 10.90 12.09 13.35 14.71 16.15 17.68 19.29 20.99
 22.79 24.67 26.64 28.70 30.85 33.09 35.41 37.81 40.30
 42.87 45.52 48.24 51.04 53.91 56.85 59.86 62.93 66.06
 69.25 72.50 75.79 79.13 82.52 85.95 89.41 92.91 96.44
 100.00 103.58 107.18 110.80 114.44 118.08 121.73 125.39
 129.04 132.70 136.35 139.99 143.62 147.24 150.84 154.42
 157.98 161.52 165.03 168.51 171.96 175.38 178.77 182.12
 185.43 188.70 191.93 195.12 198.26 201.36 204.41 207.41
 210.36 213.27 216.12 218.92 221.67 224.36 227.00 229.59
 232.12 234.59 237.01 239.37 0.0] def %0.0 not used

% AUS BILDPLA.FOR aus vrbam/wrpos:KRPROG.FOR, 5987-6023 5.10.92
%C     PROGRAMM ZUR BERECHNUNG DER RELATIVEN SPEKTRALEN STRAHLUNGSVERTEI-
%C     LUNG EINES HOHLRAUMSTRAHLERS ALS FUNKTION DER WELLENLAENGE LAMDA  
%C     BEI GEGEBENER TEMPERATUR T                                        
%C     VERWENDETE VARIABLE                                               
%C        T                   TEMPERATUR                                 
%C        C2                  PLANCKSCHE KONSTANTE (=1.4388 CM K (1967)) 
%C        LAMDA(I)            WELLENLAENGE                               
%C        S(I)                STRAHLUNGSVERTEILUNG DES HOHLRAUMSTRAHLERS 
%C                                                                       
%C     LITERATUR OFFIZIELLE EMPFEHLUNGEN DER CIE,DEUTSCHE VERSION,       
%C               CA. 1969, SEITE 21 UND TABELLE 1.1.1                    
%C                                                                       
%SDP4 80 array def %380 bis 775 mit deltalambda=05
%      DO 50 I=1,54                                                      
%   50 S(I)=100.
%     1*(560./FLOAT(LAMDA(I)))**5
%     2*(EXP(C2/(560.*10.**(-7)*T))-1.)
%     3/(EXP(C2/(FLOAT(LAMDA(I))*10.**(-7)*T))-1.)

%new CIE 15.3:2004, Eq. (3.1) page 2
%S(I) = [100{560/lambda}**5] [exp{(c2*10**7)/(TNC*560   )} - 1]
%                           /[exp{(c2*10**7)/(TNC*lambda)} - 1]
% exp = e {...} = 2.71 {...} 

%/TNC 2848 def %NLA
/TNC 4000 def
/EE 2.718281 def %e=mac pocket calculator
/C2 1.4350000 10 7 exp mul def
/lamd 80 array def


0 1 79 {%i=0,79
        /i exch def
        /lambda 380 i 5 mul add def
        lamd i lambda put
        /E1 560 lambda div 5 exp def

        /E4 C2 TNC 560    mul div def
        /E5 C2 TNC lambda mul div def

        /E6 EE E4 exp def
        /E7 EE E5 exp def

        SP40 i
        E1 100 mul E6 1 sub 
                   E7 1 sub div mul

        put
       } for %i=0,79

/xex 10 2 exp def
/yex EE 2 exp def

/SE00 %80 data 5 nm
[100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0] def %0.0 not used

/SC00 %80 data 5 nm
[ 33.00  39.92  47.40  55.17  63.30  71.81  80.60  89.53  98.10 105.80
 112.40 117.75 121.50 123.45 124.00 123.60 123.10 123.30 123.80 124.09
 123.90 122.92 120.70 116.90 112.10 106.98 102.30  98.81  96.90  96.78
  98.00  99.94 102.10 103.95 105.20 105.67 105.30 104.11 102.30 100.15
  97.80  95.43  93.20  91.22  89.70  88.83  88.40  88.19  88.10  88.06
  88.00  87.86  87.80  87.99  88.20  88.20  87.90  87.22  86.30  85.30
  84.00  82.21  80.20  78.24  76.30  74.36  72.40  70.40  68.30  66.30
  64.40  62.80  61.50  60.20  59.20  58.50  58.10  58.00  58.20  58.50
 ] def %0.0 not used

0 1 79 {/i exch def %i=0,79
        /lamda 380 i 5 mul add def
        SP00 i SE00 i get lamda 560 div mul put
        SQ00 i SE00 i get 1120 lamda sub 560 div mul put
       } for %i=0,79
 
%C      LITERATURQUELLEN  SPEKTRALWERTE
%C       F2          CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 2.1, SEITE 93-102

/F2  %3x80 data
[.001368 .002236 .004243 .007650 .01431 .02319 .04351 .07763 
 .1344 .2148 .2839 .3285 .3483 .3481 .3362 .3187 .2908 .2511 
 .1954 .1421 .09564 .05795 .03201 .01470 .0049 .0024 .0093 .0291 
 .06327 .1096 .1655 .2257 .2904 .3597 .4334 .5121 .5945 .6784 
 .7621
 .8425 .9163 .9786 1.0263 1.0567 1.0622 1.0456 1.0026 .9384 
 .8544 .7514 .6424 .5419 .4479 .3608 .2835 .2187 .1649 .1212 
 .0874 .0636 .04677 .03290 .02270 .01584 .01136 .00811 .00579 
 .004109 .002899 .002049 .001440 .0009999 .0006901 
 .000476 .0003323 .0002348 .0001662 .0001174 .00008308 .00005871 
 .000039 .000064 .00012 .000217 .000396 .00064 .00121 .00218 
 .004 .0073 .0116 .01684 .023 .0298 .0380 .048 .06 .0739 
 .09098 .1126 .139 .1693 .208 .2586 .323 .4073 .503 .6082 .71 
 .7932 .862 .9149 .954 .9803 .995 1.0 .995 .9786 .952 
 .9154 .870 .8163 .757 .6949 .631 .5668 .503 .4412 .381 .321 
 .265 .217 .175 .1382 .107 .0816 .061 .04458 .032 .0232 .017 
 .01192 .00821 .005723 .004102 .002929 .002091 .001484 
 .001047 .00074 .00052 .0003611 .0002492 .0001719 
 .00012 .0000848 .00006 .0000424 .00003 .0000212 
 .00645 .01055 .02005 .03621 .06785 .1102 .2074 .3713 .6456 
 1.0391 1.3856 1.623 1.7471 1.7826 1.7721 1.7441 1.6692 
 1.5281 1.2876 1.0419 .8130 .6162 .4652 .3533 .2720 .2123 
 .1582 .1117 .07825 .05725 .04216 .02984 .0203 .0134 .00875 
 .00575 .0039 .00275 .0021 .0018 .00165 .0014 .0011 .0010 .0008 
 .0006 .00034 .00024 .00019 .0001 .00005 .00003 .00002 .00001 % 26*0 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 %26
] def

/F10 %3x80 data
[.00016 .0006624 .002362 .007242 .01911 .0434 .08474 .1406 .2045 
 .2647 .3147 .3577 .3837 .3867 .3707 .343 .3023 .2541 .1956 .1323
  .08051 .04107 .01617 .005132 .003816 .01544 .03746 .07136 .1177
  .173 .2365 .3042 .3768 .4516 .5298 .6161 .7052 .7938 .8787 
 .9512 1.0142 1.0743 1.1185 1.1343 1.124 1.0891 1.0305 .9507 
 .8563 .7549 .6475 .5351 .4316 .3437 .2683 .2043 .1526 .1122 
 .08126 .05793 .04085 .02862 .019941 .01384 .0100 .006605 
 .004552 .003145 .002175 .001506 .001045 .0007274 .0005083 
 .0003564 .000251 .0001777 .0001264 .00009015 .00006453 .00004634 
 .00001736 .00007156 .0002534 .0007685 .002004 .004509 .008756 
 .01446 .02139 .0295 .03868 .0496 .06208 .0747 .08946 .1063 .1282 
 .1528 .1852 .2199 .2536 .2977 .3391 .3954 .4608 .5314 .6067 
 .6857 .7618 .8233 .8752 .9238 .962 .9822 .9918 .9991 .9973 .9824 
 .9555 .9152 .8689 .8256 .7774 .7203 .6583 .5939 .528 .4618 .3981 
 .3395 .2835 .2282 .1798 .1402 .1076 .08119 .06028 .0441 .0318 
 .0226 .0159 .01113 .007749 .0053751 .0037177 .002565 .001768 
 .001222 .0008462 .0005864 .0004074 .000284 .0001987 .0001395 
 .00009843 .00006982 .00004974 .00003554 .00002549 .00001834 
 .0007048 .002928 .01048 .03234 .08601 .1971 .3894 .6568 .9725 
 1.2825 1.5535 1.7985 1.9673 2.0273 1.9948 1.9007 1.7454 
 1.5549 1.3176 1.0302 .7721 .5701 .4152 .3024 .2185 .1592 .112 
 .08225 .06071 .04305 .03045 .02058 .01368 .007918 .003988 
 .001091 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %30
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %40
 0.0 0.0 0.0 0.0 %44
] def


%calculation of transformation data
/FARBE 27 array def
/FARBE [(R) (m) ( 561_770) %00
        (Y) (m) ( 520_770) %01
        (G) (m) ( 475_573) %02
        (C) (m) ( 380_561) %03
        (B) (m) ( 380_495) %04
        (M) (m) ( 573_475) %05
        (N) (0) ( 380_770) %06
        (W) (0) ( 380_770) %07
        (W) (1) ( 380_770) %08
       ] def

%/FARBE [(R) (m) ( 565_770) %00
%        (Y) (m) ( 520_770) %01
%        (G) (m) ( 475_575) %02
%        (C) (m) ( 380_565) %03
%        (B) (m) ( 380_495) %04
%        (M) (m) ( 575_475) %05
%        (N) (0) ( 380_770) %06
%        (W) (0) ( 380_770) %07
%        (W) (1) ( 380_770) %08
%       ] def

/xshift 10 array def %max 6 device + 4 elementary
/yshift 10 array def
/colori 10 array def

/xcolorl xcolor def
%0 1 1 {/xcolorl exch def %xcolorl=0,1
       

xcolorl 1 eq {0 1 79 {/i exch def %i=0,79
                      F2 i F10 i get put
                     } for %i=0,79
             } if

/YKSUM 0 def %For CIE Illuminant E
0 1 79 {/i exch def %i=0,1,79
        /YKSUM YKSUM F2  80 i add get add def
} for %i=0,1,79

/F2N 240 array def
0 1 79 {/i exch def %i=0,1,79
        F2N  00 i add F2  00 i add get YKSUM div 100 mul put
        F2N  80 i add F2  80 i add get YKSUM div 100 mul put
        F2N 160 i add F2 160 i add get YKSUM div 100 mul put
} for %i=0,1,79

/FXN 80 array def %FXN 0 = F2N imax
/FYN 80 array def
/FZN 80 array def
%defines FXN, FYN, FZN 0 to 79
0 1 79 {/i exch def %i=0,79
        FXN i F2N 000 i add get put
        FYN i F2N 080 i add get put
        FZN i F2N 160 i add get put
} for %i=0,79

%special wavelength range with complementary colours for E?
/FXD 63 array def
/FYD 63 array def
/FZD 63 array def
/DOW 63 array def

00 1 60 {/i exch def %i=0,60 %range 400..700nm
         FXD i FXN 005 i add get put
         FYD i FYN 005 i add get put
         FZD i FZN 005 i add get put
         DOW i 400 i 5 mul add put %range 400 to 700
        } for %i=0,60

%for interpolation
FXD 61 FXD 60 get put
FYD 61 FYD 60 get put
FZD 61 FZD 60 get put

FXD 62 FXD 60 get put
FYD 62 FYD 60 get put
FZD 62 FZD 60 get put

/FAD 63 array def
/FBD 63 array def
/FCD 63 array def

20 setlinewidth
/xdel  1005 def
/ydel   393 def
/x0  050 def
/x1 -150 def

/TELi 8 array def
/TELi [(D65) (D50) (P40) (A00) (E00) (C00) (P00) (Q00)] def %7 illumin.

/Xi 79 array def %max 6 device colour + 4 elementary colours
/Yi 79 array def
/Zi 79 array def
/XANi 79 array def
/YANi 79 array def
/ZANi 79 array def

/xchartl 0 def

%calculation of XW,YW,ZW for illuminant D65, D50, ...
0 1 79 {/i exch def %i=0,79
        SDAK i xchartl 0 eq {SD65 i get} if
               xchartl 1 eq {SD50 i get} if
               xchartl 2 eq {SP40 i get} if
               xchartl 3 eq {SA00 i get} if
               xchartl 4 eq {SE00 i get} if
               xchartl 5 eq {SC00 i get} if
               xchartl 6 eq {SP00 i get} if
               xchartl 7 eq {SQ00 i get} if
               put
       } for %i=0,79

/YKSUM 0 def
0 1 79 {/i exch def %i=0,1,79
        /YKSUM YKSUM SDAK i get F2  80 i add get mul add def
} for %i=0,1,79

0 1 79 {/i exch def %i=0,1,79
        F2N  00 i add SDAK i get F2  00 i add get mul YKSUM div 100 mul put
        F2N  80 i add SDAK i get F2  80 i add get mul YKSUM div 100 mul put
        F2N 160 i add SDAK i get F2 160 i add get mul YKSUM div 100 mul put
} for %i=0,1,79

%XW,YW,ZW for white
/XW 0 def
/YW 0 def
/ZW 0 def
0 1 079 {/i exch def %i=0,79
         /XW XW F2N  00 i add get add def
         /YW YW F2N  80 i add get add def
         /ZW ZW F2N 160 i add get add def
        } for %i=0,79

/SUMW XW YW add ZW add def %for D65, D50, P40, A00, E00
/XANW XW SUMW div def
/YANW YW SUMW div def
/ZANW ZW SUMW div def

/AANW XW YW 0.0001 add div def
/BANW ZW YW 0.0001 add div 0.4 mul neg def

0 1 62 {/i exch def %i=0,62
        FAD i FXD i get put
        FBD i FYD i get put
        FCD i FZD i get put
       } for %i=0,62

/ix0 100 def
/ix1 ix0 2000 add def
/ixd 600 def
/ixd2 500 def

/iymax 16000 def
/idy 250 def
20 setlinewidth

/ymax 16600 def
/ydel   203 def

/ymax2 15900 def
/ymax3 16100 def
/xdel2   667 def
/ydel2   250 def
/ydel2t  300 def

/ymaxt ymax 400 sub def

/xpos 100 def

%/ymax ymax 800 sub def

%***************************************************
/proc_ABC_KNP_FWERTiX
{%BEG proc_ABC_KNP_FWERT

%input FAD,FBD,FCD, KNP
%output FWERTiX/Y/Z (i=1,4)

    kNP 1 ge {/FWERT1X FAD kNP 1 sub get def
              /FWERT1Y FBD kNP 1 sub get def
              /FWERT1Z FCD kNP 1 sub get def}
             {/FWERT1X FAD 0 get def %again 400nm for i=0
              /FWERT1Y FBD 0 get def
              /FWERT1Z FCD 0 get def} ifelse

    /FWERT2X FAD kNP get def
    /FWERT2Y FBD kNP get def
    /FWERT2Z FCD kNP get def

    /FWERT3X FAD kNP 1 add get def
    /FWERT3Y FBD kNP 1 add get def
    /FWERT3Z FCD kNP 1 add get def

    /FWERT4X FAD kNP 2 add get def
    /FWERT4Y FBD kNP 2 add get def
    /FWERT4Z FCD kNP 2 add get def

} bind def %END proc_ABC_KNP_FWERTiX

%*********************************************************
/proc_XIE_TN1
{%BEG proc_XIE_TN1

%input XIE, FWERTiX/Y/Z (i=1,4)
%output TN1

/A1N XIE       1 XIE sub mul XIE 2 sub mul 6 div   def
/A2N XIE 1 add XIE 1 sub mul XIE 2 sub mul 0.5 mul def
/A3N XIE 1 add XIE       mul 2 XIE sub mul 0.5 mul def
/A4N XIE 1 add XIE       mul XIE 1 sub mul 6 div   def
/FNX A1N FWERT1X mul
     A2N FWERT2X mul add
     A3N FWERT3X mul add
     A4N FWERT4X mul add def
/FNY A1N FWERT1Y mul
     A2N FWERT2Y mul add
     A3N FWERT3Y mul add
     A4N FWERT4Y mul add def
/FNZ A1N FWERT1Z mul
     A2N FWERT2Z mul add
     A3N FWERT3Z mul add
     A4N FWERT4Z mul add def
/TNX FNX FXU1 mul
     FNY FXU2 mul add
     FNZ FXU3 mul add def

} bind def %END proc_XIE_TN1

%*****************************************************
/i1i 60 array def
/i2i 60 array def
/idi 60 array def
/ici 60 array def

/w1i 60 array def
/w2i 60 array def
/wdi 60 array def
/wci 60 array def

/w1ci 60 array def
/w2ci 60 array def
/wdci 60 array def
/wcci 60 array def

/i1ib 60 array def
/i2ib 60 array def
/idib 60 array def
/icib 60 array def

/w1ib 60 array def
/w2ib 60 array def
/wdib 60 array def
/wcib 60 array def

/w1cib 60 array def
/w2cib 60 array def
/wdcib 60 array def
/wccib 60 array def

/i1ic 60 array def
/i2ic 60 array def
/idic 60 array def
/icic 60 array def

/w1ic 60 array def
/w2ic 60 array def
/wdic 60 array def
/wcic 60 array def

/w1cic 60 array def
/w2cic 60 array def
/wdcic 60 array def
/wccic 60 array def

0 1 59 {/i exch def %i=0,59
        i1i i 0 put
        i2i i 0 put
        idi i 0 put
        ici i 0 put

        w1i i 0 put
        w2i i 0 put
        wdi i 0 put
        wci i 0 put

        w1ci i (x) put
        w2ci i (x) put
        wdci i (x) put
        wcci i (x) put
        
       } for %i=0,59

/WEL1 60 array def %irregular definition
/WEL2 60 array def %irregular definition
      %0   1   2   3   4   5   6   7   8   9
/WEL1 [405 435 450 460 465 470 475 480 485 490
       495 500 510 520 530 540 545 550 555 560
      ] def

0 1 19 {/i exch def
        w1i i        WEL1 i get put
        w2i i 20 add WEL1 i get put
       } for

0 1 19 {/k exch def %k=0,19 %wavelength 405..700nm

        /j  WEL1 k get 400 sub 5 idiv def
        /ik k def
        /ik2 k 20 add def
       /FF1 FXD j get def %start at 405..700nm
       /FF2 FYD j get def
       /FF3 FZD j get def

       /U1 XW def
       /U2 YW def
       /U3 ZW def
       /FXU1 FF2 U3 mul FF3 U2 mul sub def
       /FXU2 FF3 U1 mul FF1 U3 mul sub def
       /FXU3 FF1 U2 mul FF2 U1 mul sub def

/INP -1 def
/IPN -1 def
%assumption jump from TN to TP from negativ to positiv
       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add def
               TN 0 le TP 0 gt and {/INP i def exit} if
              } for %i=1,60

       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add neg def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add neg def
               TN 0 le TP 0 gt and {/IPN i def exit} if
              } for %i=1,60

TM
%ix1 ixd 22 mul add iymax ik idy mul sub moveto INP cvishow
%ix1 ixd 23 mul add iymax ik idy mul sub moveto IPN cvishow
i1i ik INP put
i2i ik IPN put

%ix1 ixd 22 mul add iymax ik2 idy mul sub moveto IPN cvishow
%ix1 ixd 23 mul add iymax ik2 idy mul sub moveto INP cvishow
i1i ik2 IPN put
i2i ik2 INP put

%STOP1
%*********************************************************
/kNP INP def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE1 DOW INP get DOW INP 1 add get DOW INP get sub XIE mul add def
/XIENP XIE def

       } if %kNP>=0

%*********************************************************
/kNP IPN def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def
/FXU1 FXU1 neg def
/FXU2 FXU2 neg def
/FXU3 FXU3 neg def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE2 DOW IPN get DOW IPN 1 add get DOW IPN get sub XIE mul add def
/XIEPN XIE def

       } if %kNP>=0

%*********************************************************
%0 1 1 0 setcmyk_olvcolor
INP 0 ge {%INP>=0,-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 0.03 add cvishow %includes rounding failure
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE1 0.03 add cvishow
          w1i  ik DOWXIE1 put
          w1ci ik () put
          w2i  ik2 DOWXIE1 put
          w2ci ik2 () put
          /DOWEL1 DOWXIE1 def /DOWEL1c () def
         }%INP>=0
         {%INP=-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow (c) show
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LPP mul sub moveto
          w1i  ik DOWXIE2 put
          w1ci ik (c) put    
          w2i  ik2 DOWXIE2 put
          w2ci ik2 (c) put
%          DOWXIE2 cvishow (c) show
          /DOWEL1 DOWXIE2 def /DOWEL1c (c) def
         } ifelse %INP>=0,-1

%1 0 1 0 setcmyk_olvcolor
IPN 0 ge {%IPN>=0,-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 0.03 add cvishow
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE2 0.03 add cvishow
          w2i  ik DOWXIE2 put
          w2ci ik () put
          w1i  ik2 DOWXIE2 put
          w1ci ik2 () put
          /DOWEL2 DOWXIE2 def /DOWEL2c () def
         }%IPN>=0
         {%IPN=-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow (c) show
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE1 cvishow (c) show
          w2i  ik DOWXIE1 put
          w2ci ik (c) put
          w1i  ik2 DOWXIE1 put
          w1ci ik2 (c) put
          /DOWEL2 DOWXIE1 def /DOWEL2c (c) def
         } ifelse %IPN>=0,-1

0 0 0 1 setcmyk_olvcolor

%*********************************************************
0 1 79 {/i exch def %i=0,79
        RA i 0 put
       } for %i=0,79

INP -1 eq {/i1 0 def}                %380nm
          {/i1 INP 5 add def} ifelse %405..700nm

IPN -1 eq {/i2 79 def}               %770nm
          {/i2 IPN 5 add def} ifelse %405..700nm

i2 i1 ge {%i1<i2
          i1 1 i2 {/i exch def %i=i1,i2
                   RA i 1 put
                  } for %i=i1,i2
         }%i1<i2
         {%i1>i2
          i1 1 79 {/i exch def %i=i1,79
                   RA i 1 put
                  } for %i=i1,79
          0  1 i2 {/i exch def %i=0,i2
                   RA i 1 put
                  } for %i=0,i2
                  
         } ifelse %i1>i2

%correction
i2 i1 ge {%i1<i2
          RA i1 0.5 put
          RA i2 0.5 XIEPN 0.5 sub add put
         }%i1<i2
         {%i1>i2
          RA i1 0.5 put
          RA i2 0.5 XIEPN 0.5 sub add put
         } ifelse %i1>i2

%***************************************************
/X 0 def
/Y 0 def
/Z 0 def
          0 1 079 {/i exch def %i=0,79
                   /X X F2N  00 i add get RA i get mul add def
                   /Y Y F2N  80 i add get RA i get mul add def
                   /Z Z F2N 160 i add get RA i get mul add def
                  } for %i=0,79

/SUM X Y add Z add def
/XAN X SUM 0.0001 add div def
/YAN Y SUM 0.0001 add div def
/ZAN Z SUM 0.0001 add div def

%*************************************************
/xpos 100 def

0 1 1 {/Icom exch def %Icom=0,1

Icom 1 eq {%Icom=1
           /X XW X sub def
           /Y YW Y sub def
           /Z ZW Z sub def
           /SUM X Y add Z add def
           /XAN X SUM 0.0001 add div def
           /YAN Y SUM 0.0001 add div def
           /ZAN Z SUM 0.0001 add div def
           /ik ik 20 add def
          } if %Icom=1


%ix0 ixd 0 mul add iymax ik idy mul sub moveto WEL1 ik0 get cvishow
%ix0 ixd 1 mul add iymax ik idy mul sub moveto ik cvishow
%ix0 ixd 2 mul add iymax ik idy mul sub moveto

%Icom 0 eq {%Icom=0,1
%           ik0  0 eq {(Cm) show} if
%           ik0  6 eq {(Gm) show} if
%           ik0 13 eq {(Ym) show} if
%          }%Icom=0
%          {%Icom=1
%           ik0  0 eq {(Rm) show} if
%           ik0  6 eq {(Mm) show} if
%           ik0 13 eq {(Bm) show} if
%          } ifelse %Icom=0,1

%*********************************************************
%calculation of lamdad and lambdac for X, Y, Z
       /FF1 X def
       /FF2 Y def
       /FF3 Z def

       /U1 XW def
       /U2 YW def
       /U3 ZW def
       
       /FXU1 FF2 U3 mul FF3 U2 mul sub def
       /FXU2 FF3 U1 mul FF1 U3 mul sub def
       /FXU3 FF1 U2 mul FF2 U1 mul sub def

/INP -1 def
/IPN -1 def
%assumption jump from TN to TP from negativ to positiv
       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add def
               TN 0 le TP 0 gt and {/INP i def exit} if
              } for %i=1,60

       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add neg def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add neg def
               TN 0 le TP 0 gt and {/IPN i def exit} if
              } for %i=1,60

TK
%ix1 ixd 22 mul add iymax ik idy mul sub moveto INP cvishow
%ix1 ixd 23 mul add iymax ik idy mul sub moveto IPN cvishow

idi ik INP put
ici ik IPN put 

%*********************************************************
/kNP INP def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE1 DOW INP get DOW INP 1 add get DOW INP get sub XIE mul add def

       } if %kNP>=0

%*********************************************************
/kNP IPN def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def
/FXU1 FXU1 neg def
/FXU2 FXU2 neg def
/FXU3 FXU3 neg def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE2 DOW IPN get DOW IPN 1 add get DOW IPN get sub XIE mul add def

       } if %kNP>=0

%*********************************************************
%0 1 1 0 setcmyk_olvcolor
INP 0 ge {%INP>=0,-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 9 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow
          wdi  ik DOWXIE1 put
          wdci ik () put
          /DOWEL1 DOWXIE1 def /DOWEL1c () def
         }%INP>=0
         {%INP=-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 9 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow (c) show
          wdi  ik DOWXIE2 put
          wdci ik (c) put
          /DOWEL1 DOWXIE2 def /DOWEL1c (c) def
         } ifelse %INP>=0,-1

%*********************************************************
%1 0 1 0 setcmyk_olvcolor
IPN 0 ge {%IPN>=0,-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 10 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow
          wci  ik DOWXIE2 put
          wcci ik () put
          /DOWEL2 DOWXIE2 def /DOWEL2c () def
         }%IPN>=0
         {%IPN=-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 10 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow (c) show
          wci  ik DOWXIE1 put
          wcci ik (c) put
          /DOWEL2 DOWXIE1 def /DOWEL2c (c) def
         } ifelse %IPN>=0,-1

%**********************************************************************

0 0 0 1 setcmyk_olvcolor

Icom 0 eq {%Icom=0,1
           Xi k X put
           Yi k Y put
           Zi k Z put
           XANi k XAN put
           YANi k YAN put
           ZANi k ZAN put
          }%Icom=0
          {%Icom=1
           /kP 20 k add def
           Xi kP X put
           Yi kP Y put
           Zi kP Z put
           XANi kP XAN put
           YANi kP YAN put
           ZANi kP ZAN put
          } ifelse %Icom=1

} for %k=0,19

} for %Icom=0,1

0 1 7 {/i exch def %i=0,7
       Xi  40 i add Xi  i get put %for later interpolation
       Yi  40 i add Yi  i get put
       Zi  40 i add Zi  i get put
       w1i 40 i add w1i i get put
       w2i 40 i add w2i i get put
       wdi 40 i add wdi i get put
       wci 40 i add wci i get put
      } for %i=0,7

%**********************************************************************
%XYZw stored at i=42
%XW,YW,ZW and XK,YK,ZK for white
/XW 0 def
/YW 0 def
/ZW 0 def
0 1 079 {/i exch def %i=0,79
         /XW XW F2N  00 i add get add def
         /YW YW F2N  80 i add get add def
         /ZW ZW F2N 160 i add get add def
        } for %i=0,79

/kP 48 def
Xi kP XW put
Yi kP YW put
Zi kP ZW put
/SUM XW YW add ZW add def
/XANW XW SUM 0.0001 add div def
/YANW YW SUM 0.0001 add div def
XANi kP XANW put
YANi kP YANW put

%**********************************************************************
%needed
%       LUTL*a j LAB*Lja jx get put
%       LUTA*a j LAB*aja jx get put
%       LUTB*a j LAB*bja jx get put
%       habton itonj LUTB*a j get LUTA*a j get atan put

/LAB*Li 99 array def %only 48 used here
/LAB*ai 99 array def
/LAB*bi 99 array def
/LAB*Ci 99 array def
/LAB*hi 99 array def

/LAB*Lia 99 array def
/LAB*aia 99 array def
/LAB*bia 99 array def
/LAB*Cia 99 array def
/LAB*hia 99 array def

/D13 1 3 div def
/D841_108 841 108 div def
/D16_116 16 116 div def
/D24_116 24 116 div 3 exp def
/a2D65 0.2191 def
/b2D65 -0.08376 def

0 1 48 {/i exch def %i=0,48 %including white

K 0 eq {/X Xi i get def
        /Y Yi i get def
        /Z Zi i get def
       }
       {
        /X Xi i get XN1 add 1.0271 div 0.886 mul def
        /Y Yi i get YN1 add 1.0271 div 0.886 mul def
        /Z Zi i get ZN1 add 1.0271 div 0.886 mul def
       } ifelse

X XW div D24_116 gt {/FXXN X XW div 0.0001 add D13 exp def}
                    {/FXXN D841_108 X XW div mul D16_116 add def} ifelse

Y YW div D24_116 gt {/FYYN Y YW div 0.0001 add D13 exp def}
                    {/FYYN D841_108 Y YW div mul D16_116 add def} ifelse

Z ZW div D24_116 gt {/FZZN Z ZW div 0.0001 add D13 exp def}
                    {/FZZN D841_108 Z YW div mul D16_116 add def} ifelse

/L* 116. FYYN mul 16. sub def
/a* 500. FXXN FYYN sub mul def
/b* 200. FYYN FZZN sub mul def
/C*ab a* dup mul
      b* dup mul add 0.0001 add sqrt def
/hab b* a* 0.0001 add atan def

LAB*Lia i L*   put
LAB*aia i a*   put
LAB*bia i b*   put
LAB*Cia i C*ab put
LAB*hia i hab  put

LUTL*a i L*   put
LUTA*a i a*   put
LUTB*a i b*   put

habton i LUTB*a i get LUTA*a i get 0.0001 add atan put

} for %i=0,48

%change of decending to increasing hue angle order

0 1 47 {/i exch def %i=0,47
       LUTL*c i LUTL*a 47 i sub get put
       LUTA*c i LUTA*a 47 i sub get put
       LUTB*c i LUTB*a 47 i sub get put
       habton i LUTB*c i get LUTA*c i get 0.0001 add atan put
       w1ic   i w1i    47 i sub get put
       w2ic   i w2i    47 i sub get put
       wdic   i wdi    47 i sub get put
       wcic   i wci    47 i sub get put
       wdcic  i wdci   47 i sub get put
       wccic  i wcci   47 i sub get put
       } for %i=0,47

/imin -1 def
0 1 46 {/i exch def %i=0,46
       habton i 1 add habton i get sub -100 lt
       {/imin i def exit} if
       } for %i=0,46
imin -1 eq {STOP imin false} if

%usually imin=25, imin1=26
%new order imin1..47->0..47-26
%          0 imin   ->47-45..47

/imin1 imin 1 add def
imin1 1 47 {/i exch def %i=imin1,47
            LUTL*b i imin1 sub LUTL*c i get put
            LUTA*b i imin1 sub LUTA*c i get put
            LUTB*b i imin1 sub LUTB*c i get put
            habton i imin1 sub
            LUTB*c i get 0.0001 add
            LUTA*c i get 0.0001 add atan put
            w1ib   i imin1 sub w1ic   i get put
            w2ib   i imin1 sub w2ic   i get put
            wdib   i imin1 sub wdic   i get put
            wcib   i imin1 sub wcic   i get put
            wdcib  i imin1 sub wdcic  i get put
            wccib  i imin1 sub wccic  i get put            
           } for %i=imin1,47 

0 1 imin   {/i exch def %i=0,imin
            LUTL*b 47 imin sub LUTL*c i get put
            LUTA*b 47 imin sub LUTA*c i get put
            LUTB*b 47 imin sub LUTB*c i get put
            habton 47 imin sub
            LUTB*c i get 0.0001 add
            LUTA*c i get 0.0001 add atan put
            w1ib   47 imin sub w1ic   i get put
            w2ib   47 imin sub w2ic   i get put
            wdib   47 imin sub wdic   i get put
            wcib   47 imin sub wcic   i get put
            wdcib  47 imin sub wdcic  i get put
            wccib  47 imin sub wccic  i get put
           } for %i=0,imin

/L*Nio 0.0001 def
/A*Nio 0 def
/B*Nio 0 def
/L*Wio LAB*Lia 48 get def
/A*Wio LAB*aia 48 get def
/B*Wio LAB*bia 48 get def

/XNio 0.0001 def
/YXio 0.0001 def
/ZNio 0.0001 def

/XWio XLWD65100 def
/YWio YLWD65100 def
/ZWio ZLWD65100 def

0 setgray
/TBGGT {290 /TimesB-ISOL1 FS} bind def
/TBIGGT {290 /TimesBI-ISOL1 FS} bind def
/TGT {250 /Times-ISOL1 FS} bind def
/TIGT {250 /TimesI-ISOL1 FS} bind def
/TBGT {250 /TimesB-ISOL1 FS} bind def
/TBIGT {250 /TimesBI-ISOL1 FS} bind def
/TBMT {200 /TimesB-ISOL1 FS} bind def
/TBIMT {200 /TimesBI-ISOL1 FS} bind def
/ishowGT {TBMT -00 -50 rmoveto show 00 50 rmoveto TBGT} bind def
/ishowGGT {TBGT -00 -50 rmoveto show 00 50 rmoveto TBGGT} bind def

/RYGBton 17 array def

/RYGB0 RYGBLAB* 02 get RYGBLAB* 01 get atan def %026
/RYGB1 RYGBLAB* 05 get RYGBLAB* 04 get atan def %092
/RYGB2 RYGBLAB* 08 get RYGBLAB* 07 get atan def %162
/RYGB3 RYGBLAB* 11 get RYGBLAB* 10 get atan def %272


0 1 16 {/j exch def %i=0,16 elementary and intemediate hue angles
/j0 j j 4 idiv 4 mul sub def %0,1,2,3
/b0 j0 0.25 mul def
/a0 1 b0 sub def
j 00 ge j 03 le and {RYGBton j a0 RYGB0 mul b0 RYGB1 mul add put} if
j 04 ge j 07 le and {RYGBton j a0 RYGB1 mul b0 RYGB2 mul add put} if
j 08 ge j 11 le and {RYGBton j a0 RYGB2 mul b0 RYGB3 mul add put} if
j 12 ge j 15 le and {RYGBton j a0 RYGB3 mul b0 RYGB0 360 add mul add
                               dup 360 ge {360 sub} if put} if

j 16 eq {RYGBton j RYGB0 put} if
         } for %j=0,16 elementary and intemediate hue angles
 
0 setgray
/xton 050 def
/ymax2 7000 def

xton ymax2 700 add moveto
TBIGGT (rgb*) show (e) ishowGGT TBGGT
( and CIE data of a elementary hue circle according to) showea
(\255 und CIE\255Daten eines Elementar\255Bunttonkreises nach) showde
( CIE R1\25547) show
( for) showea
( f\374r) showde
TBIGGT
( Ostwald) show
TBGGT
( colours) showea
(\255Farben) showde

xton ymax2 350 add moveto
TBIGT
xchart 0 eq {%xchart=0,1
             (XYZ, xy, YAB,) showea
             (XYZ\255, xy\255, YAB\255) showde
            }%xchart=0
            {%xchart=1
             (XYZ, ab, YAB) showea
             (XYZ\255, ab\255, YAB) showde
             (,) showea
             (\255) showde
            } ifelse %xchart=0,1
TBGT
( and) showea
( und) showde
TBIGT
( Lab*) show
TBGT
( data for relative spacing of elementary hue) showea
(\255Daten f\374 relative Stufung des Elementarbunttons) showde
TBIGT
( h) show (ab) ishowGT
TBGT
( of CIELAB, ) showea
( von CIELAB, ) showde
TBIGT
(Y) show (W) ishowGT
TBGT
K 0 eq {(=100, ) show} if
K 1 eq {(=88,6, ) show} if
TBIGT
(Y) show (N) ishowGT
TBGT
YFa 0 eq {(=0) show} if
YFa 1 eq {(=2,5) show} if

TBGT
xton ymax2 moveto
(16 step elementary hue circle with intended elementary hues:) showea
(16\255stufiger Elementar\255Bunttonkreis mit Ziel\255Elementar\255Buntton:) showde
TBIGT
( h) show (ab)ishowGT
TBGT
( = ) show
RYGB0 cvsshow1 (, ) show
RYGB1 cvsshow1 (, ) show
RYGB2 cvsshow1 (, ) show
RYGB3 cvsshow1
TBGT
( of CIELAB) showea
( von CIELAB) showde

/xtext 0 def
xtext 1 eq {%xtext=1
%title text
0 1 5 {/xtonj exch def %xtonj=0,5

/xton 150 4180 xtonj mul add def

xton 0 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (rgb -> rgb*) show (d) ishowGT TBGT
xton 2.0 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (h) show (ab) ishowGT

xton 2.9 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (L*) show
xton 3.8 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (a*) show %(a) ishowGT
xton 4.7 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (b*) show %(a) ishowGT

TGT
%xton 0 xdel2 mul add ymax3 j ydel2 mul sub moveto
%LUTR jx 7 mul       get 0.001 mul cvsshow2 ( ) show
%LUTR jx 7 mul 1 add get 0.001 mul cvsshow2 ( ) show
%LUTR jx 7 mul 2 add get 0.001 mul cvsshow2

%STOPx

0 1 7 {/j exch def %j=0,7
/n xtonj 8 mul j add def
xton 0.0 xdel2 mul add ymax3 j ydel2 mul sub moveto
n cvishow
xton 0.4 xdel2 mul add ymax3 j ydel2 mul sub moveto
w1i n get cvishow
xton 1.1 xdel2 mul add ymax3 j ydel2 mul sub moveto
w2i n get cvishow
xton 1.8 xdel2 mul add ymax3 j ydel2 mul sub moveto
wdi n get cvishow
xton 2.5 xdel2 mul add ymax3 j ydel2 mul sub moveto
wci n get cvishow
xton 3.1 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTB*b n get LUTA*b n get 0.00001 add atan cvsshow1
TGT
xton 3.9 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTL*b n get cvishow
xton 4.7 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTA*b n get cvishow
xton 5.5 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTB*b n get cvishow
      } for %j=0,7
      } for %xtonj=0,5
} if %xtext=1
     
0 setgray
/xton 050 def

/xtext 0 def
xtext 1 eq {%xtext=1
xton ymax2 ydel2 8 mul sub moveto
TBIGT (RYGB) show (ton) ishowGT
TGT
(, ) show RYGB0 cvsshow1
(, ) show RYGB1 cvsshow1
(, ) show RYGB2 cvsshow1
(, ) show RYGB3 cvsshow1

TBIGT (     RYGB) show (all) ishowGT (:) show
TGT
0 1 15 {/j exch def %j=0,15
        xton 5000 add j 750 mul add ymax2 ydel2 8 mul sub moveto
        RYGBton j get cvsshow1
       } for %j=0,15

TBIGT (    LAB*Nio: ) show TGT
L*Nio cvsshow1 (,  ) show
A*Nio cvsshow1 (,  ) show
B*Nio cvsshow1
TBIGT (    LAB*Wio: ) show TGT
L*Wio cvsshow1 (,  ) show
A*Wio cvsshow1 (,  ) show
B*Wio cvsshow1
} if %xtext=1

%/ymax2 7000 def
/ymax2 7000 def

%TBGT
%100 ymax2 ydel2 9.5 mul sub moveto
%(16 step elementary hue circle with intended elementary hues:) showea
%(16\255stufiger Elementar\255Bunttonkreis mit Ziel\255Elementar\255Buntton:) showde
%TBIGT
%( h) show (ab,a)ishowGT
%TBGT
%( = ) show
%RYGB0 cvsshow1 (, ) show
%RYGB1 cvsshow1 (, ) show
%RYGB2 cvsshow1 (, ) show
%RYGB3 cvsshow1
TGT

/ivar 0 def
/jm 1.7 def /jx ivar 0 eq {2.5 def}
                          {22.7 def} ifelse %color series title text
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub ydel2 add moveto
/yact ymax2 jx ydel2 mul sub ydel2 add def
%/j 0 def
%/jm 19.7 def %color series title text
%/yact ymax2 10.5 j 7 mul add ydel2 mul sub ydel2 add def
xton jm       xdel2 mul add yact moveto
TBIGT (X) show
xton jm 1 add xdel2 mul add yact moveto
TBIGT (Y) show
xton jm 2 add xdel2 mul add yact moveto
TBIGT (Z) show

xchart 0 eq {%xchart=0
xton jm 3 add xdel2 mul add yact moveto
TBIGT (x) show 
xton jm 4 add xdel2 mul add yact moveto
TBIGT (y) show
} if %xchart=0

xchart 1 eq {%xchart=1
xton jm 3 add xdel2 mul add yact moveto
TBIGT (a) show
xton jm 4 add xdel2 mul add yact moveto
TBIGT (b) show
} if %xchart=1

xton jm 5 add xdel2 mul add yact moveto
TBIGT (A) show
xton jm 6 add xdel2 mul add yact moveto
TBIGT (B) show
xton jm 7 add xdel2 mul add yact moveto
TBIGT (C) show (AB) ishowGT
xton jm 8 add xdel2 mul add yact moveto
TBIGT (h) show (AB) ishowGT

xton jm 9 add xdel2 mul add yact moveto
TBIGT (L*) show %(a) ishowGT
xton jm 10 add xdel2 mul add yact moveto
TBIGT (a*) show %(a) ishowGT
xton jm 11 add xdel2 mul add yact moveto
TBIGT (b*) show %(a) ishowGT
xton jm 11.9 add xdel2 mul add yact moveto
TBIGT (C*) show (ab) ishowGT
xton jm 13 add xdel2 mul add yact moveto
TBIGT (h) show (ab) ishowGT

xton jm 14 add xdel2 mul add yact moveto
TBIGT (rgb -> rgb*) show (e) ishowGT TBGT

%increasing order with LUTL*b etc!
/itonx  0 def
/itonx1 0 def
/habtonM 0 def
/habton0 0 def
/habton1 0 def
/habtonP 0 def

/habton2M 0 def
/habton2  0 def
/habton3  0 def
/habton3P 0 def

/LUTL*b2M 0.0001 def
/LUTL*b2  0.0001 def
/LUTL*b3  0.0001 def
/LUTL*b3P 0.0001 def

/LUTA*b2M 0.0001 def
/LUTA*b2  0.0001 def
/LUTA*b3  0.0001 def
/LUTA*b3P 0.0001 def

/LUTB*b2M 0.0001 def
/LUTB*b2  0.0001 def
/LUTB*b3  0.0001 def
/LUTB*b3P 0.0001 def

TGT
/I45 45 def %hue circle steps (47-2) for first step at i=0
/I39 39 def %hue circle of 40 steps (40-1) and i-0,39

/ymax2x ymax2 2600 sub def
/xtext 0 def
xtext 1 eq {%xtext=1
0 1 47 {/jj exch def
        xton ymax2x 220 jj mul sub moveto
        jj 9 le {(0) show} if
        jj cvishow ( ) show habton jj get cvsshow1
        xton 1000 add ymax2x 220 jj mul sub moveto
        LUTL*b jj get cvsshow1
        xton 2000 add ymax2x 220 jj mul sub moveto
        LUTA*b jj get cvsshow1
        xton 3000 add ymax2x 220 jj mul sub moveto
        LUTB*b jj get cvsshow1
       } for %jj=0,47
} if %xtext=1

0 1 15 {/j exch def %j=0,15
        1 1 I39 {/jj exch def %jj=1,I39
                 /habtonM habton jj 1 sub get def
                 /habton0 habton jj       get def
                 /habton1 habton jj 1 add get def
                 /habtonP habton jj 2 add get def

/xtext 0 def
xtext 1 eq {%xtext=1
j 15 eq {%j=0
        xton 4000 add ymax2x 220 jj mul sub moveto
        jj cvishow ( ) show habton jj get cvsshow1
        xton 5000 add ymax2x 220 jj mul sub moveto
        habtonM cvsshow1
        xton 6000 add ymax2x 220 jj mul sub moveto
        habton0 cvsshow1
        xton 7000 add ymax2x 220 jj mul sub moveto
        habton1 cvsshow1
        xton 8000 add ymax2x 220 jj mul sub moveto
        habtonP cvsshow1
        xton 9000 add ymax2x 220 jj mul sub moveto
        RYGBton j get cvsshow1
} if %j=0
} if %xtext=1

habton1 5 add habton0 lt {%habton1<habton0 %5 add avoids small errors
        /habton0x habton0 def
        %attention habton0 will change!

        RYGBton j get habton0 lt
        RYGBton j get habtonM lt and {%1
                  habton0 habton1 gt {/habton0 habton0x 360 sub def} if
                  habtonM habton1 gt {/habtonM habtonM 360 sub def} if
                                     } if %1

        RYGBton j get habton0x gt
        RYGBton j get habton1 360 add lt and {%1
                  /habton1 habton1 360 add def
                  /habtonP habtonP 360 add def
                                     } if %1
} if %habton1<habton0

                 RYGBton j get habton0 ge
                 RYGBton j get habton1 lt and
                 {/itonx jj def
                 /habton2M habton jj 1 sub get def
                 /habton2  habton jj       get def
                 /habton3  habton jj 1 add get def
                 /habton3P habton jj 2 add get def

                 /LUTL*b2M LUTL*b jj 1 sub get def
                 /LUTL*b2  LUTL*b jj       get def
                 /LUTL*b3  LUTL*b jj 1 add get def
                 /LUTL*b3P LUTL*b jj 2 add get def

                 /LUTA*b2M LUTA*b jj 1 sub get def
                 /LUTA*b2  LUTA*b jj       get def
                 /LUTA*b3  LUTA*b jj 1 add get def
                 /LUTA*b3P LUTA*b jj 2 add get def

                 /LUTB*b2M LUTB*b jj 1 sub get def
                 /LUTB*b2  LUTB*b jj       get def
                 /LUTB*b3  LUTB*b jj 1 add get def
                 /LUTB*b3P LUTB*b jj 2 add get def

                 /w1i2M w1i jj 1 sub get def
                 /w1i2  w1i jj       get def
                 /w1i3  w1i jj 1 add get def
                 /W1i3P w1i jj 2 add get def

                 /w2i2M w2i jj 1 sub get def
                 /w2i2  w2i jj       get def
                 /w2i3  w2i jj 1 add get def
                 /W2i3P w2i jj 2 add get def

                 /wdi2M wdi jj 1 sub get def
                 /wdi2  wdi jj       get def
                 /wdi3  wdi jj 1 add get def
                 /Wdi3P wdi jj 2 add get def

                 /wci2M wci jj 1 sub get def
                 /wci2  wci jj       get def
                 /wci3  wci jj 1 add get def
                 /Wci3P wci jj 2 add get def

/xtext 0 def
xtext 1 eq {%xtext=1
j 15 eq {%j=0
        xton 11000 add ymax2x 220 jj mul sub moveto
        jj cvishow ( ) show habton jj get cvsshow1
        xton 12000 add ymax2x 220 jj mul sub moveto
        habton2M cvsshow1
        xton 13000 add ymax2x 220 jj mul sub moveto
        habton2 cvsshow1
        xton 14000 add ymax2x 220 jj mul sub moveto
        habton3 cvsshow1
        xton 15000 add ymax2x 220 jj mul sub moveto
        habton3P cvsshow1
        xton 16000 add ymax2x 220 jj mul sub moveto
        RYGBton j get cvsshow1
} if %j=0
} if %xtext=1

                 /xdel RYGBton j get habton0 sub
                       habton1       habton0 sub div def
                } if
               } for %jj=0,I39

/XIE xdel def

/A1 XIE 1 XIE sub mul  XIE 2 sub mul  6 div def
/A2 XIE 1 add  XIE 1 sub mul  XIE 2 sub mul  0.5 mul def
/A3 XIE 1 add  XIE mul  2 XIE sub mul  0.5 mul def
/A4 XIE 1 add  XIE mul  XIE 1 sub mul 6 div def

/habtonx habton2M A1 mul
         habton2  A2 mul add
         habton3  A3 mul add
         habton3P A4 mul add def

LAB*Lta j LUTL*b2M A1 mul
          LUTL*b2  A2 mul add
          LUTL*b3  A3 mul add
          LUTL*b3P A4 mul add put

LAB*ata j LUTA*b2M A1 mul
          LUTA*b2  A2 mul add
          LUTA*b3  A3 mul add
          LUTA*b3P A4 mul add put

LAB*bta j LUTB*b2M A1 mul
          LUTB*b2  A2 mul add
          LUTB*b3  A3 mul add
          LUTB*b3P A4 mul add put


LAB*Lt j LAB*Lta j get put
/l*CIE LAB*Lt j get L*Nio sub L*Wio L*Nio sub 0.0001 add div def %system rel. lightn.
/a*s A*Wio A*Nio sub l*CIE mul def
/b*s B*Wio B*Nio sub l*CIE mul def
LAB*at j LAB*ata j get A*Nio sub a*s add put
LAB*bt j LAB*bta j get B*Nio sub b*s add put

/habtonx LAB*bta j get LAB*ata j get 0.0001 add atan def

/X* {LAB*Lt j get 16 add 116 div
     LAB*at j get 500 div add} bind def
/Y* {LAB*Lt j get 16 add 116 div} bind def
/Z* {LAB*Lt j get 16 add 116 div
     LAB*bt j get 200 div sub} bind def
Xt j X* DecodeXYZ* XLWD65100 mul put
Yt j Y* DecodeXYZ* YLWD65100 mul put
Zt j Z* DecodeXYZ* ZLWD65100 mul put

TGT
/jm 1.7 def /jx 03 j 1 mul add def %color series mkub=7 actual data
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBIGT RYGB16 j get show TGT

xton jm xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get cvsshow1
xton jm 1 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get cvsshow1
xton jm 2 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get cvsshow1

xchart 0 eq {%xchart=0
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
/SUMXZYt Xt j get Yt j get add Zt j get add def
Xt j get SUMXZYt div 0.00001 add cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get SUMXZYt div 0.00001 add cvsshow3
} if %xchart=0

%A=(X/Y -Xn/Yn)*Y
/A Xt j get Yt j get 0.0001 add div
   XWio     YWio     0.0001 add div sub Yt j get mul def
%B=(Z/Y -Zn/Yn)*Y
/B Zt j get Yt j get 0.0001 add div
   ZWio     YWio     0.0001 add div sub Yt j get mul 0.4 mul neg def
%CAB=[A**2+B**2]**(1/2) * Y
/CAB A dup mul B dup mul add 0.0001 add sqrt def
%hAB=atan (B/A)
/hAB B A 0.0001 add atan def

xchart 1 eq {%xchart=1
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get Yt j get 0.0001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get Yt j get 0.0001 add div 0.4 mul neg cvsshow3
} if %xchart=1

xton jm 5 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
A cvsshow1
xton jm 6 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
B cvsshow1
xton jm 7 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
CAB cvsshow1
xton jm 8 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
hAB cvsshow1

xton jm 9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*Lta j get cvsshow1
xton jm 10 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get cvsshow1
xton jm 11 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get cvsshow1
xton jm 12 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get dup mul LAB*bta j get dup mul add 0.00001 add sqrt cvsshow1

xton jm 13 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT LAB*bta j get LAB*ata j get atan cvsshow1 TGT

xton jm 14 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT RGB*16 j get show TGT

%special for later delete

} for %j=0,15

%************************************************************************
%Begin 5 grey steps

/ymax2 4000 def

%series Black to white
K 0 eq {/YNW 100.0 def}
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/YW0 100 def
YNW YW0 div D24_116 gt {/FYYN YNW YW0 div 0.0001 add D13 exp def}
                    {/FYYN D841_108 YNW YW0 div mul D16_116 add def} ifelse
/L*NW 116. FYYN mul 16. sub def


YFa 0 eq {/YNN 0.001 def} %near cero
         {/YNN YN0   def} ifelse

YNN YW0 div D24_116 gt {/FYYN YNN YW0 div 0.0001 add D13 exp def}
                    {/FYYN D841_108 YNN YW0 div mul D16_116 add def} ifelse
/L*NN 116. FYYN mul 16. sub def

/L*N L*NN def
/L*W L*NW def
0 1 4 {/j exch def %j=0,4
       L*ton j L*N  L*W L*N sub j 0.25 mul mul add put
      } for %j=0,4

TBGT
100 ymax2 ydel2 8.5 mul sub moveto
(5 step equidistant grey scale with intended lightness:) showea
(5\255stufige gleichabst\344ndige Graureihe mit Ziel\255Helligkeit:) showde
TBIGT
( L*) show
TBGT
( = ) show
L*ton 0 get cvsshow1 (, ) show
L*ton 1 get cvsshow1 (, ) show
L*ton 2 get cvsshow1 (, ) show
L*ton 3 get cvsshow1 (, ) show
L*ton 4 get cvsshow1
TGT

0 1 4 {/j exch def %j=0,4
       LAB*Lta j L*ton j get put
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       LAB*bta j 0 put

       LAB*Lt j LAB*Lta j get put
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       LAB*at j LAB*ata j get A*Nio sub a*s add put
       LAB*bt j LAB*bta j get B*Nio sub b*s add put

/X* {LAB*Lt j get 16 add 116 div
     LAB*at j get 500 div add} bind def
/Y* {LAB*Lt j get 16 add 116 div} bind def
/Z* {LAB*Lt j get 16 add 116 div
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Xt j X* DecodeXYZ* XLWD65100 mul put
Yt j Y* DecodeXYZ* YLWD65100 mul put
Zt j Z* DecodeXYZ* ZLWD65100 mul put

TGT
/jm 1.7 def /jx 11 j 1 mul add def %grey series
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBIGT L05 j get show TGT
xton jm       xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get cvsshow1
xton jm 1 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get cvsshow1
xton jm 2 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get cvsshow1

xchart 0 eq {%xchart=0
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
/SUMXZYt Xt j get Yt j get add Zt j get add def
Xt j get SUMXZYt 0.00001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get SUMXZYt 0.00001 add div cvsshow3
} if %xchart=0

/A Xt j get Yt j get 0.0001 add div
   XWio     YWio     0.0001 add div sub Yt j get mul def
%B=(Z/Y -Zn/Yn)*Y
/B Zt j get Yt j get 0.0001 add div
   ZWio     YWio     0.0001 add div sub Yt j get mul 0.4 mul neg def
%CAB=[A**2+B**2]**(1/2) * Y
/CAB A dup mul B dup mul add 0.0001 add sqrt def
%hAB=atan (B/A)
/hAB B A 0.0001 add atan def

xchart 1 eq {%xchart=1
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get Yt j get 0.0001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get Yt j get 0.0001 add div 0.4 mul neg cvsshow3
} if %xchart=1

xton jm 5 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
A cvsshow1
xton jm 6 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
B cvsshow1
xton jm 7 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
CAB cvsshow1
xton jm 8 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
hAB cvsshow1

xton jm 9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT LAB*Lta j get cvsshow1 TGT
xton jm 10 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get cvsshow1
xton jm 11 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get cvsshow1
xton jm 12 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get dup mul LAB*bta j get dup mul add 0.00001 add sqrt cvsshow1

xton jm 13 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get LAB*ata j get 0.0001 add atan cvsshow1

xton jm 14 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT RGB*005 j get show TGT

       } for %j=0,4

showpage
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} for %xchart=0,1

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[/Title (PostScript pictures: farbe.li.tu-berlin.de/AEP6/AEP6.HTM)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
 /Subject (goto: http://farbe.li.tu-berlin.de http://130.149.60.45/~farbmetrik)
 /Keywords (image reproduction, colour devices)
 /Creator (klaus.richter@mac.com)
 /CreationDate (D:2020090112000)
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%D65XYZ.PS
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/SD65 %80 data 5 nm
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/RGBNW*16 [(1.00 0.00 0.00) (0.50 0.00 0.00) (1.00 0.50 0.50) ()
           (1.00 1.00 0.00) (0.50 0.50 0.00) (1.00 1.00 0.50) ()
           (0.00 1.00 0.00) (0.00 0.50 0.00) (0.50 1.00 0.50) ()
           (0.00 0.00 1.00) (0.00 0.00 0.50) (0.50 0.50 1.00) ()] def

/RGB*005 05 array def
/RGB*005 [(0.00 0.00 0.00) (0.25 0.25 0.25) (0.50 0.50 0.50)
          (0.75 0.75 0.75) (1.00 1.00 1.00)] def

/XD65W  95.04 def
/YD65W 100.00 def
/ZD65W 108.88 def

/XD50W  96.42 def
/YD50W 100.00 def
/ZD50W  82.51 def

/DAKTE [(D65) (D50)] def

/cvi100 {100 mul cvi /xi exch def
         xi 0 lt {/vorz -1 def} {/vorz 1 def} ifelse
         /xia xi abs def
         vorz -1 eq {(\255) show} {(0) show} ifelse
         xia    0 ge xia    9 le     {(0000) show} if
         xia   10 ge xia   99 le and {(000) show} if
         xia  100 ge xia  999 le and {(00) show} if
         xia 1000 ge xia 9999 le and {(0) show} if
         xia cvishow
         } bind def

gsave

72 90 translate

0.01 MM dup scale

/xwide 12000 def
20 setlinewidth
1 1 1 setrgbcolor
0 0 moveto xwide     0 rlineto 0 8000 rlineto
           xwide neg 0 rlineto closepath fill
0 0 0 setrgbcolor
0 0 moveto xwide     0 rlineto 0 8000 rlineto
           xwide neg 0 rlineto closepath stroke

/XN0 2.39 def
/YN0 2.51 def
/ZN0 2.74 def

/XN1 2.39 1.0251 mul def
/YN1 2.51 1.0251 mul def %-> 2,71
/ZN1 2.74 1.0251 mul def

/K 0 def %0: Yfak=1, 1: Yfak=0.886
/YFa 1 def %0: YNK=0.01, 1: YNK=2,71->2,51
 
K 0 eq {/Yfak 1.0000 def} if
K 1 eq {/Yfak 0.8860 def} if

TK
0 setgray
100 -200 moveto (AEP60-7N) show

%************************************************
%DEFINES 48 STEP HUE CIRCLE and 9 GREY STEPS

/TS {170 /Times-ISOL1 FS} bind def
/TK {200 /Times-ISOL1 FS} bind def
/TM {270 /Times-ISOL1 FS} bind def
/TG {320 /Times-ISOL1 FS} bind def

/TIS {170 /TimesI-ISOL1 FS} bind def
/TIK {200 /TimesI-ISOL1 FS} bind def
/TIM {270 /TimesI-ISOL1 FS} bind def
/TIG {320 /TimesI-ISOL1 FS} bind def

/TBS {170 /TimesB-ISOL1 FS} bind def
/TBK {200 /TimesB-ISOL1 FS} bind def
/TBM {270 /TimesB-ISOL1 FS} bind def
/TBG {320 /TimesB-ISOL1 FS} bind def

/TBIS {170 /TimesBI-ISOL1 FS} bind def
/TBIK {200 /TimesBI-ISOL1 FS} bind def
/TBIM {270 /TimesBI-ISOL1 FS} bind def
/TBIG {320 /TimesBI-ISOL1 FS} bind def

/CBKK {200 /CourierB-ISOL1 FS} bind def
/CBK {250 /CourierB-ISOL1 FS} bind def
/CBM {300 /CourierB-ISOL1 FS} bind def
/CBG {350 /CourierB-ISOL1 FS} bind def

/TSS {170 /Symbol FS} bind def
/TSK {200 /Symbol FS} bind def
/TSM {270 /Symbol FS} bind def
/TSG {320 /Symbol FS} bind def

/F89 0.8859 def
% achromatic (D65), (D50), (C00) colours
/XLWD65100  95.04 def
/YLWD65100 100.00 def
/ZLWD65100 108.88 def

/XLWD65089  95.04 F89 mul def
/YLWD65089 100.00 F89 mul def
/ZLWD65089 108.88 F89 mul def

/XLWD50100  96.42 def
/YLWD50100 100.00 def
/ZLWD50100  82.51 def

/XLWD50089  96.42 F89 mul def
/YLWD50089 100.00 F89 mul def
/ZLWD50089  82.51 F89 mul def

/XLWC00100  94.94 def
/YLWC00100 100.00 def
/ZLWC00100 108.76 def

/XLWC00089  94.94 F89 mul def
/YLWC00089 100.00 F89 mul def
/ZLWC00089 108.76 F89 mul def

/XYZC00100 303 array def
/LABC00100 303 array def
/YABC00100 303 array def

/XYZC00089 303 array def
/LABC00089 303 array def
/YABC00089 303 array def

/DecodeXYZ* {dup 6 29 div ge {dup dup mul mul}
            {4 29 div sub 108 841 div mul} ifelse} bind def

/cvishow {cvi 6 string cvs show} def
/cvsshow1 {10 mul cvi 0.1 mul 7 string cvs show} def
/cvsshow2 {100 mul cvi 0.01 mul 7 string cvs show} def
/cvsshow3 {1000 mul cvi 0.001 mul 7 string cvs show} def

/cvishowb {cvi 6 string cvs show ( ) show} def
/cvsshow1b {10 mul cvi 0.1 mul 7 string cvs show ( ) show} def
/cvsshow2b {100 mul cvi 0.01 mul 7 string cvs show ( ) show} def
/cvsshow3b {1000 mul cvi 0.001 mul 7 string cvs show ( ) show} def

/cvishowr {0.5 add cvi 6 string cvs show} def
/cvsshow1r {0.05 add 10 mul cvi 0.1 mul 7 string cvs show} def
/cvsshow2r {0.005 add 100 mul cvi 0.01 mul 7 string cvs show} def
/cvsshow3r {0.0005 add 1000 mul cvi 0.001 mul 7 string cvs show} def

/cvi100 {100 mul cvi /xi exch def
         xi 0 lt {/vorz -1 def} {/vorz 1 def} ifelse
         /xia xi abs def
         vorz -1 eq {(\255) show} {(0) show} ifelse
         xia    0 ge xia    9 le     {(0000) show} if
         xia   10 ge xia   99 le and {(000) show} if
         xia  100 ge xia  999 le and {(00) show} if
         xia 1000 ge xia 9999 le and {(0) show} if
         xia cvishow
         } bind def

/cvi1000 {1000 mul cvi /xi exch def
          xi    0 ge xi    9 le     {(000) show} if
          xi   10 ge xi   99 le and {(00) show} if
          xi  100 ge xi  999 le and {(0) show} if
          xi cvishow
         } bind def

/SD65 80 array def %380 bis 775 mit deltalambda=05
/SD50 80 array def %380 bis 775 mit deltalambda=05
/SP40 80 array def %380 bis 775 mit deltalambda=05
/SA00 80 array def %380 bis 775 mit deltalambda=05
/SE00 80 array def %380 bis 775 mit deltalambda=05
/SC00 80 array def %380 bis 775 mit deltalambda=05
/SP00 80 array def %380 bis 775 mit deltalambda=05
/SQ00 80 array def %380 bis 775 mit deltalambda=05

/SDAK 80 array def %380 bis 775 mit deltalambda=05
/RA   80 array def %380 bis 770 nm
/F2  240 array def %3 x 80 Daten fuer Bereich 380 bis 770nm
/F2N 240 array def %normiert auf Y=100 fuer D65 und 10nm

%C
%C      LITERATURQUELLEN  LICHTARTEN
%C      SA,SC,SD65,  CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 1.1.1, SEITE 81
%C      SD55,SD75,   CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 1.1.4, SEITE 85
%C                   LINEAR INTERPOLIERT VON 5 ZU 5NM
%C      SG,SP,SXE,   DIN 5033, BLATT 7 ,SEITE 8-9
%C                   AUSGABE  1966

/SD65 %80 data 5 nm
[50.0  52.3 54.6 68.7 82.8 87.1 91.5 92.5 93.4 90.1 86.7 
 95.8 104.9 110.9 117.0 117.4 117.8 116.3 114.9 115.4 115.9 
 112.4 108.8 109.1 109.4 108.6 107.8 106.3 104.8 106.2 107.7 
 106.0 104.4 104.2 104.0 102.0 100.0 98.2 96.3 96.1 95.8 92.2 
 88.7 89.3 90.0 89.8 89.6 88.6 87.7 85.5 83.3 83.5 83.7 
 81.9 80.0 80.1 80.2 81.2 82.3 80.3 78.3 74.0 69.7 70.7 
 71.6 73.0 74.3 68.0 61.6 65.7 69.9 72.5 75.1 69.3 63.6 55.0 
 46.4 56.6 66.8 65.1] def

/SD50 %80 data 5 nm CIE 15.3, Seite 30; aus JE540-1N.PS
[24.5 27.2 29.9 39.6 49.3 52.9 56.5 58.3 60.0 58.9
 57.8 66.3 74.8 81.0 87.2 88.9 90.6 91.0 91.4 93.2
 95.1 93.5 92.0 93.8 95.7 96.2 96.6 96.8 97.1 99.6
102.1 101.4 100.8 101.5 102.3 101.2 100.0 98.9 97.7 98.3
 98.9 96.2 93.5 95.6 97.7 98.5 99.3 99.2 99.0 97.4
 95.7 97.3 98.9 97.3 95.7 96.9 98.2 100.6 103.0 101.1
 99.1 93.3 87.4 89.5 91.6 92.2 92.9 84.9 76.9 81.7
 86.5 89.5 92.6 85.4 78.2 68.0 57.7 70.3 82.9 0.0] def %0.0 not used

/SA00 %80 data 5 nm CIE 15.3  Seite 30; aus JE540-1N.PS
[9.80 10.90 12.09 13.35 14.71 16.15 17.68 19.29 20.99
 22.79 24.67 26.64 28.70 30.85 33.09 35.41 37.81 40.30
 42.87 45.52 48.24 51.04 53.91 56.85 59.86 62.93 66.06
 69.25 72.50 75.79 79.13 82.52 85.95 89.41 92.91 96.44
 100.00 103.58 107.18 110.80 114.44 118.08 121.73 125.39
 129.04 132.70 136.35 139.99 143.62 147.24 150.84 154.42
 157.98 161.52 165.03 168.51 171.96 175.38 178.77 182.12
 185.43 188.70 191.93 195.12 198.26 201.36 204.41 207.41
 210.36 213.27 216.12 218.92 221.67 224.36 227.00 229.59
 232.12 234.59 237.01 239.37 0.0] def %0.0 not used

% AUS BILDPLA.FOR aus vrbam/wrpos:KRPROG.FOR, 5987-6023 5.10.92
%C     PROGRAMM ZUR BERECHNUNG DER RELATIVEN SPEKTRALEN STRAHLUNGSVERTEI-
%C     LUNG EINES HOHLRAUMSTRAHLERS ALS FUNKTION DER WELLENLAENGE LAMDA  
%C     BEI GEGEBENER TEMPERATUR T                                        
%C     VERWENDETE VARIABLE                                               
%C        T                   TEMPERATUR                                 
%C        C2                  PLANCKSCHE KONSTANTE (=1.4388 CM K (1967)) 
%C        LAMDA(I)            WELLENLAENGE                               
%C        S(I)                STRAHLUNGSVERTEILUNG DES HOHLRAUMSTRAHLERS 
%C                                                                       
%C     LITERATUR OFFIZIELLE EMPFEHLUNGEN DER CIE,DEUTSCHE VERSION,       
%C               CA. 1969, SEITE 21 UND TABELLE 1.1.1                    
%C                                                                       
%SDP4 80 array def %380 bis 775 mit deltalambda=05
%      DO 50 I=1,54                                                      
%   50 S(I)=100.
%     1*(560./FLOAT(LAMDA(I)))**5
%     2*(EXP(C2/(560.*10.**(-7)*T))-1.)
%     3/(EXP(C2/(FLOAT(LAMDA(I))*10.**(-7)*T))-1.)

%new CIE 15.3:2004, Eq. (3.1) page 2
%S(I) = [100{560/lambda}**5] [exp{(c2*10**7)/(TNC*560   )} - 1]
%                           /[exp{(c2*10**7)/(TNC*lambda)} - 1]
% exp = e {...} = 2.71 {...} 

%/TNC 2848 def %NLA
/TNC 4000 def
/EE 2.718281 def %e=mac pocket calculator
/C2 1.4350000 10 7 exp mul def
/lamd 80 array def


0 1 79 {%i=0,79
        /i exch def
        /lambda 380 i 5 mul add def
        lamd i lambda put
        /E1 560 lambda div 5 exp def

        /E4 C2 TNC 560    mul div def
        /E5 C2 TNC lambda mul div def

        /E6 EE E4 exp def
        /E7 EE E5 exp def

        SP40 i
        E1 100 mul E6 1 sub 
                   E7 1 sub div mul

        put
       } for %i=0,79

/xex 10 2 exp def
/yex EE 2 exp def

/SE00 %80 data 5 nm
[100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0] def %0.0 not used

/SC00 %80 data 5 nm
[ 33.00  39.92  47.40  55.17  63.30  71.81  80.60  89.53  98.10 105.80
 112.40 117.75 121.50 123.45 124.00 123.60 123.10 123.30 123.80 124.09
 123.90 122.92 120.70 116.90 112.10 106.98 102.30  98.81  96.90  96.78
  98.00  99.94 102.10 103.95 105.20 105.67 105.30 104.11 102.30 100.15
  97.80  95.43  93.20  91.22  89.70  88.83  88.40  88.19  88.10  88.06
  88.00  87.86  87.80  87.99  88.20  88.20  87.90  87.22  86.30  85.30
  84.00  82.21  80.20  78.24  76.30  74.36  72.40  70.40  68.30  66.30
  64.40  62.80  61.50  60.20  59.20  58.50  58.10  58.00  58.20  58.50
 ] def %0.0 not used

0 1 79 {/i exch def %i=0,79
        /lamda 380 i 5 mul add def
        SP00 i SE00 i get lamda 560 div mul put
        SQ00 i SE00 i get 1120 lamda sub 560 div mul put
       } for %i=0,79
 
%C      LITERATURQUELLEN  SPEKTRALWERTE
%C       F2          CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 2.1, SEITE 93-102

/F2  %3x80 data
[.001368 .002236 .004243 .007650 .01431 .02319 .04351 .07763 
 .1344 .2148 .2839 .3285 .3483 .3481 .3362 .3187 .2908 .2511 
 .1954 .1421 .09564 .05795 .03201 .01470 .0049 .0024 .0093 .0291 
 .06327 .1096 .1655 .2257 .2904 .3597 .4334 .5121 .5945 .6784 
 .7621
 .8425 .9163 .9786 1.0263 1.0567 1.0622 1.0456 1.0026 .9384 
 .8544 .7514 .6424 .5419 .4479 .3608 .2835 .2187 .1649 .1212 
 .0874 .0636 .04677 .03290 .02270 .01584 .01136 .00811 .00579 
 .004109 .002899 .002049 .001440 .0009999 .0006901 
 .000476 .0003323 .0002348 .0001662 .0001174 .00008308 .00005871 
 .000039 .000064 .00012 .000217 .000396 .00064 .00121 .00218 
 .004 .0073 .0116 .01684 .023 .0298 .0380 .048 .06 .0739 
 .09098 .1126 .139 .1693 .208 .2586 .323 .4073 .503 .6082 .71 
 .7932 .862 .9149 .954 .9803 .995 1.0 .995 .9786 .952 
 .9154 .870 .8163 .757 .6949 .631 .5668 .503 .4412 .381 .321 
 .265 .217 .175 .1382 .107 .0816 .061 .04458 .032 .0232 .017 
 .01192 .00821 .005723 .004102 .002929 .002091 .001484 
 .001047 .00074 .00052 .0003611 .0002492 .0001719 
 .00012 .0000848 .00006 .0000424 .00003 .0000212 
 .00645 .01055 .02005 .03621 .06785 .1102 .2074 .3713 .6456 
 1.0391 1.3856 1.623 1.7471 1.7826 1.7721 1.7441 1.6692 
 1.5281 1.2876 1.0419 .8130 .6162 .4652 .3533 .2720 .2123 
 .1582 .1117 .07825 .05725 .04216 .02984 .0203 .0134 .00875 
 .00575 .0039 .00275 .0021 .0018 .00165 .0014 .0011 .0010 .0008 
 .0006 .00034 .00024 .00019 .0001 .00005 .00003 .00002 .00001 % 26*0 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 %26
] def

/F10 %3x80 data
[.00016 .0006624 .002362 .007242 .01911 .0434 .08474 .1406 .2045 
 .2647 .3147 .3577 .3837 .3867 .3707 .343 .3023 .2541 .1956 .1323
  .08051 .04107 .01617 .005132 .003816 .01544 .03746 .07136 .1177
  .173 .2365 .3042 .3768 .4516 .5298 .6161 .7052 .7938 .8787 
 .9512 1.0142 1.0743 1.1185 1.1343 1.124 1.0891 1.0305 .9507 
 .8563 .7549 .6475 .5351 .4316 .3437 .2683 .2043 .1526 .1122 
 .08126 .05793 .04085 .02862 .019941 .01384 .0100 .006605 
 .004552 .003145 .002175 .001506 .001045 .0007274 .0005083 
 .0003564 .000251 .0001777 .0001264 .00009015 .00006453 .00004634 
 .00001736 .00007156 .0002534 .0007685 .002004 .004509 .008756 
 .01446 .02139 .0295 .03868 .0496 .06208 .0747 .08946 .1063 .1282 
 .1528 .1852 .2199 .2536 .2977 .3391 .3954 .4608 .5314 .6067 
 .6857 .7618 .8233 .8752 .9238 .962 .9822 .9918 .9991 .9973 .9824 
 .9555 .9152 .8689 .8256 .7774 .7203 .6583 .5939 .528 .4618 .3981 
 .3395 .2835 .2282 .1798 .1402 .1076 .08119 .06028 .0441 .0318 
 .0226 .0159 .01113 .007749 .0053751 .0037177 .002565 .001768 
 .001222 .0008462 .0005864 .0004074 .000284 .0001987 .0001395 
 .00009843 .00006982 .00004974 .00003554 .00002549 .00001834 
 .0007048 .002928 .01048 .03234 .08601 .1971 .3894 .6568 .9725 
 1.2825 1.5535 1.7985 1.9673 2.0273 1.9948 1.9007 1.7454 
 1.5549 1.3176 1.0302 .7721 .5701 .4152 .3024 .2185 .1592 .112 
 .08225 .06071 .04305 .03045 .02058 .01368 .007918 .003988 
 .001091 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %30
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %40
 0.0 0.0 0.0 0.0 %44
] def


%calculation of transformation data
/FARBE 27 array def
/FARBE [(R) (m) ( 561_770) %00
        (Y) (m) ( 520_770) %01
        (G) (m) ( 475_573) %02
        (C) (m) ( 380_561) %03
        (B) (m) ( 380_495) %04
        (M) (m) ( 573_475) %05
        (N) (0) ( 380_770) %06
        (W) (0) ( 380_770) %07
        (W) (1) ( 380_770) %08
       ] def

%/FARBE [(R) (m) ( 565_770) %00
%        (Y) (m) ( 520_770) %01
%        (G) (m) ( 475_575) %02
%        (C) (m) ( 380_565) %03
%        (B) (m) ( 380_495) %04
%        (M) (m) ( 575_475) %05
%        (N) (0) ( 380_770) %06
%        (W) (0) ( 380_770) %07
%        (W) (1) ( 380_770) %08
%       ] def

/xshift 10 array def %max 6 device + 4 elementary
/yshift 10 array def
/colori 10 array def

/xcolorl xcolor def
%0 1 1 {/xcolorl exch def %xcolorl=0,1
       

xcolorl 1 eq {0 1 79 {/i exch def %i=0,79
                      F2 i F10 i get put
                     } for %i=0,79
             } if

/YKSUM 0 def %For CIE Illuminant E
0 1 79 {/i exch def %i=0,1,79
        /YKSUM YKSUM F2  80 i add get add def
} for %i=0,1,79

/F2N 240 array def
0 1 79 {/i exch def %i=0,1,79
        F2N  00 i add F2  00 i add get YKSUM div 100 mul put
        F2N  80 i add F2  80 i add get YKSUM div 100 mul put
        F2N 160 i add F2 160 i add get YKSUM div 100 mul put
} for %i=0,1,79

/FXN 80 array def %FXN 0 = F2N imax
/FYN 80 array def
/FZN 80 array def
%defines FXN, FYN, FZN 0 to 79
0 1 79 {/i exch def %i=0,79
        FXN i F2N 000 i add get put
        FYN i F2N 080 i add get put
        FZN i F2N 160 i add get put
} for %i=0,79

%special wavelength range with complementary colours for E?
/FXD 63 array def
/FYD 63 array def
/FZD 63 array def
/DOW 63 array def

00 1 60 {/i exch def %i=0,60 %range 400..700nm
         FXD i FXN 005 i add get put
         FYD i FYN 005 i add get put
         FZD i FZN 005 i add get put
         DOW i 400 i 5 mul add put %range 400 to 700
        } for %i=0,60

%for interpolation
FXD 61 FXD 60 get put
FYD 61 FYD 60 get put
FZD 61 FZD 60 get put

FXD 62 FXD 60 get put
FYD 62 FYD 60 get put
FZD 62 FZD 60 get put

/FAD 63 array def
/FBD 63 array def
/FCD 63 array def

20 setlinewidth
/xdel  1005 def
/ydel   393 def
/x0  050 def
/x1 -150 def

/TELi 8 array def
/TELi [(D65) (D50) (P40) (A00) (E00) (C00) (P00) (Q00)] def %7 illumin.

/Xi 79 array def %max 6 device colour + 4 elementary colours
/Yi 79 array def
/Zi 79 array def
/XANi 79 array def
/YANi 79 array def
/ZANi 79 array def

/xchartl 0 def

%calculation of XW,YW,ZW for illuminant D65, D50, ...
0 1 79 {/i exch def %i=0,79
        SDAK i xchartl 0 eq {SD65 i get} if
               xchartl 1 eq {SD50 i get} if
               xchartl 2 eq {SP40 i get} if
               xchartl 3 eq {SA00 i get} if
               xchartl 4 eq {SE00 i get} if
               xchartl 5 eq {SC00 i get} if
               xchartl 6 eq {SP00 i get} if
               xchartl 7 eq {SQ00 i get} if
               put
       } for %i=0,79

/YKSUM 0 def
0 1 79 {/i exch def %i=0,1,79
        /YKSUM YKSUM SDAK i get F2  80 i add get mul add def
} for %i=0,1,79

0 1 79 {/i exch def %i=0,1,79
        F2N  00 i add SDAK i get F2  00 i add get mul YKSUM div 100 mul put
        F2N  80 i add SDAK i get F2  80 i add get mul YKSUM div 100 mul put
        F2N 160 i add SDAK i get F2 160 i add get mul YKSUM div 100 mul put
} for %i=0,1,79

%XW,YW,ZW for white
/XW 0 def
/YW 0 def
/ZW 0 def
0 1 079 {/i exch def %i=0,79
         /XW XW F2N  00 i add get add def
         /YW YW F2N  80 i add get add def
         /ZW ZW F2N 160 i add get add def
        } for %i=0,79

/SUMW XW YW add ZW add def %for D65, D50, P40, A00, E00
/XANW XW SUMW div def
/YANW YW SUMW div def
/ZANW ZW SUMW div def

/AANW XW YW 0.0001 add div def
/BANW ZW YW 0.0001 add div 0.4 mul neg def

0 1 62 {/i exch def %i=0,62
        FAD i FXD i get put
        FBD i FYD i get put
        FCD i FZD i get put
       } for %i=0,62

/ix0 100 def
/ix1 ix0 2000 add def
/ixd 600 def
/ixd2 500 def

/iymax 16000 def
/idy 250 def
20 setlinewidth

/ymax 16600 def
/ydel   203 def

/ymax2 15900 def
/ymax3 16100 def
/xdel2   667 def
/ydel2   250 def
/ydel2t  300 def

/ymaxt ymax 400 sub def

/xpos 100 def

%/ymax ymax 800 sub def

%***************************************************
/proc_ABC_KNP_FWERTiX
{%BEG proc_ABC_KNP_FWERT

%input FAD,FBD,FCD, KNP
%output FWERTiX/Y/Z (i=1,4)

    kNP 1 ge {/FWERT1X FAD kNP 1 sub get def
              /FWERT1Y FBD kNP 1 sub get def
              /FWERT1Z FCD kNP 1 sub get def}
             {/FWERT1X FAD 0 get def %again 400nm for i=0
              /FWERT1Y FBD 0 get def
              /FWERT1Z FCD 0 get def} ifelse

    /FWERT2X FAD kNP get def
    /FWERT2Y FBD kNP get def
    /FWERT2Z FCD kNP get def

    /FWERT3X FAD kNP 1 add get def
    /FWERT3Y FBD kNP 1 add get def
    /FWERT3Z FCD kNP 1 add get def

    /FWERT4X FAD kNP 2 add get def
    /FWERT4Y FBD kNP 2 add get def
    /FWERT4Z FCD kNP 2 add get def

} bind def %END proc_ABC_KNP_FWERTiX

%*********************************************************
/proc_XIE_TN1
{%BEG proc_XIE_TN1

%input XIE, FWERTiX/Y/Z (i=1,4)
%output TN1

/A1N XIE       1 XIE sub mul XIE 2 sub mul 6 div   def
/A2N XIE 1 add XIE 1 sub mul XIE 2 sub mul 0.5 mul def
/A3N XIE 1 add XIE       mul 2 XIE sub mul 0.5 mul def
/A4N XIE 1 add XIE       mul XIE 1 sub mul 6 div   def
/FNX A1N FWERT1X mul
     A2N FWERT2X mul add
     A3N FWERT3X mul add
     A4N FWERT4X mul add def
/FNY A1N FWERT1Y mul
     A2N FWERT2Y mul add
     A3N FWERT3Y mul add
     A4N FWERT4Y mul add def
/FNZ A1N FWERT1Z mul
     A2N FWERT2Z mul add
     A3N FWERT3Z mul add
     A4N FWERT4Z mul add def
/TNX FNX FXU1 mul
     FNY FXU2 mul add
     FNZ FXU3 mul add def

} bind def %END proc_XIE_TN1

%*****************************************************
/i1i 60 array def
/i2i 60 array def
/idi 60 array def
/ici 60 array def

/w1i 60 array def
/w2i 60 array def
/wdi 60 array def
/wci 60 array def

/w1ci 60 array def
/w2ci 60 array def
/wdci 60 array def
/wcci 60 array def

/i1ib 60 array def
/i2ib 60 array def
/idib 60 array def
/icib 60 array def

/w1ib 60 array def
/w2ib 60 array def
/wdib 60 array def
/wcib 60 array def

/w1cib 60 array def
/w2cib 60 array def
/wdcib 60 array def
/wccib 60 array def

/i1ic 60 array def
/i2ic 60 array def
/idic 60 array def
/icic 60 array def

/w1ic 60 array def
/w2ic 60 array def
/wdic 60 array def
/wcic 60 array def

/w1cic 60 array def
/w2cic 60 array def
/wdcic 60 array def
/wccic 60 array def

0 1 59 {/i exch def %i=0,59
        i1i i 0 put
        i2i i 0 put
        idi i 0 put
        ici i 0 put

        w1i i 0 put
        w2i i 0 put
        wdi i 0 put
        wci i 0 put

        w1ci i (x) put
        w2ci i (x) put
        wdci i (x) put
        wcci i (x) put
        
       } for %i=0,59

/WEL1 60 array def %irregular definition
/WEL2 60 array def %irregular definition
      %0   1   2   3   4   5   6   7   8   9
/WEL1 [405 435 450 460 465 470 475 480 485 490
       495 500 510 520 530 540 545 550 555 560
      ] def

0 1 19 {/i exch def
        w1i i        WEL1 i get put
        w2i i 20 add WEL1 i get put
       } for

0 1 19 {/k exch def %k=0,19 %wavelength 405..700nm

        /j  WEL1 k get 400 sub 5 idiv def
        /ik k def
        /ik2 k 20 add def
       /FF1 FXD j get def %start at 405..700nm
       /FF2 FYD j get def
       /FF3 FZD j get def

       /U1 XW def
       /U2 YW def
       /U3 ZW def
       /FXU1 FF2 U3 mul FF3 U2 mul sub def
       /FXU2 FF3 U1 mul FF1 U3 mul sub def
       /FXU3 FF1 U2 mul FF2 U1 mul sub def

/INP -1 def
/IPN -1 def
%assumption jump from TN to TP from negativ to positiv
       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add def
               TN 0 le TP 0 gt and {/INP i def exit} if
              } for %i=1,60

       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add neg def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add neg def
               TN 0 le TP 0 gt and {/IPN i def exit} if
              } for %i=1,60

TM
%ix1 ixd 22 mul add iymax ik idy mul sub moveto INP cvishow
%ix1 ixd 23 mul add iymax ik idy mul sub moveto IPN cvishow
i1i ik INP put
i2i ik IPN put

%ix1 ixd 22 mul add iymax ik2 idy mul sub moveto IPN cvishow
%ix1 ixd 23 mul add iymax ik2 idy mul sub moveto INP cvishow
i1i ik2 IPN put
i2i ik2 INP put

%STOP1
%*********************************************************
/kNP INP def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE1 DOW INP get DOW INP 1 add get DOW INP get sub XIE mul add def
/XIENP XIE def

       } if %kNP>=0

%*********************************************************
/kNP IPN def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def
/FXU1 FXU1 neg def
/FXU2 FXU2 neg def
/FXU3 FXU3 neg def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE2 DOW IPN get DOW IPN 1 add get DOW IPN get sub XIE mul add def
/XIEPN XIE def

       } if %kNP>=0

%*********************************************************
%0 1 1 0 setcmyk_olvcolor
INP 0 ge {%INP>=0,-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 0.03 add cvishow %includes rounding failure
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE1 0.03 add cvishow
          w1i  ik DOWXIE1 put
          w1ci ik () put
          w2i  ik2 DOWXIE1 put
          w2ci ik2 () put
          /DOWEL1 DOWXIE1 def /DOWEL1c () def
         }%INP>=0
         {%INP=-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow (c) show
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LPP mul sub moveto
          w1i  ik DOWXIE2 put
          w1ci ik (c) put    
          w2i  ik2 DOWXIE2 put
          w2ci ik2 (c) put
%          DOWXIE2 cvishow (c) show
          /DOWEL1 DOWXIE2 def /DOWEL1c (c) def
         } ifelse %INP>=0,-1

%1 0 1 0 setcmyk_olvcolor
IPN 0 ge {%IPN>=0,-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 0.03 add cvishow
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE2 0.03 add cvishow
          w2i  ik DOWXIE2 put
          w2ci ik () put
          w1i  ik2 DOWXIE2 put
          w1ci ik2 () put
          /DOWEL2 DOWXIE2 def /DOWEL2c () def
         }%IPN>=0
         {%IPN=-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow (c) show
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE1 cvishow (c) show
          w2i  ik DOWXIE1 put
          w2ci ik (c) put
          w1i  ik2 DOWXIE1 put
          w1ci ik2 (c) put
          /DOWEL2 DOWXIE1 def /DOWEL2c (c) def
         } ifelse %IPN>=0,-1

0 0 0 1 setcmyk_olvcolor

%*********************************************************
0 1 79 {/i exch def %i=0,79
        RA i 0 put
       } for %i=0,79

INP -1 eq {/i1 0 def}                %380nm
          {/i1 INP 5 add def} ifelse %405..700nm

IPN -1 eq {/i2 79 def}               %770nm
          {/i2 IPN 5 add def} ifelse %405..700nm

i2 i1 ge {%i1<i2
          i1 1 i2 {/i exch def %i=i1,i2
                   RA i 1 put
                  } for %i=i1,i2
         }%i1<i2
         {%i1>i2
          i1 1 79 {/i exch def %i=i1,79
                   RA i 1 put
                  } for %i=i1,79
          0  1 i2 {/i exch def %i=0,i2
                   RA i 1 put
                  } for %i=0,i2
                  
         } ifelse %i1>i2

%correction
i2 i1 ge {%i1<i2
          RA i1 0.5 put
          RA i2 0.5 XIEPN 0.5 sub add put
         }%i1<i2
         {%i1>i2
          RA i1 0.5 put
          RA i2 0.5 XIEPN 0.5 sub add put
         } ifelse %i1>i2

%***************************************************
/X 0 def
/Y 0 def
/Z 0 def
          0 1 079 {/i exch def %i=0,79
                   /X X F2N  00 i add get RA i get mul add def
                   /Y Y F2N  80 i add get RA i get mul add def
                   /Z Z F2N 160 i add get RA i get mul add def
                  } for %i=0,79

/SUM X Y add Z add def
/XAN X SUM 0.0001 add div def
/YAN Y SUM 0.0001 add div def
/ZAN Z SUM 0.0001 add div def

%*************************************************
/xpos 100 def

0 1 1 {/Icom exch def %Icom=0,1

Icom 1 eq {%Icom=1
           /X XW X sub def
           /Y YW Y sub def
           /Z ZW Z sub def
           /SUM X Y add Z add def
           /XAN X SUM 0.0001 add div def
           /YAN Y SUM 0.0001 add div def
           /ZAN Z SUM 0.0001 add div def
           /ik ik 20 add def
          } if %Icom=1


%ix0 ixd 0 mul add iymax ik idy mul sub moveto WEL1 ik0 get cvishow
%ix0 ixd 1 mul add iymax ik idy mul sub moveto ik cvishow
%ix0 ixd 2 mul add iymax ik idy mul sub moveto

%Icom 0 eq {%Icom=0,1
%           ik0  0 eq {(Cm) show} if
%           ik0  6 eq {(Gm) show} if
%           ik0 13 eq {(Ym) show} if
%          }%Icom=0
%          {%Icom=1
%           ik0  0 eq {(Rm) show} if
%           ik0  6 eq {(Mm) show} if
%           ik0 13 eq {(Bm) show} if
%          } ifelse %Icom=0,1

%*********************************************************
%calculation of lamdad and lambdac for X, Y, Z
       /FF1 X def
       /FF2 Y def
       /FF3 Z def

       /U1 XW def
       /U2 YW def
       /U3 ZW def
       
       /FXU1 FF2 U3 mul FF3 U2 mul sub def
       /FXU2 FF3 U1 mul FF1 U3 mul sub def
       /FXU3 FF1 U2 mul FF2 U1 mul sub def

/INP -1 def
/IPN -1 def
%assumption jump from TN to TP from negativ to positiv
       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add def
               TN 0 le TP 0 gt and {/INP i def exit} if
              } for %i=1,60

       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add neg def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add neg def
               TN 0 le TP 0 gt and {/IPN i def exit} if
              } for %i=1,60

TK
%ix1 ixd 22 mul add iymax ik idy mul sub moveto INP cvishow
%ix1 ixd 23 mul add iymax ik idy mul sub moveto IPN cvishow

idi ik INP put
ici ik IPN put 

%*********************************************************
/kNP INP def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE1 DOW INP get DOW INP 1 add get DOW INP get sub XIE mul add def

       } if %kNP>=0

%*********************************************************
/kNP IPN def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def
/FXU1 FXU1 neg def
/FXU2 FXU2 neg def
/FXU3 FXU3 neg def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE2 DOW IPN get DOW IPN 1 add get DOW IPN get sub XIE mul add def

       } if %kNP>=0

%*********************************************************
%0 1 1 0 setcmyk_olvcolor
INP 0 ge {%INP>=0,-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 9 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow
          wdi  ik DOWXIE1 put
          wdci ik () put
          /DOWEL1 DOWXIE1 def /DOWEL1c () def
         }%INP>=0
         {%INP=-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 9 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow (c) show
          wdi  ik DOWXIE2 put
          wdci ik (c) put
          /DOWEL1 DOWXIE2 def /DOWEL1c (c) def
         } ifelse %INP>=0,-1

%*********************************************************
%1 0 1 0 setcmyk_olvcolor
IPN 0 ge {%IPN>=0,-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 10 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow
          wci  ik DOWXIE2 put
          wcci ik () put
          /DOWEL2 DOWXIE2 def /DOWEL2c () def
         }%IPN>=0
         {%IPN=-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 10 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow (c) show
          wci  ik DOWXIE1 put
          wcci ik (c) put
          /DOWEL2 DOWXIE1 def /DOWEL2c (c) def
         } ifelse %IPN>=0,-1

%**********************************************************************

0 0 0 1 setcmyk_olvcolor

Icom 0 eq {%Icom=0,1
           Xi k X put
           Yi k Y put
           Zi k Z put
           XANi k XAN put
           YANi k YAN put
           ZANi k ZAN put
          }%Icom=0
          {%Icom=1
           /kP 20 k add def
           Xi kP X put
           Yi kP Y put
           Zi kP Z put
           XANi kP XAN put
           YANi kP YAN put
           ZANi kP ZAN put
          } ifelse %Icom=1

} for %k=0,19

} for %Icom=0,1

0 1 7 {/i exch def %i=0,7
       Xi  40 i add Xi  i get put %for later interpolation
       Yi  40 i add Yi  i get put
       Zi  40 i add Zi  i get put
       w1i 40 i add w1i i get put
       w2i 40 i add w2i i get put
       wdi 40 i add wdi i get put
       wci 40 i add wci i get put
      } for %i=0,7

%**********************************************************************
%XYZw stored at i=42
%XW,YW,ZW and XK,YK,ZK for white
/XW 0 def
/YW 0 def
/ZW 0 def
0 1 079 {/i exch def %i=0,79
         /XW XW F2N  00 i add get add def
         /YW YW F2N  80 i add get add def
         /ZW ZW F2N 160 i add get add def
        } for %i=0,79

/kP 48 def
Xi kP XW put
Yi kP YW put
Zi kP ZW put
/SUM XW YW add ZW add def
/XANW XW SUM 0.0001 add div def
/YANW YW SUM 0.0001 add div def
XANi kP XANW put
YANi kP YANW put

%**********************************************************************
%needed
%       LUTL*a j LAB*Lja jx get put
%       LUTA*a j LAB*aja jx get put
%       LUTB*a j LAB*bja jx get put
%       habton itonj LUTB*a j get LUTA*a j get atan put

/LAB*Li 99 array def %only 48 used here
/LAB*ai 99 array def
/LAB*bi 99 array def
/LAB*Ci 99 array def
/LAB*hi 99 array def

/LAB*Lia 99 array def
/LAB*aia 99 array def
/LAB*bia 99 array def
/LAB*Cia 99 array def
/LAB*hia 99 array def

/D13 1 3 div def
/D841_108 841 108 div def
/D16_116 16 116 div def
/D24_116 24 116 div 3 exp def
/a2D65 0.2191 def
/b2D65 -0.08376 def

0 1 48 {/i exch def %i=0,48 %including white

K 0 eq {/X Xi i get def
        /Y Yi i get def
        /Z Zi i get def
       }
       {
        /X Xi i get XN1 add 1.0271 div 0.886 mul def
        /Y Yi i get YN1 add 1.0271 div 0.886 mul def
        /Z Zi i get ZN1 add 1.0271 div 0.886 mul def
       } ifelse

X XW div D24_116 gt {/FXXN X XW div 0.0001 add D13 exp def}
                    {/FXXN D841_108 X XW div mul D16_116 add def} ifelse

Y YW div D24_116 gt {/FYYN Y YW div 0.0001 add D13 exp def}
                    {/FYYN D841_108 Y YW div mul D16_116 add def} ifelse

Z ZW div D24_116 gt {/FZZN Z ZW div 0.0001 add D13 exp def}
                    {/FZZN D841_108 Z YW div mul D16_116 add def} ifelse

/L* 116. FYYN mul 16. sub def
/a* 500. FXXN FYYN sub mul def
/b* 200. FYYN FZZN sub mul def
/C*ab a* dup mul
      b* dup mul add 0.0001 add sqrt def
/hab b* a* 0.0001 add atan def

LAB*Lia i L*   put
LAB*aia i a*   put
LAB*bia i b*   put
LAB*Cia i C*ab put
LAB*hia i hab  put

LUTL*a i L*   put
LUTA*a i a*   put
LUTB*a i b*   put

habton i LUTB*a i get LUTA*a i get 0.0001 add atan put

} for %i=0,48

%change of decending to increasing hue angle order

0 1 47 {/i exch def %i=0,47
       LUTL*c i LUTL*a 47 i sub get put
       LUTA*c i LUTA*a 47 i sub get put
       LUTB*c i LUTB*a 47 i sub get put
       habton i LUTB*c i get LUTA*c i get 0.0001 add atan put
       w1ic   i w1i    47 i sub get put
       w2ic   i w2i    47 i sub get put
       wdic   i wdi    47 i sub get put
       wcic   i wci    47 i sub get put
       wdcic  i wdci   47 i sub get put
       wccic  i wcci   47 i sub get put
       } for %i=0,47

/imin -1 def
0 1 46 {/i exch def %i=0,46
       habton i 1 add habton i get sub -100 lt
       {/imin i def exit} if
       } for %i=0,46
imin -1 eq {STOP imin false} if

%usually imin=25, imin1=26
%new order imin1..47->0..47-26
%          0 imin   ->47-45..47

/imin1 imin 1 add def
imin1 1 47 {/i exch def %i=imin1,47
            LUTL*b i imin1 sub LUTL*c i get put
            LUTA*b i imin1 sub LUTA*c i get put
            LUTB*b i imin1 sub LUTB*c i get put
            habton i imin1 sub
            LUTB*c i get 0.0001 add
            LUTA*c i get 0.0001 add atan put
            w1ib   i imin1 sub w1ic   i get put
            w2ib   i imin1 sub w2ic   i get put
            wdib   i imin1 sub wdic   i get put
            wcib   i imin1 sub wcic   i get put
            wdcib  i imin1 sub wdcic  i get put
            wccib  i imin1 sub wccic  i get put            
           } for %i=imin1,47 

0 1 imin   {/i exch def %i=0,imin
            LUTL*b 47 imin sub LUTL*c i get put
            LUTA*b 47 imin sub LUTA*c i get put
            LUTB*b 47 imin sub LUTB*c i get put
            habton 47 imin sub
            LUTB*c i get 0.0001 add
            LUTA*c i get 0.0001 add atan put
            w1ib   47 imin sub w1ic   i get put
            w2ib   47 imin sub w2ic   i get put
            wdib   47 imin sub wdic   i get put
            wcib   47 imin sub wcic   i get put
            wdcib  47 imin sub wdcic  i get put
            wccib  47 imin sub wccic  i get put
           } for %i=0,imin

/L*Nio 0.0001 def
/A*Nio 0 def
/B*Nio 0 def
/L*Wio LAB*Lia 48 get def
/A*Wio LAB*aia 48 get def
/B*Wio LAB*bia 48 get def

/XNio 0.0001 def
/YXio 0.0001 def
/ZNio 0.0001 def

/XWio XLWD65100 def
/YWio YLWD65100 def
/ZWio ZLWD65100 def

0 setgray
/TBGGT {290 /TimesB-ISOL1 FS} bind def
/TBIGGT {290 /TimesBI-ISOL1 FS} bind def
/TGT {250 /Times-ISOL1 FS} bind def
/TIGT {250 /TimesI-ISOL1 FS} bind def
/TBGT {250 /TimesB-ISOL1 FS} bind def
/TBIGT {250 /TimesBI-ISOL1 FS} bind def
/TBMT {200 /TimesB-ISOL1 FS} bind def
/TBIMT {200 /TimesBI-ISOL1 FS} bind def
/ishowGT {TBMT -00 -50 rmoveto show 00 50 rmoveto TBGT} bind def
/ishowGGT {TBGT -00 -50 rmoveto show 00 50 rmoveto TBGGT} bind def

/RYGBton 17 array def

/RYGB0 RYGBLAB* 02 get RYGBLAB* 01 get atan def %026
/RYGB1 RYGBLAB* 05 get RYGBLAB* 04 get atan def %092
/RYGB2 RYGBLAB* 08 get RYGBLAB* 07 get atan def %162
/RYGB3 RYGBLAB* 11 get RYGBLAB* 10 get atan def %272


0 1 16 {/j exch def %i=0,16 elementary and intemediate hue angles
/j0 j j 4 idiv 4 mul sub def %0,1,2,3
/b0 j0 0.25 mul def
/a0 1 b0 sub def
j 00 ge j 03 le and {RYGBton j a0 RYGB0 mul b0 RYGB1 mul add put} if
j 04 ge j 07 le and {RYGBton j a0 RYGB1 mul b0 RYGB2 mul add put} if
j 08 ge j 11 le and {RYGBton j a0 RYGB2 mul b0 RYGB3 mul add put} if
j 12 ge j 15 le and {RYGBton j a0 RYGB3 mul b0 RYGB0 360 add mul add
                               dup 360 ge {360 sub} if put} if

j 16 eq {RYGBton j RYGB0 put} if
         } for %j=0,16 elementary and intemediate hue angles
 
0 setgray
/xton 050 def
/ymax2 7000 def

xton ymax2 700 add moveto
TBIGGT (rgb*) show (e) ishowGGT TBGGT
( and CIE data of a elementary hue circle according to) showea
(\255 und CIE\255Daten eines Elementar\255Bunttonkreises nach) showde
( CIE R1\25547) show
( for) showea
( f\374r) showde
TBIGGT
( Ostwald) show
TBGGT
( colours) showea
(\255Farben) showde

xton ymax2 350 add moveto
TBIGT
xchart 0 eq {%xchart=0,1
             (XYZ, xy, YAB,) showea
             (XYZ\255, xy\255, YAB\255) showde
            }%xchart=0
            {%xchart=1
             (XYZ, ab, YAB) showea
             (XYZ\255, ab\255, YAB) showde
             (,) showea
             (\255) showde
            } ifelse %xchart=0,1
TBGT
( and) showea
( und) showde
TBIGT
( Lab*) show
TBGT
( data for relative spacing of elementary hue) showea
(\255Daten f\374 relative Stufung des Elementarbunttons) showde
TBIGT
( h) show (ab) ishowGT
TBGT
( of CIELAB, ) showea
( von CIELAB, ) showde
TBIGT
(Y) show (W) ishowGT
TBGT
K 0 eq {(=100, ) show} if
K 1 eq {(=88,6, ) show} if
TBIGT
(Y) show (N) ishowGT
TBGT
YFa 0 eq {(=0) show} if
YFa 1 eq {(=2,5) show} if

TBGT
xton ymax2 moveto
(16 step elementary hue circle with intended elementary hues:) showea
(16\255stufiger Elementar\255Bunttonkreis mit Ziel\255Elementar\255Buntton:) showde
TBIGT
( h) show (ab)ishowGT
TBGT
( = ) show
RYGB0 cvsshow1 (, ) show
RYGB1 cvsshow1 (, ) show
RYGB2 cvsshow1 (, ) show
RYGB3 cvsshow1
TBGT
( of CIELAB) showea
( von CIELAB) showde

/xtext 0 def
xtext 1 eq {%xtext=1
%title text
0 1 5 {/xtonj exch def %xtonj=0,5

/xton 150 4180 xtonj mul add def

xton 0 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (rgb -> rgb*) show (d) ishowGT TBGT
xton 2.0 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (h) show (ab) ishowGT

xton 2.9 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (L*) show
xton 3.8 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (a*) show %(a) ishowGT
xton 4.7 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (b*) show %(a) ishowGT

TGT
%xton 0 xdel2 mul add ymax3 j ydel2 mul sub moveto
%LUTR jx 7 mul       get 0.001 mul cvsshow2 ( ) show
%LUTR jx 7 mul 1 add get 0.001 mul cvsshow2 ( ) show
%LUTR jx 7 mul 2 add get 0.001 mul cvsshow2

%STOPx

0 1 7 {/j exch def %j=0,7
/n xtonj 8 mul j add def
xton 0.0 xdel2 mul add ymax3 j ydel2 mul sub moveto
n cvishow
xton 0.4 xdel2 mul add ymax3 j ydel2 mul sub moveto
w1i n get cvishow
xton 1.1 xdel2 mul add ymax3 j ydel2 mul sub moveto
w2i n get cvishow
xton 1.8 xdel2 mul add ymax3 j ydel2 mul sub moveto
wdi n get cvishow
xton 2.5 xdel2 mul add ymax3 j ydel2 mul sub moveto
wci n get cvishow
xton 3.1 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTB*b n get LUTA*b n get 0.00001 add atan cvsshow1
TGT
xton 3.9 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTL*b n get cvishow
xton 4.7 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTA*b n get cvishow
xton 5.5 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTB*b n get cvishow
      } for %j=0,7
      } for %xtonj=0,5
} if %xtext=1
     
0 setgray
/xton 050 def

/xtext 0 def
xtext 1 eq {%xtext=1
xton ymax2 ydel2 8 mul sub moveto
TBIGT (RYGB) show (ton) ishowGT
TGT
(, ) show RYGB0 cvsshow1
(, ) show RYGB1 cvsshow1
(, ) show RYGB2 cvsshow1
(, ) show RYGB3 cvsshow1

TBIGT (     RYGB) show (all) ishowGT (:) show
TGT
0 1 15 {/j exch def %j=0,15
        xton 5000 add j 750 mul add ymax2 ydel2 8 mul sub moveto
        RYGBton j get cvsshow1
       } for %j=0,15

TBIGT (    LAB*Nio: ) show TGT
L*Nio cvsshow1 (,  ) show
A*Nio cvsshow1 (,  ) show
B*Nio cvsshow1
TBIGT (    LAB*Wio: ) show TGT
L*Wio cvsshow1 (,  ) show
A*Wio cvsshow1 (,  ) show
B*Wio cvsshow1
} if %xtext=1

%/ymax2 7000 def
/ymax2 7000 def

%TBGT
%100 ymax2 ydel2 9.5 mul sub moveto
%(16 step elementary hue circle with intended elementary hues:) showea
%(16\255stufiger Elementar\255Bunttonkreis mit Ziel\255Elementar\255Buntton:) showde
%TBIGT
%( h) show (ab,a)ishowGT
%TBGT
%( = ) show
%RYGB0 cvsshow1 (, ) show
%RYGB1 cvsshow1 (, ) show
%RYGB2 cvsshow1 (, ) show
%RYGB3 cvsshow1
TGT

/ivar 0 def
/jm 1.7 def /jx ivar 0 eq {2.5 def}
                          {22.7 def} ifelse %color series title text
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub ydel2 add moveto
/yact ymax2 jx ydel2 mul sub ydel2 add def
%/j 0 def
%/jm 19.7 def %color series title text
%/yact ymax2 10.5 j 7 mul add ydel2 mul sub ydel2 add def
xton jm       xdel2 mul add yact moveto
TBIGT (X) show
xton jm 1 add xdel2 mul add yact moveto
TBIGT (Y) show
xton jm 2 add xdel2 mul add yact moveto
TBIGT (Z) show

xchart 0 eq {%xchart=0
xton jm 3 add xdel2 mul add yact moveto
TBIGT (x) show 
xton jm 4 add xdel2 mul add yact moveto
TBIGT (y) show
} if %xchart=0

xchart 1 eq {%xchart=1
xton jm 3 add xdel2 mul add yact moveto
TBIGT (a) show
xton jm 4 add xdel2 mul add yact moveto
TBIGT (b) show
} if %xchart=1

xton jm 5 add xdel2 mul add yact moveto
TBIGT (A) show
xton jm 6 add xdel2 mul add yact moveto
TBIGT (B) show
xton jm 7 add xdel2 mul add yact moveto
TBIGT (C) show (AB) ishowGT
xton jm 8 add xdel2 mul add yact moveto
TBIGT (h) show (AB) ishowGT

xton jm 9 add xdel2 mul add yact moveto
TBIGT (L*) show %(a) ishowGT
xton jm 10 add xdel2 mul add yact moveto
TBIGT (a*) show %(a) ishowGT
xton jm 11 add xdel2 mul add yact moveto
TBIGT (b*) show %(a) ishowGT
xton jm 11.9 add xdel2 mul add yact moveto
TBIGT (C*) show (ab) ishowGT
xton jm 13 add xdel2 mul add yact moveto
TBIGT (h) show (ab) ishowGT

xton jm 14 add xdel2 mul add yact moveto
TBIGT (rgb -> rgb*) show (e) ishowGT TBGT

%increasing order with LUTL*b etc!
/itonx  0 def
/itonx1 0 def
/habtonM 0 def
/habton0 0 def
/habton1 0 def
/habtonP 0 def

/habton2M 0 def
/habton2  0 def
/habton3  0 def
/habton3P 0 def

/LUTL*b2M 0.0001 def
/LUTL*b2  0.0001 def
/LUTL*b3  0.0001 def
/LUTL*b3P 0.0001 def

/LUTA*b2M 0.0001 def
/LUTA*b2  0.0001 def
/LUTA*b3  0.0001 def
/LUTA*b3P 0.0001 def

/LUTB*b2M 0.0001 def
/LUTB*b2  0.0001 def
/LUTB*b3  0.0001 def
/LUTB*b3P 0.0001 def

TGT
/I45 45 def %hue circle steps (47-2) for first step at i=0
/I39 39 def %hue circle of 40 steps (40-1) and i-0,39

/ymax2x ymax2 2600 sub def
/xtext 0 def
xtext 1 eq {%xtext=1
0 1 47 {/jj exch def
        xton ymax2x 220 jj mul sub moveto
        jj 9 le {(0) show} if
        jj cvishow ( ) show habton jj get cvsshow1
        xton 1000 add ymax2x 220 jj mul sub moveto
        LUTL*b jj get cvsshow1
        xton 2000 add ymax2x 220 jj mul sub moveto
        LUTA*b jj get cvsshow1
        xton 3000 add ymax2x 220 jj mul sub moveto
        LUTB*b jj get cvsshow1
       } for %jj=0,47
} if %xtext=1

0 1 15 {/j exch def %j=0,15
        1 1 I39 {/jj exch def %jj=1,I39
                 /habtonM habton jj 1 sub get def
                 /habton0 habton jj       get def
                 /habton1 habton jj 1 add get def
                 /habtonP habton jj 2 add get def

/xtext 0 def
xtext 1 eq {%xtext=1
j 15 eq {%j=0
        xton 4000 add ymax2x 220 jj mul sub moveto
        jj cvishow ( ) show habton jj get cvsshow1
        xton 5000 add ymax2x 220 jj mul sub moveto
        habtonM cvsshow1
        xton 6000 add ymax2x 220 jj mul sub moveto
        habton0 cvsshow1
        xton 7000 add ymax2x 220 jj mul sub moveto
        habton1 cvsshow1
        xton 8000 add ymax2x 220 jj mul sub moveto
        habtonP cvsshow1
        xton 9000 add ymax2x 220 jj mul sub moveto
        RYGBton j get cvsshow1
} if %j=0
} if %xtext=1

habton1 5 add habton0 lt {%habton1<habton0 %5 add avoids small errors
        /habton0x habton0 def
        %attention habton0 will change!

        RYGBton j get habton0 lt
        RYGBton j get habtonM lt and {%1
                  habton0 habton1 gt {/habton0 habton0x 360 sub def} if
                  habtonM habton1 gt {/habtonM habtonM 360 sub def} if
                                     } if %1

        RYGBton j get habton0x gt
        RYGBton j get habton1 360 add lt and {%1
                  /habton1 habton1 360 add def
                  /habtonP habtonP 360 add def
                                     } if %1
} if %habton1<habton0

                 RYGBton j get habton0 ge
                 RYGBton j get habton1 lt and
                 {/itonx jj def
                 /habton2M habton jj 1 sub get def
                 /habton2  habton jj       get def
                 /habton3  habton jj 1 add get def
                 /habton3P habton jj 2 add get def

                 /LUTL*b2M LUTL*b jj 1 sub get def
                 /LUTL*b2  LUTL*b jj       get def
                 /LUTL*b3  LUTL*b jj 1 add get def
                 /LUTL*b3P LUTL*b jj 2 add get def

                 /LUTA*b2M LUTA*b jj 1 sub get def
                 /LUTA*b2  LUTA*b jj       get def
                 /LUTA*b3  LUTA*b jj 1 add get def
                 /LUTA*b3P LUTA*b jj 2 add get def

                 /LUTB*b2M LUTB*b jj 1 sub get def
                 /LUTB*b2  LUTB*b jj       get def
                 /LUTB*b3  LUTB*b jj 1 add get def
                 /LUTB*b3P LUTB*b jj 2 add get def

                 /w1i2M w1i jj 1 sub get def
                 /w1i2  w1i jj       get def
                 /w1i3  w1i jj 1 add get def
                 /W1i3P w1i jj 2 add get def

                 /w2i2M w2i jj 1 sub get def
                 /w2i2  w2i jj       get def
                 /w2i3  w2i jj 1 add get def
                 /W2i3P w2i jj 2 add get def

                 /wdi2M wdi jj 1 sub get def
                 /wdi2  wdi jj       get def
                 /wdi3  wdi jj 1 add get def
                 /Wdi3P wdi jj 2 add get def

                 /wci2M wci jj 1 sub get def
                 /wci2  wci jj       get def
                 /wci3  wci jj 1 add get def
                 /Wci3P wci jj 2 add get def

/xtext 0 def
xtext 1 eq {%xtext=1
j 15 eq {%j=0
        xton 11000 add ymax2x 220 jj mul sub moveto
        jj cvishow ( ) show habton jj get cvsshow1
        xton 12000 add ymax2x 220 jj mul sub moveto
        habton2M cvsshow1
        xton 13000 add ymax2x 220 jj mul sub moveto
        habton2 cvsshow1
        xton 14000 add ymax2x 220 jj mul sub moveto
        habton3 cvsshow1
        xton 15000 add ymax2x 220 jj mul sub moveto
        habton3P cvsshow1
        xton 16000 add ymax2x 220 jj mul sub moveto
        RYGBton j get cvsshow1
} if %j=0
} if %xtext=1

                 /xdel RYGBton j get habton0 sub
                       habton1       habton0 sub div def
                } if
               } for %jj=0,I39

/XIE xdel def

/A1 XIE 1 XIE sub mul  XIE 2 sub mul  6 div def
/A2 XIE 1 add  XIE 1 sub mul  XIE 2 sub mul  0.5 mul def
/A3 XIE 1 add  XIE mul  2 XIE sub mul  0.5 mul def
/A4 XIE 1 add  XIE mul  XIE 1 sub mul 6 div def

/habtonx habton2M A1 mul
         habton2  A2 mul add
         habton3  A3 mul add
         habton3P A4 mul add def

LAB*Lta j LUTL*b2M A1 mul
          LUTL*b2  A2 mul add
          LUTL*b3  A3 mul add
          LUTL*b3P A4 mul add put

LAB*ata j LUTA*b2M A1 mul
          LUTA*b2  A2 mul add
          LUTA*b3  A3 mul add
          LUTA*b3P A4 mul add put

LAB*bta j LUTB*b2M A1 mul
          LUTB*b2  A2 mul add
          LUTB*b3  A3 mul add
          LUTB*b3P A4 mul add put


LAB*Lt j LAB*Lta j get put
/l*CIE LAB*Lt j get L*Nio sub L*Wio L*Nio sub 0.0001 add div def %system rel. lightn.
/a*s A*Wio A*Nio sub l*CIE mul def
/b*s B*Wio B*Nio sub l*CIE mul def
LAB*at j LAB*ata j get A*Nio sub a*s add put
LAB*bt j LAB*bta j get B*Nio sub b*s add put

/habtonx LAB*bta j get LAB*ata j get 0.0001 add atan def

/X* {LAB*Lt j get 16 add 116 div
     LAB*at j get 500 div add} bind def
/Y* {LAB*Lt j get 16 add 116 div} bind def
/Z* {LAB*Lt j get 16 add 116 div
     LAB*bt j get 200 div sub} bind def
Xt j X* DecodeXYZ* XLWD65100 mul put
Yt j Y* DecodeXYZ* YLWD65100 mul put
Zt j Z* DecodeXYZ* ZLWD65100 mul put

TGT
/jm 1.7 def /jx 03 j 1 mul add def %color series mkub=7 actual data
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBIGT RYGB16 j get show TGT

xton jm xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get cvsshow1
xton jm 1 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get cvsshow1
xton jm 2 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get cvsshow1

xchart 0 eq {%xchart=0
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
/SUMXZYt Xt j get Yt j get add Zt j get add def
Xt j get SUMXZYt div 0.00001 add cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get SUMXZYt div 0.00001 add cvsshow3
} if %xchart=0

%A=(X/Y -Xn/Yn)*Y
/A Xt j get Yt j get 0.0001 add div
   XWio     YWio     0.0001 add div sub Yt j get mul def
%B=(Z/Y -Zn/Yn)*Y
/B Zt j get Yt j get 0.0001 add div
   ZWio     YWio     0.0001 add div sub Yt j get mul 0.4 mul neg def
%CAB=[A**2+B**2]**(1/2) * Y
/CAB A dup mul B dup mul add 0.0001 add sqrt def
%hAB=atan (B/A)
/hAB B A 0.0001 add atan def

xchart 1 eq {%xchart=1
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get Yt j get 0.0001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get Yt j get 0.0001 add div 0.4 mul neg cvsshow3
} if %xchart=1

xton jm 5 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
A cvsshow1
xton jm 6 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
B cvsshow1
xton jm 7 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
CAB cvsshow1
xton jm 8 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
hAB cvsshow1

xton jm 9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*Lta j get cvsshow1
xton jm 10 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get cvsshow1
xton jm 11 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get cvsshow1
xton jm 12 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get dup mul LAB*bta j get dup mul add 0.00001 add sqrt cvsshow1

xton jm 13 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT LAB*bta j get LAB*ata j get atan cvsshow1 TGT

xton jm 14 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT RGB*16 j get show TGT

%special for later delete

} for %j=0,15

%************************************************************************
%Begin 5 grey steps

/ymax2 4000 def

%series Black to white
K 0 eq {/YNW 100.0 def}
       {/YNW 88.60 def} ifelse
/YW0 100 def
YNW YW0 div D24_116 gt {/FYYN YNW YW0 div 0.0001 add D13 exp def}
                    {/FYYN D841_108 YNW YW0 div mul D16_116 add def} ifelse
/L*NW 116. FYYN mul 16. sub def


YFa 0 eq {/YNN 0.001 def} %near cero
         {/YNN YN0   def} ifelse

YNN YW0 div D24_116 gt {/FYYN YNN YW0 div 0.0001 add D13 exp def}
                    {/FYYN D841_108 YNN YW0 div mul D16_116 add def} ifelse
/L*NN 116. FYYN mul 16. sub def

/L*N L*NN def
/L*W L*NW def
0 1 4 {/j exch def %j=0,4
       L*ton j L*N  L*W L*N sub j 0.25 mul mul add put
      } for %j=0,4

TBGT
100 ymax2 ydel2 8.5 mul sub moveto
(5 step equidistant grey scale with intended lightness:) showea
(5\255stufige gleichabst\344ndige Graureihe mit Ziel\255Helligkeit:) showde
TBIGT
( L*) show
TBGT
( = ) show
L*ton 0 get cvsshow1 (, ) show
L*ton 1 get cvsshow1 (, ) show
L*ton 2 get cvsshow1 (, ) show
L*ton 3 get cvsshow1 (, ) show
L*ton 4 get cvsshow1
TGT

0 1 4 {/j exch def %j=0,4
       LAB*Lta j L*ton j get put
       LAB*ata j 0 put
       LAB*bta j 0 put

       LAB*Lt j LAB*Lta j get put
       /l*CIE LAB*Lt j get L*Nio sub L*Wio L*Nio sub 0.0001 add div def %system rel. li
       /a*s A*Wio A*Nio sub l*CIE mul def
       /b*s B*Wio B*Nio sub l*CIE mul def
       LAB*at j LAB*ata j get A*Nio sub a*s add put
       LAB*bt j LAB*bta j get B*Nio sub b*s add put

/X* {LAB*Lt j get 16 add 116 div
     LAB*at j get 500 div add} bind def
/Y* {LAB*Lt j get 16 add 116 div} bind def
/Z* {LAB*Lt j get 16 add 116 div
     LAB*bt j get 200 div sub} bind def
Xt j X* DecodeXYZ* XLWD65100 mul put
Yt j Y* DecodeXYZ* YLWD65100 mul put
Zt j Z* DecodeXYZ* ZLWD65100 mul put

TGT
/jm 1.7 def /jx 11 j 1 mul add def %grey series
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBIGT L05 j get show TGT
xton jm       xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get cvsshow1
xton jm 1 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get cvsshow1
xton jm 2 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get cvsshow1

xchart 0 eq {%xchart=0
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
/SUMXZYt Xt j get Yt j get add Zt j get add def
Xt j get SUMXZYt 0.00001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get SUMXZYt 0.00001 add div cvsshow3
} if %xchart=0

/A Xt j get Yt j get 0.0001 add div
   XWio     YWio     0.0001 add div sub Yt j get mul def
%B=(Z/Y -Zn/Yn)*Y
/B Zt j get Yt j get 0.0001 add div
   ZWio     YWio     0.0001 add div sub Yt j get mul 0.4 mul neg def
%CAB=[A**2+B**2]**(1/2) * Y
/CAB A dup mul B dup mul add 0.0001 add sqrt def
%hAB=atan (B/A)
/hAB B A 0.0001 add atan def

xchart 1 eq {%xchart=1
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get Yt j get 0.0001 add div cvsshow3
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[/Title (PostScript pictures: farbe.li.tu-berlin.de/AEP6/AEP6.HTM)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
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 /Creator (klaus.richter@mac.com)
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         } bind def

/SD65 80 array def %380 bis 775 mit deltalambda=05
/SD50 80 array def %380 bis 775 mit deltalambda=05
/SP40 80 array def %380 bis 775 mit deltalambda=05
/SA00 80 array def %380 bis 775 mit deltalambda=05
/SE00 80 array def %380 bis 775 mit deltalambda=05
/SC00 80 array def %380 bis 775 mit deltalambda=05
/SP00 80 array def %380 bis 775 mit deltalambda=05
/SQ00 80 array def %380 bis 775 mit deltalambda=05

/SDAK 80 array def %380 bis 775 mit deltalambda=05
/RA   80 array def %380 bis 770 nm
/F2  240 array def %3 x 80 Daten fuer Bereich 380 bis 770nm
/F2N 240 array def %normiert auf Y=100 fuer D65 und 10nm

%C
%C      LITERATURQUELLEN  LICHTARTEN
%C      SA,SC,SD65,  CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 1.1.1, SEITE 81
%C      SD55,SD75,   CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 1.1.4, SEITE 85
%C                   LINEAR INTERPOLIERT VON 5 ZU 5NM
%C      SG,SP,SXE,   DIN 5033, BLATT 7 ,SEITE 8-9
%C                   AUSGABE  1966

/SD65 %80 data 5 nm
[50.0  52.3 54.6 68.7 82.8 87.1 91.5 92.5 93.4 90.1 86.7 
 95.8 104.9 110.9 117.0 117.4 117.8 116.3 114.9 115.4 115.9 
 112.4 108.8 109.1 109.4 108.6 107.8 106.3 104.8 106.2 107.7 
 106.0 104.4 104.2 104.0 102.0 100.0 98.2 96.3 96.1 95.8 92.2 
 88.7 89.3 90.0 89.8 89.6 88.6 87.7 85.5 83.3 83.5 83.7 
 81.9 80.0 80.1 80.2 81.2 82.3 80.3 78.3 74.0 69.7 70.7 
 71.6 73.0 74.3 68.0 61.6 65.7 69.9 72.5 75.1 69.3 63.6 55.0 
 46.4 56.6 66.8 65.1] def

/SD50 %80 data 5 nm CIE 15.3, Seite 30; aus JE540-1N.PS
[24.5 27.2 29.9 39.6 49.3 52.9 56.5 58.3 60.0 58.9
 57.8 66.3 74.8 81.0 87.2 88.9 90.6 91.0 91.4 93.2
 95.1 93.5 92.0 93.8 95.7 96.2 96.6 96.8 97.1 99.6
102.1 101.4 100.8 101.5 102.3 101.2 100.0 98.9 97.7 98.3
 98.9 96.2 93.5 95.6 97.7 98.5 99.3 99.2 99.0 97.4
 95.7 97.3 98.9 97.3 95.7 96.9 98.2 100.6 103.0 101.1
 99.1 93.3 87.4 89.5 91.6 92.2 92.9 84.9 76.9 81.7
 86.5 89.5 92.6 85.4 78.2 68.0 57.7 70.3 82.9 0.0] def %0.0 not used

/SA00 %80 data 5 nm CIE 15.3  Seite 30; aus JE540-1N.PS
[9.80 10.90 12.09 13.35 14.71 16.15 17.68 19.29 20.99
 22.79 24.67 26.64 28.70 30.85 33.09 35.41 37.81 40.30
 42.87 45.52 48.24 51.04 53.91 56.85 59.86 62.93 66.06
 69.25 72.50 75.79 79.13 82.52 85.95 89.41 92.91 96.44
 100.00 103.58 107.18 110.80 114.44 118.08 121.73 125.39
 129.04 132.70 136.35 139.99 143.62 147.24 150.84 154.42
 157.98 161.52 165.03 168.51 171.96 175.38 178.77 182.12
 185.43 188.70 191.93 195.12 198.26 201.36 204.41 207.41
 210.36 213.27 216.12 218.92 221.67 224.36 227.00 229.59
 232.12 234.59 237.01 239.37 0.0] def %0.0 not used

% AUS BILDPLA.FOR aus vrbam/wrpos:KRPROG.FOR, 5987-6023 5.10.92
%C     PROGRAMM ZUR BERECHNUNG DER RELATIVEN SPEKTRALEN STRAHLUNGSVERTEI-
%C     LUNG EINES HOHLRAUMSTRAHLERS ALS FUNKTION DER WELLENLAENGE LAMDA  
%C     BEI GEGEBENER TEMPERATUR T                                        
%C     VERWENDETE VARIABLE                                               
%C        T                   TEMPERATUR                                 
%C        C2                  PLANCKSCHE KONSTANTE (=1.4388 CM K (1967)) 
%C        LAMDA(I)            WELLENLAENGE                               
%C        S(I)                STRAHLUNGSVERTEILUNG DES HOHLRAUMSTRAHLERS 
%C                                                                       
%C     LITERATUR OFFIZIELLE EMPFEHLUNGEN DER CIE,DEUTSCHE VERSION,       
%C               CA. 1969, SEITE 21 UND TABELLE 1.1.1                    
%C                                                                       
%SDP4 80 array def %380 bis 775 mit deltalambda=05
%      DO 50 I=1,54                                                      
%   50 S(I)=100.
%     1*(560./FLOAT(LAMDA(I)))**5
%     2*(EXP(C2/(560.*10.**(-7)*T))-1.)
%     3/(EXP(C2/(FLOAT(LAMDA(I))*10.**(-7)*T))-1.)

%new CIE 15.3:2004, Eq. (3.1) page 2
%S(I) = [100{560/lambda}**5] [exp{(c2*10**7)/(TNC*560   )} - 1]
%                           /[exp{(c2*10**7)/(TNC*lambda)} - 1]
% exp = e {...} = 2.71 {...} 

%/TNC 2848 def %NLA
/TNC 4000 def
/EE 2.718281 def %e=mac pocket calculator
/C2 1.4350000 10 7 exp mul def
/lamd 80 array def


0 1 79 {%i=0,79
        /i exch def
        /lambda 380 i 5 mul add def
        lamd i lambda put
        /E1 560 lambda div 5 exp def

        /E4 C2 TNC 560    mul div def
        /E5 C2 TNC lambda mul div def

        /E6 EE E4 exp def
        /E7 EE E5 exp def

        SP40 i
        E1 100 mul E6 1 sub 
                   E7 1 sub div mul

        put
       } for %i=0,79

/xex 10 2 exp def
/yex EE 2 exp def

/SE00 %80 data 5 nm
[100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0] def %0.0 not used

/SC00 %80 data 5 nm
[ 33.00  39.92  47.40  55.17  63.30  71.81  80.60  89.53  98.10 105.80
 112.40 117.75 121.50 123.45 124.00 123.60 123.10 123.30 123.80 124.09
 123.90 122.92 120.70 116.90 112.10 106.98 102.30  98.81  96.90  96.78
  98.00  99.94 102.10 103.95 105.20 105.67 105.30 104.11 102.30 100.15
  97.80  95.43  93.20  91.22  89.70  88.83  88.40  88.19  88.10  88.06
  88.00  87.86  87.80  87.99  88.20  88.20  87.90  87.22  86.30  85.30
  84.00  82.21  80.20  78.24  76.30  74.36  72.40  70.40  68.30  66.30
  64.40  62.80  61.50  60.20  59.20  58.50  58.10  58.00  58.20  58.50
 ] def %0.0 not used

0 1 79 {/i exch def %i=0,79
        /lamda 380 i 5 mul add def
        SP00 i SE00 i get lamda 560 div mul put
        SQ00 i SE00 i get 1120 lamda sub 560 div mul put
       } for %i=0,79
 
%C      LITERATURQUELLEN  SPEKTRALWERTE
%C       F2          CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 2.1, SEITE 93-102

/F2  %3x80 data
[.001368 .002236 .004243 .007650 .01431 .02319 .04351 .07763 
 .1344 .2148 .2839 .3285 .3483 .3481 .3362 .3187 .2908 .2511 
 .1954 .1421 .09564 .05795 .03201 .01470 .0049 .0024 .0093 .0291 
 .06327 .1096 .1655 .2257 .2904 .3597 .4334 .5121 .5945 .6784 
 .7621
 .8425 .9163 .9786 1.0263 1.0567 1.0622 1.0456 1.0026 .9384 
 .8544 .7514 .6424 .5419 .4479 .3608 .2835 .2187 .1649 .1212 
 .0874 .0636 .04677 .03290 .02270 .01584 .01136 .00811 .00579 
 .004109 .002899 .002049 .001440 .0009999 .0006901 
 .000476 .0003323 .0002348 .0001662 .0001174 .00008308 .00005871 
 .000039 .000064 .00012 .000217 .000396 .00064 .00121 .00218 
 .004 .0073 .0116 .01684 .023 .0298 .0380 .048 .06 .0739 
 .09098 .1126 .139 .1693 .208 .2586 .323 .4073 .503 .6082 .71 
 .7932 .862 .9149 .954 .9803 .995 1.0 .995 .9786 .952 
 .9154 .870 .8163 .757 .6949 .631 .5668 .503 .4412 .381 .321 
 .265 .217 .175 .1382 .107 .0816 .061 .04458 .032 .0232 .017 
 .01192 .00821 .005723 .004102 .002929 .002091 .001484 
 .001047 .00074 .00052 .0003611 .0002492 .0001719 
 .00012 .0000848 .00006 .0000424 .00003 .0000212 
 .00645 .01055 .02005 .03621 .06785 .1102 .2074 .3713 .6456 
 1.0391 1.3856 1.623 1.7471 1.7826 1.7721 1.7441 1.6692 
 1.5281 1.2876 1.0419 .8130 .6162 .4652 .3533 .2720 .2123 
 .1582 .1117 .07825 .05725 .04216 .02984 .0203 .0134 .00875 
 .00575 .0039 .00275 .0021 .0018 .00165 .0014 .0011 .0010 .0008 
 .0006 .00034 .00024 .00019 .0001 .00005 .00003 .00002 .00001 % 26*0 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 %26
] def

/F10 %3x80 data
[.00016 .0006624 .002362 .007242 .01911 .0434 .08474 .1406 .2045 
 .2647 .3147 .3577 .3837 .3867 .3707 .343 .3023 .2541 .1956 .1323
  .08051 .04107 .01617 .005132 .003816 .01544 .03746 .07136 .1177
  .173 .2365 .3042 .3768 .4516 .5298 .6161 .7052 .7938 .8787 
 .9512 1.0142 1.0743 1.1185 1.1343 1.124 1.0891 1.0305 .9507 
 .8563 .7549 .6475 .5351 .4316 .3437 .2683 .2043 .1526 .1122 
 .08126 .05793 .04085 .02862 .019941 .01384 .0100 .006605 
 .004552 .003145 .002175 .001506 .001045 .0007274 .0005083 
 .0003564 .000251 .0001777 .0001264 .00009015 .00006453 .00004634 
 .00001736 .00007156 .0002534 .0007685 .002004 .004509 .008756 
 .01446 .02139 .0295 .03868 .0496 .06208 .0747 .08946 .1063 .1282 
 .1528 .1852 .2199 .2536 .2977 .3391 .3954 .4608 .5314 .6067 
 .6857 .7618 .8233 .8752 .9238 .962 .9822 .9918 .9991 .9973 .9824 
 .9555 .9152 .8689 .8256 .7774 .7203 .6583 .5939 .528 .4618 .3981 
 .3395 .2835 .2282 .1798 .1402 .1076 .08119 .06028 .0441 .0318 
 .0226 .0159 .01113 .007749 .0053751 .0037177 .002565 .001768 
 .001222 .0008462 .0005864 .0004074 .000284 .0001987 .0001395 
 .00009843 .00006982 .00004974 .00003554 .00002549 .00001834 
 .0007048 .002928 .01048 .03234 .08601 .1971 .3894 .6568 .9725 
 1.2825 1.5535 1.7985 1.9673 2.0273 1.9948 1.9007 1.7454 
 1.5549 1.3176 1.0302 .7721 .5701 .4152 .3024 .2185 .1592 .112 
 .08225 .06071 .04305 .03045 .02058 .01368 .007918 .003988 
 .001091 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %30
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %40
 0.0 0.0 0.0 0.0 %44
] def


%calculation of transformation data
/FARBE 27 array def
/FARBE [(R) (m) ( 561_770) %00
        (Y) (m) ( 520_770) %01
        (G) (m) ( 475_573) %02
        (C) (m) ( 380_561) %03
        (B) (m) ( 380_495) %04
        (M) (m) ( 573_475) %05
        (N) (0) ( 380_770) %06
        (W) (0) ( 380_770) %07
        (W) (1) ( 380_770) %08
       ] def

%/FARBE [(R) (m) ( 565_770) %00
%        (Y) (m) ( 520_770) %01
%        (G) (m) ( 475_575) %02
%        (C) (m) ( 380_565) %03
%        (B) (m) ( 380_495) %04
%        (M) (m) ( 575_475) %05
%        (N) (0) ( 380_770) %06
%        (W) (0) ( 380_770) %07
%        (W) (1) ( 380_770) %08
%       ] def

/xshift 10 array def %max 6 device + 4 elementary
/yshift 10 array def
/colori 10 array def

/xcolorl xcolor def
%0 1 1 {/xcolorl exch def %xcolorl=0,1
       

xcolorl 1 eq {0 1 79 {/i exch def %i=0,79
                      F2 i F10 i get put
                     } for %i=0,79
             } if

/YKSUM 0 def %For CIE Illuminant E
0 1 79 {/i exch def %i=0,1,79
        /YKSUM YKSUM F2  80 i add get add def
} for %i=0,1,79

/F2N 240 array def
0 1 79 {/i exch def %i=0,1,79
        F2N  00 i add F2  00 i add get YKSUM div 100 mul put
        F2N  80 i add F2  80 i add get YKSUM div 100 mul put
        F2N 160 i add F2 160 i add get YKSUM div 100 mul put
} for %i=0,1,79

/FXN 80 array def %FXN 0 = F2N imax
/FYN 80 array def
/FZN 80 array def
%defines FXN, FYN, FZN 0 to 79
0 1 79 {/i exch def %i=0,79
        FXN i F2N 000 i add get put
        FYN i F2N 080 i add get put
        FZN i F2N 160 i add get put
} for %i=0,79

%special wavelength range with complementary colours for E?
/FXD 63 array def
/FYD 63 array def
/FZD 63 array def
/DOW 63 array def

00 1 60 {/i exch def %i=0,60 %range 400..700nm
         FXD i FXN 005 i add get put
         FYD i FYN 005 i add get put
         FZD i FZN 005 i add get put
         DOW i 400 i 5 mul add put %range 400 to 700
        } for %i=0,60

%for interpolation
FXD 61 FXD 60 get put
FYD 61 FYD 60 get put
FZD 61 FZD 60 get put

FXD 62 FXD 60 get put
FYD 62 FYD 60 get put
FZD 62 FZD 60 get put

/FAD 63 array def
/FBD 63 array def
/FCD 63 array def

20 setlinewidth
/xdel  1005 def
/ydel   393 def
/x0  050 def
/x1 -150 def

/TELi 8 array def
/TELi [(D65) (D50) (P40) (A00) (E00) (C00) (P00) (Q00)] def %7 illumin.

/Xi 79 array def %max 6 device colour + 4 elementary colours
/Yi 79 array def
/Zi 79 array def
/XANi 79 array def
/YANi 79 array def
/ZANi 79 array def

/xchartl 0 def

%calculation of XW,YW,ZW for illuminant D65, D50, ...
0 1 79 {/i exch def %i=0,79
        SDAK i xchartl 0 eq {SD65 i get} if
               xchartl 1 eq {SD50 i get} if
               xchartl 2 eq {SP40 i get} if
               xchartl 3 eq {SA00 i get} if
               xchartl 4 eq {SE00 i get} if
               xchartl 5 eq {SC00 i get} if
               xchartl 6 eq {SP00 i get} if
               xchartl 7 eq {SQ00 i get} if
               put
       } for %i=0,79

/YKSUM 0 def
0 1 79 {/i exch def %i=0,1,79
        /YKSUM YKSUM SDAK i get F2  80 i add get mul add def
} for %i=0,1,79

0 1 79 {/i exch def %i=0,1,79
        F2N  00 i add SDAK i get F2  00 i add get mul YKSUM div 100 mul put
        F2N  80 i add SDAK i get F2  80 i add get mul YKSUM div 100 mul put
        F2N 160 i add SDAK i get F2 160 i add get mul YKSUM div 100 mul put
} for %i=0,1,79

%XW,YW,ZW for white
/XW 0 def
/YW 0 def
/ZW 0 def
0 1 079 {/i exch def %i=0,79
         /XW XW F2N  00 i add get add def
         /YW YW F2N  80 i add get add def
         /ZW ZW F2N 160 i add get add def
        } for %i=0,79

/SUMW XW YW add ZW add def %for D65, D50, P40, A00, E00
/XANW XW SUMW div def
/YANW YW SUMW div def
/ZANW ZW SUMW div def

/AANW XW YW 0.0001 add div def
/BANW ZW YW 0.0001 add div 0.4 mul neg def

0 1 62 {/i exch def %i=0,62
        FAD i FXD i get put
        FBD i FYD i get put
        FCD i FZD i get put
       } for %i=0,62

/ix0 100 def
/ix1 ix0 2000 add def
/ixd 600 def
/ixd2 500 def

/iymax 16000 def
/idy 250 def
20 setlinewidth

/ymax 16600 def
/ydel   203 def

/ymax2 15900 def
/ymax3 16100 def
/xdel2   667 def
/ydel2   250 def
/ydel2t  300 def

/ymaxt ymax 400 sub def

/xpos 100 def

%/ymax ymax 800 sub def

%***************************************************
/proc_ABC_KNP_FWERTiX
{%BEG proc_ABC_KNP_FWERT

%input FAD,FBD,FCD, KNP
%output FWERTiX/Y/Z (i=1,4)

    kNP 1 ge {/FWERT1X FAD kNP 1 sub get def
              /FWERT1Y FBD kNP 1 sub get def
              /FWERT1Z FCD kNP 1 sub get def}
             {/FWERT1X FAD 0 get def %again 400nm for i=0
              /FWERT1Y FBD 0 get def
              /FWERT1Z FCD 0 get def} ifelse

    /FWERT2X FAD kNP get def
    /FWERT2Y FBD kNP get def
    /FWERT2Z FCD kNP get def

    /FWERT3X FAD kNP 1 add get def
    /FWERT3Y FBD kNP 1 add get def
    /FWERT3Z FCD kNP 1 add get def

    /FWERT4X FAD kNP 2 add get def
    /FWERT4Y FBD kNP 2 add get def
    /FWERT4Z FCD kNP 2 add get def

} bind def %END proc_ABC_KNP_FWERTiX

%*********************************************************
/proc_XIE_TN1
{%BEG proc_XIE_TN1

%input XIE, FWERTiX/Y/Z (i=1,4)
%output TN1

/A1N XIE       1 XIE sub mul XIE 2 sub mul 6 div   def
/A2N XIE 1 add XIE 1 sub mul XIE 2 sub mul 0.5 mul def
/A3N XIE 1 add XIE       mul 2 XIE sub mul 0.5 mul def
/A4N XIE 1 add XIE       mul XIE 1 sub mul 6 div   def
/FNX A1N FWERT1X mul
     A2N FWERT2X mul add
     A3N FWERT3X mul add
     A4N FWERT4X mul add def
/FNY A1N FWERT1Y mul
     A2N FWERT2Y mul add
     A3N FWERT3Y mul add
     A4N FWERT4Y mul add def
/FNZ A1N FWERT1Z mul
     A2N FWERT2Z mul add
     A3N FWERT3Z mul add
     A4N FWERT4Z mul add def
/TNX FNX FXU1 mul
     FNY FXU2 mul add
     FNZ FXU3 mul add def

} bind def %END proc_XIE_TN1

%*****************************************************
/i1i 60 array def
/i2i 60 array def
/idi 60 array def
/ici 60 array def

/w1i 60 array def
/w2i 60 array def
/wdi 60 array def
/wci 60 array def

/w1ci 60 array def
/w2ci 60 array def
/wdci 60 array def
/wcci 60 array def

/i1ib 60 array def
/i2ib 60 array def
/idib 60 array def
/icib 60 array def

/w1ib 60 array def
/w2ib 60 array def
/wdib 60 array def
/wcib 60 array def

/w1cib 60 array def
/w2cib 60 array def
/wdcib 60 array def
/wccib 60 array def

/i1ic 60 array def
/i2ic 60 array def
/idic 60 array def
/icic 60 array def

/w1ic 60 array def
/w2ic 60 array def
/wdic 60 array def
/wcic 60 array def

/w1cic 60 array def
/w2cic 60 array def
/wdcic 60 array def
/wccic 60 array def

0 1 59 {/i exch def %i=0,59
        i1i i 0 put
        i2i i 0 put
        idi i 0 put
        ici i 0 put

        w1i i 0 put
        w2i i 0 put
        wdi i 0 put
        wci i 0 put

        w1ci i (x) put
        w2ci i (x) put
        wdci i (x) put
        wcci i (x) put
        
       } for %i=0,59

/WEL1 60 array def %irregular definition
/WEL2 60 array def %irregular definition
      %0   1   2   3   4   5   6   7   8   9
/WEL1 [405 435 450 460 465 470 475 480 485 490
       495 500 510 520 530 540 545 550 555 560
      ] def

0 1 19 {/i exch def
        w1i i        WEL1 i get put
        w2i i 20 add WEL1 i get put
       } for

0 1 19 {/k exch def %k=0,19 %wavelength 405..700nm

        /j  WEL1 k get 400 sub 5 idiv def
        /ik k def
        /ik2 k 20 add def
       /FF1 FXD j get def %start at 405..700nm
       /FF2 FYD j get def
       /FF3 FZD j get def

       /U1 XW def
       /U2 YW def
       /U3 ZW def
       /FXU1 FF2 U3 mul FF3 U2 mul sub def
       /FXU2 FF3 U1 mul FF1 U3 mul sub def
       /FXU3 FF1 U2 mul FF2 U1 mul sub def

/INP -1 def
/IPN -1 def
%assumption jump from TN to TP from negativ to positiv
       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add def
               TN 0 le TP 0 gt and {/INP i def exit} if
              } for %i=1,60

       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add neg def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add neg def
               TN 0 le TP 0 gt and {/IPN i def exit} if
              } for %i=1,60

TM
%ix1 ixd 22 mul add iymax ik idy mul sub moveto INP cvishow
%ix1 ixd 23 mul add iymax ik idy mul sub moveto IPN cvishow
i1i ik INP put
i2i ik IPN put

%ix1 ixd 22 mul add iymax ik2 idy mul sub moveto IPN cvishow
%ix1 ixd 23 mul add iymax ik2 idy mul sub moveto INP cvishow
i1i ik2 IPN put
i2i ik2 INP put

%STOP1
%*********************************************************
/kNP INP def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE1 DOW INP get DOW INP 1 add get DOW INP get sub XIE mul add def
/XIENP XIE def

       } if %kNP>=0

%*********************************************************
/kNP IPN def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def
/FXU1 FXU1 neg def
/FXU2 FXU2 neg def
/FXU3 FXU3 neg def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE2 DOW IPN get DOW IPN 1 add get DOW IPN get sub XIE mul add def
/XIEPN XIE def

       } if %kNP>=0

%*********************************************************
%0 1 1 0 setcmyk_olvcolor
INP 0 ge {%INP>=0,-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 0.03 add cvishow %includes rounding failure
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE1 0.03 add cvishow
          w1i  ik DOWXIE1 put
          w1ci ik () put
          w2i  ik2 DOWXIE1 put
          w2ci ik2 () put
          /DOWEL1 DOWXIE1 def /DOWEL1c () def
         }%INP>=0
         {%INP=-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow (c) show
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LPP mul sub moveto
          w1i  ik DOWXIE2 put
          w1ci ik (c) put    
          w2i  ik2 DOWXIE2 put
          w2ci ik2 (c) put
%          DOWXIE2 cvishow (c) show
          /DOWEL1 DOWXIE2 def /DOWEL1c (c) def
         } ifelse %INP>=0,-1

%1 0 1 0 setcmyk_olvcolor
IPN 0 ge {%IPN>=0,-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 0.03 add cvishow
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE2 0.03 add cvishow
          w2i  ik DOWXIE2 put
          w2ci ik () put
          w1i  ik2 DOWXIE2 put
          w1ci ik2 () put
          /DOWEL2 DOWXIE2 def /DOWEL2c () def
         }%IPN>=0
         {%IPN=-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow (c) show
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE1 cvishow (c) show
          w2i  ik DOWXIE1 put
          w2ci ik (c) put
          w1i  ik2 DOWXIE1 put
          w1ci ik2 (c) put
          /DOWEL2 DOWXIE1 def /DOWEL2c (c) def
         } ifelse %IPN>=0,-1

0 0 0 1 setcmyk_olvcolor

%*********************************************************
0 1 79 {/i exch def %i=0,79
        RA i 0 put
       } for %i=0,79

INP -1 eq {/i1 0 def}                %380nm
          {/i1 INP 5 add def} ifelse %405..700nm

IPN -1 eq {/i2 79 def}               %770nm
          {/i2 IPN 5 add def} ifelse %405..700nm

i2 i1 ge {%i1<i2
          i1 1 i2 {/i exch def %i=i1,i2
                   RA i 1 put
                  } for %i=i1,i2
         }%i1<i2
         {%i1>i2
          i1 1 79 {/i exch def %i=i1,79
                   RA i 1 put
                  } for %i=i1,79
          0  1 i2 {/i exch def %i=0,i2
                   RA i 1 put
                  } for %i=0,i2
                  
         } ifelse %i1>i2

%correction
i2 i1 ge {%i1<i2
          RA i1 0.5 put
          RA i2 0.5 XIEPN 0.5 sub add put
         }%i1<i2
         {%i1>i2
          RA i1 0.5 put
          RA i2 0.5 XIEPN 0.5 sub add put
         } ifelse %i1>i2

%***************************************************
/X 0 def
/Y 0 def
/Z 0 def
          0 1 079 {/i exch def %i=0,79
                   /X X F2N  00 i add get RA i get mul add def
                   /Y Y F2N  80 i add get RA i get mul add def
                   /Z Z F2N 160 i add get RA i get mul add def
                  } for %i=0,79

/SUM X Y add Z add def
/XAN X SUM 0.0001 add div def
/YAN Y SUM 0.0001 add div def
/ZAN Z SUM 0.0001 add div def

%*************************************************
/xpos 100 def

0 1 1 {/Icom exch def %Icom=0,1

Icom 1 eq {%Icom=1
           /X XW X sub def
           /Y YW Y sub def
           /Z ZW Z sub def
           /SUM X Y add Z add def
           /XAN X SUM 0.0001 add div def
           /YAN Y SUM 0.0001 add div def
           /ZAN Z SUM 0.0001 add div def
           /ik ik 20 add def
          } if %Icom=1


%ix0 ixd 0 mul add iymax ik idy mul sub moveto WEL1 ik0 get cvishow
%ix0 ixd 1 mul add iymax ik idy mul sub moveto ik cvishow
%ix0 ixd 2 mul add iymax ik idy mul sub moveto

%Icom 0 eq {%Icom=0,1
%           ik0  0 eq {(Cm) show} if
%           ik0  6 eq {(Gm) show} if
%           ik0 13 eq {(Ym) show} if
%          }%Icom=0
%          {%Icom=1
%           ik0  0 eq {(Rm) show} if
%           ik0  6 eq {(Mm) show} if
%           ik0 13 eq {(Bm) show} if
%          } ifelse %Icom=0,1

%*********************************************************
%calculation of lamdad and lambdac for X, Y, Z
       /FF1 X def
       /FF2 Y def
       /FF3 Z def

       /U1 XW def
       /U2 YW def
       /U3 ZW def
       
       /FXU1 FF2 U3 mul FF3 U2 mul sub def
       /FXU2 FF3 U1 mul FF1 U3 mul sub def
       /FXU3 FF1 U2 mul FF2 U1 mul sub def

/INP -1 def
/IPN -1 def
%assumption jump from TN to TP from negativ to positiv
       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add def
               TN 0 le TP 0 gt and {/INP i def exit} if
              } for %i=1,60

       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add neg def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add neg def
               TN 0 le TP 0 gt and {/IPN i def exit} if
              } for %i=1,60

TK
%ix1 ixd 22 mul add iymax ik idy mul sub moveto INP cvishow
%ix1 ixd 23 mul add iymax ik idy mul sub moveto IPN cvishow

idi ik INP put
ici ik IPN put 

%*********************************************************
/kNP INP def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE1 DOW INP get DOW INP 1 add get DOW INP get sub XIE mul add def

       } if %kNP>=0

%*********************************************************
/kNP IPN def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def
/FXU1 FXU1 neg def
/FXU2 FXU2 neg def
/FXU3 FXU3 neg def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE2 DOW IPN get DOW IPN 1 add get DOW IPN get sub XIE mul add def

       } if %kNP>=0

%*********************************************************
%0 1 1 0 setcmyk_olvcolor
INP 0 ge {%INP>=0,-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 9 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow
          wdi  ik DOWXIE1 put
          wdci ik () put
          /DOWEL1 DOWXIE1 def /DOWEL1c () def
         }%INP>=0
         {%INP=-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 9 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow (c) show
          wdi  ik DOWXIE2 put
          wdci ik (c) put
          /DOWEL1 DOWXIE2 def /DOWEL1c (c) def
         } ifelse %INP>=0,-1

%*********************************************************
%1 0 1 0 setcmyk_olvcolor
IPN 0 ge {%IPN>=0,-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 10 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow
          wci  ik DOWXIE2 put
          wcci ik () put
          /DOWEL2 DOWXIE2 def /DOWEL2c () def
         }%IPN>=0
         {%IPN=-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 10 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow (c) show
          wci  ik DOWXIE1 put
          wcci ik (c) put
          /DOWEL2 DOWXIE1 def /DOWEL2c (c) def
         } ifelse %IPN>=0,-1

%**********************************************************************

0 0 0 1 setcmyk_olvcolor

Icom 0 eq {%Icom=0,1
           Xi k X put
           Yi k Y put
           Zi k Z put
           XANi k XAN put
           YANi k YAN put
           ZANi k ZAN put
          }%Icom=0
          {%Icom=1
           /kP 20 k add def
           Xi kP X put
           Yi kP Y put
           Zi kP Z put
           XANi kP XAN put
           YANi kP YAN put
           ZANi kP ZAN put
          } ifelse %Icom=1

} for %k=0,19

} for %Icom=0,1

0 1 7 {/i exch def %i=0,7
       Xi  40 i add Xi  i get put %for later interpolation
       Yi  40 i add Yi  i get put
       Zi  40 i add Zi  i get put
       w1i 40 i add w1i i get put
       w2i 40 i add w2i i get put
       wdi 40 i add wdi i get put
       wci 40 i add wci i get put
      } for %i=0,7

%**********************************************************************
%XYZw stored at i=42
%XW,YW,ZW and XK,YK,ZK for white
/XW 0 def
/YW 0 def
/ZW 0 def
0 1 079 {/i exch def %i=0,79
         /XW XW F2N  00 i add get add def
         /YW YW F2N  80 i add get add def
         /ZW ZW F2N 160 i add get add def
        } for %i=0,79

/kP 48 def
Xi kP XW put
Yi kP YW put
Zi kP ZW put
/SUM XW YW add ZW add def
/XANW XW SUM 0.0001 add div def
/YANW YW SUM 0.0001 add div def
XANi kP XANW put
YANi kP YANW put

%**********************************************************************
%needed
%       LUTL*a j LAB*Lja jx get put
%       LUTA*a j LAB*aja jx get put
%       LUTB*a j LAB*bja jx get put
%       habton itonj LUTB*a j get LUTA*a j get atan put

/LAB*Li 99 array def %only 48 used here
/LAB*ai 99 array def
/LAB*bi 99 array def
/LAB*Ci 99 array def
/LAB*hi 99 array def

/LAB*Lia 99 array def
/LAB*aia 99 array def
/LAB*bia 99 array def
/LAB*Cia 99 array def
/LAB*hia 99 array def

/D13 1 3 div def
/D841_108 841 108 div def
/D16_116 16 116 div def
/D24_116 24 116 div 3 exp def
/a2D65 0.2191 def
/b2D65 -0.08376 def

0 1 48 {/i exch def %i=0,48 %including white

K 0 eq {/X Xi i get def
        /Y Yi i get def
        /Z Zi i get def
       }
       {
        /X Xi i get XN1 add 1.0271 div 0.886 mul def
        /Y Yi i get YN1 add 1.0271 div 0.886 mul def
        /Z Zi i get ZN1 add 1.0271 div 0.886 mul def
       } ifelse

X XW div D24_116 gt {/FXXN X XW div 0.0001 add D13 exp def}
                    {/FXXN D841_108 X XW div mul D16_116 add def} ifelse

Y YW div D24_116 gt {/FYYN Y YW div 0.0001 add D13 exp def}
                    {/FYYN D841_108 Y YW div mul D16_116 add def} ifelse

Z ZW div D24_116 gt {/FZZN Z ZW div 0.0001 add D13 exp def}
                    {/FZZN D841_108 Z YW div mul D16_116 add def} ifelse

/L* 116. FYYN mul 16. sub def
/a* 500. FXXN FYYN sub mul def
/b* 200. FYYN FZZN sub mul def
/C*ab a* dup mul
      b* dup mul add 0.0001 add sqrt def
/hab b* a* 0.0001 add atan def

LAB*Lia i L*   put
LAB*aia i a*   put
LAB*bia i b*   put
LAB*Cia i C*ab put
LAB*hia i hab  put

LUTL*a i L*   put
LUTA*a i a*   put
LUTB*a i b*   put

habton i LUTB*a i get LUTA*a i get 0.0001 add atan put

} for %i=0,48

%change of decending to increasing hue angle order

0 1 47 {/i exch def %i=0,47
       LUTL*c i LUTL*a 47 i sub get put
       LUTA*c i LUTA*a 47 i sub get put
       LUTB*c i LUTB*a 47 i sub get put
       habton i LUTB*c i get LUTA*c i get 0.0001 add atan put
       w1ic   i w1i    47 i sub get put
       w2ic   i w2i    47 i sub get put
       wdic   i wdi    47 i sub get put
       wcic   i wci    47 i sub get put
       wdcic  i wdci   47 i sub get put
       wccic  i wcci   47 i sub get put
       } for %i=0,47

/imin -1 def
0 1 46 {/i exch def %i=0,46
       habton i 1 add habton i get sub -100 lt
       {/imin i def exit} if
       } for %i=0,46
imin -1 eq {STOP imin false} if

%usually imin=25, imin1=26
%new order imin1..47->0..47-26
%          0 imin   ->47-45..47

/imin1 imin 1 add def
imin1 1 47 {/i exch def %i=imin1,47
            LUTL*b i imin1 sub LUTL*c i get put
            LUTA*b i imin1 sub LUTA*c i get put
            LUTB*b i imin1 sub LUTB*c i get put
            habton i imin1 sub
            LUTB*c i get 0.0001 add
            LUTA*c i get 0.0001 add atan put
            w1ib   i imin1 sub w1ic   i get put
            w2ib   i imin1 sub w2ic   i get put
            wdib   i imin1 sub wdic   i get put
            wcib   i imin1 sub wcic   i get put
            wdcib  i imin1 sub wdcic  i get put
            wccib  i imin1 sub wccic  i get put            
           } for %i=imin1,47 

0 1 imin   {/i exch def %i=0,imin
            LUTL*b 47 imin sub LUTL*c i get put
            LUTA*b 47 imin sub LUTA*c i get put
            LUTB*b 47 imin sub LUTB*c i get put
            habton 47 imin sub
            LUTB*c i get 0.0001 add
            LUTA*c i get 0.0001 add atan put
            w1ib   47 imin sub w1ic   i get put
            w2ib   47 imin sub w2ic   i get put
            wdib   47 imin sub wdic   i get put
            wcib   47 imin sub wcic   i get put
            wdcib  47 imin sub wdcic  i get put
            wccib  47 imin sub wccic  i get put
           } for %i=0,imin

/L*Nio 0.0001 def
/A*Nio 0 def
/B*Nio 0 def
/L*Wio LAB*Lia 48 get def
/A*Wio LAB*aia 48 get def
/B*Wio LAB*bia 48 get def

/XNio 0.0001 def
/YXio 0.0001 def
/ZNio 0.0001 def

/XWio XLWD65100 def
/YWio YLWD65100 def
/ZWio ZLWD65100 def

0 setgray
/TBGGT {290 /TimesB-ISOL1 FS} bind def
/TBIGGT {290 /TimesBI-ISOL1 FS} bind def
/TGT {250 /Times-ISOL1 FS} bind def
/TIGT {250 /TimesI-ISOL1 FS} bind def
/TBGT {250 /TimesB-ISOL1 FS} bind def
/TBIGT {250 /TimesBI-ISOL1 FS} bind def
/TBMT {200 /TimesB-ISOL1 FS} bind def
/TBIMT {200 /TimesBI-ISOL1 FS} bind def
/ishowGT {TBMT -00 -50 rmoveto show 00 50 rmoveto TBGT} bind def
/ishowGGT {TBGT -00 -50 rmoveto show 00 50 rmoveto TBGGT} bind def

/RYGBton 17 array def

/RYGB0 RYGBLAB* 02 get RYGBLAB* 01 get atan def %026
/RYGB1 RYGBLAB* 05 get RYGBLAB* 04 get atan def %092
/RYGB2 RYGBLAB* 08 get RYGBLAB* 07 get atan def %162
/RYGB3 RYGBLAB* 11 get RYGBLAB* 10 get atan def %272


0 1 16 {/j exch def %i=0,16 elementary and intemediate hue angles
/j0 j j 4 idiv 4 mul sub def %0,1,2,3
/b0 j0 0.25 mul def
/a0 1 b0 sub def
j 00 ge j 03 le and {RYGBton j a0 RYGB0 mul b0 RYGB1 mul add put} if
j 04 ge j 07 le and {RYGBton j a0 RYGB1 mul b0 RYGB2 mul add put} if
j 08 ge j 11 le and {RYGBton j a0 RYGB2 mul b0 RYGB3 mul add put} if
j 12 ge j 15 le and {RYGBton j a0 RYGB3 mul b0 RYGB0 360 add mul add
                               dup 360 ge {360 sub} if put} if

j 16 eq {RYGBton j RYGB0 put} if
         } for %j=0,16 elementary and intemediate hue angles
 
0 setgray
/xton 050 def
/ymax2 7000 def

xton ymax2 700 add moveto
TBIGGT (rgb*) show (e) ishowGGT TBGGT
( and CIE data of a elementary hue circle according to) showea
(\255 und CIE\255Daten eines Elementar\255Bunttonkreises nach) showde
( CIE R1\25547) show
( for) showea
( f\374r) showde
TBIGGT
( Ostwald) show
TBGGT
( colours) showea
(\255Farben) showde

xton ymax2 350 add moveto
TBIGT
xchart 0 eq {%xchart=0,1
             (XYZ, xy, YAB,) showea
             (XYZ\255, xy\255, YAB\255) showde
            }%xchart=0
            {%xchart=1
             (XYZ, ab, YAB) showea
             (XYZ\255, ab\255, YAB) showde
             (,) showea
             (\255) showde
            } ifelse %xchart=0,1
TBGT
( and) showea
( und) showde
TBIGT
( Lab*) show
TBGT
( data for relative spacing of elementary hue) showea
(\255Daten f\374 relative Stufung des Elementarbunttons) showde
TBIGT
( h) show (ab) ishowGT
TBGT
( of CIELAB, ) showea
( von CIELAB, ) showde
TBIGT
(Y) show (W) ishowGT
TBGT
K 0 eq {(=100, ) show} if
K 1 eq {(=88,6, ) show} if
TBIGT
(Y) show (N) ishowGT
TBGT
YFa 0 eq {(=0) show} if
YFa 1 eq {(=2,5) show} if

TBGT
xton ymax2 moveto
(16 step elementary hue circle with intended elementary hues:) showea
(16\255stufiger Elementar\255Bunttonkreis mit Ziel\255Elementar\255Buntton:) showde
TBIGT
( h) show (ab)ishowGT
TBGT
( = ) show
RYGB0 cvsshow1 (, ) show
RYGB1 cvsshow1 (, ) show
RYGB2 cvsshow1 (, ) show
RYGB3 cvsshow1
TBGT
( of CIELAB) showea
( von CIELAB) showde

/xtext 0 def
xtext 1 eq {%xtext=1
%title text
0 1 5 {/xtonj exch def %xtonj=0,5

/xton 150 4180 xtonj mul add def

xton 0 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (rgb -> rgb*) show (d) ishowGT TBGT
xton 2.0 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (h) show (ab) ishowGT

xton 2.9 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (L*) show
xton 3.8 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (a*) show %(a) ishowGT
xton 4.7 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (b*) show %(a) ishowGT

TGT
%xton 0 xdel2 mul add ymax3 j ydel2 mul sub moveto
%LUTR jx 7 mul       get 0.001 mul cvsshow2 ( ) show
%LUTR jx 7 mul 1 add get 0.001 mul cvsshow2 ( ) show
%LUTR jx 7 mul 2 add get 0.001 mul cvsshow2

%STOPx

0 1 7 {/j exch def %j=0,7
/n xtonj 8 mul j add def
xton 0.0 xdel2 mul add ymax3 j ydel2 mul sub moveto
n cvishow
xton 0.4 xdel2 mul add ymax3 j ydel2 mul sub moveto
w1i n get cvishow
xton 1.1 xdel2 mul add ymax3 j ydel2 mul sub moveto
w2i n get cvishow
xton 1.8 xdel2 mul add ymax3 j ydel2 mul sub moveto
wdi n get cvishow
xton 2.5 xdel2 mul add ymax3 j ydel2 mul sub moveto
wci n get cvishow
xton 3.1 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTB*b n get LUTA*b n get 0.00001 add atan cvsshow1
TGT
xton 3.9 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTL*b n get cvishow
xton 4.7 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTA*b n get cvishow
xton 5.5 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTB*b n get cvishow
      } for %j=0,7
      } for %xtonj=0,5
} if %xtext=1
     
0 setgray
/xton 050 def

/xtext 0 def
xtext 1 eq {%xtext=1
xton ymax2 ydel2 8 mul sub moveto
TBIGT (RYGB) show (ton) ishowGT
TGT
(, ) show RYGB0 cvsshow1
(, ) show RYGB1 cvsshow1
(, ) show RYGB2 cvsshow1
(, ) show RYGB3 cvsshow1

TBIGT (     RYGB) show (all) ishowGT (:) show
TGT
0 1 15 {/j exch def %j=0,15
        xton 5000 add j 750 mul add ymax2 ydel2 8 mul sub moveto
        RYGBton j get cvsshow1
       } for %j=0,15

TBIGT (    LAB*Nio: ) show TGT
L*Nio cvsshow1 (,  ) show
A*Nio cvsshow1 (,  ) show
B*Nio cvsshow1
TBIGT (    LAB*Wio: ) show TGT
L*Wio cvsshow1 (,  ) show
A*Wio cvsshow1 (,  ) show
B*Wio cvsshow1
} if %xtext=1

%/ymax2 7000 def
/ymax2 7000 def

%TBGT
%100 ymax2 ydel2 9.5 mul sub moveto
%(16 step elementary hue circle with intended elementary hues:) showea
%(16\255stufiger Elementar\255Bunttonkreis mit Ziel\255Elementar\255Buntton:) showde
%TBIGT
%( h) show (ab,a)ishowGT
%TBGT
%( = ) show
%RYGB0 cvsshow1 (, ) show
%RYGB1 cvsshow1 (, ) show
%RYGB2 cvsshow1 (, ) show
%RYGB3 cvsshow1
TGT

/ivar 0 def
/jm 1.7 def /jx ivar 0 eq {2.5 def}
                          {22.7 def} ifelse %color series title text
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub ydel2 add moveto
/yact ymax2 jx ydel2 mul sub ydel2 add def
%/j 0 def
%/jm 19.7 def %color series title text
%/yact ymax2 10.5 j 7 mul add ydel2 mul sub ydel2 add def
xton jm       xdel2 mul add yact moveto
TBIGT (X) show
xton jm 1 add xdel2 mul add yact moveto
TBIGT (Y) show
xton jm 2 add xdel2 mul add yact moveto
TBIGT (Z) show

xchart 0 eq {%xchart=0
xton jm 3 add xdel2 mul add yact moveto
TBIGT (x) show 
xton jm 4 add xdel2 mul add yact moveto
TBIGT (y) show
} if %xchart=0

xchart 1 eq {%xchart=1
xton jm 3 add xdel2 mul add yact moveto
TBIGT (a) show
xton jm 4 add xdel2 mul add yact moveto
TBIGT (b) show
} if %xchart=1

xton jm 5 add xdel2 mul add yact moveto
TBIGT (A) show
xton jm 6 add xdel2 mul add yact moveto
TBIGT (B) show
xton jm 7 add xdel2 mul add yact moveto
TBIGT (C) show (AB) ishowGT
xton jm 8 add xdel2 mul add yact moveto
TBIGT (h) show (AB) ishowGT

xton jm 9 add xdel2 mul add yact moveto
TBIGT (L*) show %(a) ishowGT
xton jm 10 add xdel2 mul add yact moveto
TBIGT (a*) show %(a) ishowGT
xton jm 11 add xdel2 mul add yact moveto
TBIGT (b*) show %(a) ishowGT
xton jm 11.9 add xdel2 mul add yact moveto
TBIGT (C*) show (ab) ishowGT
xton jm 13 add xdel2 mul add yact moveto
TBIGT (h) show (ab) ishowGT

xton jm 14 add xdel2 mul add yact moveto
TBIGT (rgb -> rgb*) show (e) ishowGT TBGT

%increasing order with LUTL*b etc!
/itonx  0 def
/itonx1 0 def
/habtonM 0 def
/habton0 0 def
/habton1 0 def
/habtonP 0 def

/habton2M 0 def
/habton2  0 def
/habton3  0 def
/habton3P 0 def

/LUTL*b2M 0.0001 def
/LUTL*b2  0.0001 def
/LUTL*b3  0.0001 def
/LUTL*b3P 0.0001 def

/LUTA*b2M 0.0001 def
/LUTA*b2  0.0001 def
/LUTA*b3  0.0001 def
/LUTA*b3P 0.0001 def

/LUTB*b2M 0.0001 def
/LUTB*b2  0.0001 def
/LUTB*b3  0.0001 def
/LUTB*b3P 0.0001 def

TGT
/I45 45 def %hue circle steps (47-2) for first step at i=0
/I39 39 def %hue circle of 40 steps (40-1) and i-0,39

/ymax2x ymax2 2600 sub def
/xtext 0 def
xtext 1 eq {%xtext=1
0 1 47 {/jj exch def
        xton ymax2x 220 jj mul sub moveto
        jj 9 le {(0) show} if
        jj cvishow ( ) show habton jj get cvsshow1
        xton 1000 add ymax2x 220 jj mul sub moveto
        LUTL*b jj get cvsshow1
        xton 2000 add ymax2x 220 jj mul sub moveto
        LUTA*b jj get cvsshow1
        xton 3000 add ymax2x 220 jj mul sub moveto
        LUTB*b jj get cvsshow1
       } for %jj=0,47
} if %xtext=1

0 1 15 {/j exch def %j=0,15
        1 1 I39 {/jj exch def %jj=1,I39
                 /habtonM habton jj 1 sub get def
                 /habton0 habton jj       get def
                 /habton1 habton jj 1 add get def
                 /habtonP habton jj 2 add get def

/xtext 0 def
xtext 1 eq {%xtext=1
j 15 eq {%j=0
        xton 4000 add ymax2x 220 jj mul sub moveto
        jj cvishow ( ) show habton jj get cvsshow1
        xton 5000 add ymax2x 220 jj mul sub moveto
        habtonM cvsshow1
        xton 6000 add ymax2x 220 jj mul sub moveto
        habton0 cvsshow1
        xton 7000 add ymax2x 220 jj mul sub moveto
        habton1 cvsshow1
        xton 8000 add ymax2x 220 jj mul sub moveto
        habtonP cvsshow1
        xton 9000 add ymax2x 220 jj mul sub moveto
        RYGBton j get cvsshow1
} if %j=0
} if %xtext=1

habton1 5 add habton0 lt {%habton1<habton0 %5 add avoids small errors
        /habton0x habton0 def
        %attention habton0 will change!

        RYGBton j get habton0 lt
        RYGBton j get habtonM lt and {%1
                  habton0 habton1 gt {/habton0 habton0x 360 sub def} if
                  habtonM habton1 gt {/habtonM habtonM 360 sub def} if
                                     } if %1

        RYGBton j get habton0x gt
        RYGBton j get habton1 360 add lt and {%1
                  /habton1 habton1 360 add def
                  /habtonP habtonP 360 add def
                                     } if %1
} if %habton1<habton0

                 RYGBton j get habton0 ge
                 RYGBton j get habton1 lt and
                 {/itonx jj def
                 /habton2M habton jj 1 sub get def
                 /habton2  habton jj       get def
                 /habton3  habton jj 1 add get def
                 /habton3P habton jj 2 add get def

                 /LUTL*b2M LUTL*b jj 1 sub get def
                 /LUTL*b2  LUTL*b jj       get def
                 /LUTL*b3  LUTL*b jj 1 add get def
                 /LUTL*b3P LUTL*b jj 2 add get def

                 /LUTA*b2M LUTA*b jj 1 sub get def
                 /LUTA*b2  LUTA*b jj       get def
                 /LUTA*b3  LUTA*b jj 1 add get def
                 /LUTA*b3P LUTA*b jj 2 add get def

                 /LUTB*b2M LUTB*b jj 1 sub get def
                 /LUTB*b2  LUTB*b jj       get def
                 /LUTB*b3  LUTB*b jj 1 add get def
                 /LUTB*b3P LUTB*b jj 2 add get def

                 /w1i2M w1i jj 1 sub get def
                 /w1i2  w1i jj       get def
                 /w1i3  w1i jj 1 add get def
                 /W1i3P w1i jj 2 add get def

                 /w2i2M w2i jj 1 sub get def
                 /w2i2  w2i jj       get def
                 /w2i3  w2i jj 1 add get def
                 /W2i3P w2i jj 2 add get def

                 /wdi2M wdi jj 1 sub get def
                 /wdi2  wdi jj       get def
                 /wdi3  wdi jj 1 add get def
                 /Wdi3P wdi jj 2 add get def

                 /wci2M wci jj 1 sub get def
                 /wci2  wci jj       get def
                 /wci3  wci jj 1 add get def
                 /Wci3P wci jj 2 add get def

/xtext 0 def
xtext 1 eq {%xtext=1
j 15 eq {%j=0
        xton 11000 add ymax2x 220 jj mul sub moveto
        jj cvishow ( ) show habton jj get cvsshow1
        xton 12000 add ymax2x 220 jj mul sub moveto
        habton2M cvsshow1
        xton 13000 add ymax2x 220 jj mul sub moveto
        habton2 cvsshow1
        xton 14000 add ymax2x 220 jj mul sub moveto
        habton3 cvsshow1
        xton 15000 add ymax2x 220 jj mul sub moveto
        habton3P cvsshow1
        xton 16000 add ymax2x 220 jj mul sub moveto
        RYGBton j get cvsshow1
} if %j=0
} if %xtext=1

                 /xdel RYGBton j get habton0 sub
                       habton1       habton0 sub div def
                } if
               } for %jj=0,I39

/XIE xdel def

/A1 XIE 1 XIE sub mul  XIE 2 sub mul  6 div def
/A2 XIE 1 add  XIE 1 sub mul  XIE 2 sub mul  0.5 mul def
/A3 XIE 1 add  XIE mul  2 XIE sub mul  0.5 mul def
/A4 XIE 1 add  XIE mul  XIE 1 sub mul 6 div def

/habtonx habton2M A1 mul
         habton2  A2 mul add
         habton3  A3 mul add
         habton3P A4 mul add def

LAB*Lta j LUTL*b2M A1 mul
          LUTL*b2  A2 mul add
          LUTL*b3  A3 mul add
          LUTL*b3P A4 mul add put

LAB*ata j LUTA*b2M A1 mul
          LUTA*b2  A2 mul add
          LUTA*b3  A3 mul add
          LUTA*b3P A4 mul add put

LAB*bta j LUTB*b2M A1 mul
          LUTB*b2  A2 mul add
          LUTB*b3  A3 mul add
          LUTB*b3P A4 mul add put


LAB*Lt j LAB*Lta j get put
/l*CIE LAB*Lt j get L*Nio sub L*Wio L*Nio sub 0.0001 add div def %system rel. lightn.
/a*s A*Wio A*Nio sub l*CIE mul def
/b*s B*Wio B*Nio sub l*CIE mul def
LAB*at j LAB*ata j get A*Nio sub a*s add put
LAB*bt j LAB*bta j get B*Nio sub b*s add put

/habtonx LAB*bta j get LAB*ata j get 0.0001 add atan def

/X* {LAB*Lt j get 16 add 116 div
     LAB*at j get 500 div add} bind def
/Y* {LAB*Lt j get 16 add 116 div} bind def
/Z* {LAB*Lt j get 16 add 116 div
     LAB*bt j get 200 div sub} bind def
Xt j X* DecodeXYZ* XLWD65100 mul put
Yt j Y* DecodeXYZ* YLWD65100 mul put
Zt j Z* DecodeXYZ* ZLWD65100 mul put

TGT
/jm 1.7 def /jx 03 j 1 mul add def %color series mkub=7 actual data
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBIGT RYGB16 j get show TGT

xton jm xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get cvsshow1
xton jm 1 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get cvsshow1
xton jm 2 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get cvsshow1

xchart 0 eq {%xchart=0
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
/SUMXZYt Xt j get Yt j get add Zt j get add def
Xt j get SUMXZYt div 0.00001 add cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get SUMXZYt div 0.00001 add cvsshow3
} if %xchart=0

%A=(X/Y -Xn/Yn)*Y
/A Xt j get Yt j get 0.0001 add div
   XWio     YWio     0.0001 add div sub Yt j get mul def
%B=(Z/Y -Zn/Yn)*Y
/B Zt j get Yt j get 0.0001 add div
   ZWio     YWio     0.0001 add div sub Yt j get mul 0.4 mul neg def
%CAB=[A**2+B**2]**(1/2) * Y
/CAB A dup mul B dup mul add 0.0001 add sqrt def
%hAB=atan (B/A)
/hAB B A 0.0001 add atan def

xchart 1 eq {%xchart=1
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get Yt j get 0.0001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get Yt j get 0.0001 add div 0.4 mul neg cvsshow3
} if %xchart=1

xton jm 5 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
A cvsshow1
xton jm 6 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
B cvsshow1
xton jm 7 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
CAB cvsshow1
xton jm 8 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
hAB cvsshow1

xton jm 9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*Lta j get cvsshow1
xton jm 10 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get cvsshow1
xton jm 11 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get cvsshow1
xton jm 12 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get dup mul LAB*bta j get dup mul add 0.00001 add sqrt cvsshow1

xton jm 13 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT LAB*bta j get LAB*ata j get atan cvsshow1 TGT

xton jm 14 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT RGB*16 j get show TGT

%special for later delete

} for %j=0,15

%************************************************************************
%Begin 5 grey steps

/ymax2 4000 def

%series Black to white
K 0 eq {/YNW 100.0 def}
       {/YNW 88.60 def} ifelse
/YW0 100 def
YNW YW0 div D24_116 gt {/FYYN YNW YW0 div 0.0001 add D13 exp def}
                    {/FYYN D841_108 YNW YW0 div mul D16_116 add def} ifelse
/L*NW 116. FYYN mul 16. sub def


YFa 0 eq {/YNN 0.001 def} %near cero
         {/YNN YN0   def} ifelse

YNN YW0 div D24_116 gt {/FYYN YNN YW0 div 0.0001 add D13 exp def}
                    {/FYYN D841_108 YNN YW0 div mul D16_116 add def} ifelse
/L*NN 116. FYYN mul 16. sub def

/L*N L*NN def
/L*W L*NW def
0 1 4 {/j exch def %j=0,4
       L*ton j L*N  L*W L*N sub j 0.25 mul mul add put
      } for %j=0,4

TBGT
100 ymax2 ydel2 8.5 mul sub moveto
(5 step equidistant grey scale with intended lightness:) showea
(5\255stufige gleichabst\344ndige Graureihe mit Ziel\255Helligkeit:) showde
TBIGT
( L*) show
TBGT
( = ) show
L*ton 0 get cvsshow1 (, ) show
L*ton 1 get cvsshow1 (, ) show
L*ton 2 get cvsshow1 (, ) show
L*ton 3 get cvsshow1 (, ) show
L*ton 4 get cvsshow1
TGT

0 1 4 {/j exch def %j=0,4
       LAB*Lta j L*ton j get put
       LAB*ata j 0 put
       LAB*bta j 0 put

       LAB*Lt j LAB*Lta j get put
       /l*CIE LAB*Lt j get L*Nio sub L*Wio L*Nio sub 0.0001 add div def %system rel. li
       /a*s A*Wio A*Nio sub l*CIE mul def
       /b*s B*Wio B*Nio sub l*CIE mul def
       LAB*at j LAB*ata j get A*Nio sub a*s add put
       LAB*bt j LAB*bta j get B*Nio sub b*s add put

/X* {LAB*Lt j get 16 add 116 div
     LAB*at j get 500 div add} bind def
/Y* {LAB*Lt j get 16 add 116 div} bind def
/Z* {LAB*Lt j get 16 add 116 div
     LAB*bt j get 200 div sub} bind def
Xt j X* DecodeXYZ* XLWD65100 mul put
Yt j Y* DecodeXYZ* YLWD65100 mul put
Zt j Z* DecodeXYZ* ZLWD65100 mul put

TGT
/jm 1.7 def /jx 11 j 1 mul add def %grey series
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBIGT L05 j get show TGT
xton jm       xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get cvsshow1
xton jm 1 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get cvsshow1
xton jm 2 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get cvsshow1

xchart 0 eq {%xchart=0
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
/SUMXZYt Xt j get Yt j get add Zt j get add def
Xt j get SUMXZYt 0.00001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get SUMXZYt 0.00001 add div cvsshow3
} if %xchart=0

/A Xt j get Yt j get 0.0001 add div
   XWio     YWio     0.0001 add div sub Yt j get mul def
%B=(Z/Y -Zn/Yn)*Y
/B Zt j get Yt j get 0.0001 add div
   ZWio     YWio     0.0001 add div sub Yt j get mul 0.4 mul neg def
%CAB=[A**2+B**2]**(1/2) * Y
/CAB A dup mul B dup mul add 0.0001 add sqrt def
%hAB=atan (B/A)
/hAB B A 0.0001 add atan def

xchart 1 eq {%xchart=1
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get Yt j get 0.0001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get Yt j get 0.0001 add div 0.4 mul neg cvsshow3
} if %xchart=1

xton jm 5 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
A cvsshow1
xton jm 6 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
B cvsshow1
xton jm 7 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
CAB cvsshow1
xton jm 8 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
hAB cvsshow1

xton jm 9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT LAB*Lta j get cvsshow1 TGT
xton jm 10 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get cvsshow1
xton jm 11 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get cvsshow1
xton jm 12 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get dup mul LAB*bta j get dup mul add 0.00001 add sqrt cvsshow1

xton jm 13 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get LAB*ata j get 0.0001 add atan cvsshow1

xton jm 14 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT RGB*005 j get show TGT

       } for %j=0,4

showpage
grestore

} for %xchart=0,1

%%Trailer

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[/Title (PostScript pictures: farbe.li.tu-berlin.de/AEP6/AEP6.HTM)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
 /Subject (goto: http://farbe.li.tu-berlin.de http://130.149.60.45/~farbmetrik)
 /Keywords (image reproduction, colour devices)
 /Creator (klaus.richter@mac.com)
 /CreationDate (D:2020090112000)
 /ModDate (D:2020090112000)
/DOCINFO pdfmark17
[ /View [ /Fit ]
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/Times-BoldItalic findfont dup length dict  begin
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/TimesBI-ISOL1 exch definefont pop

/Courier findfont dup length dict  begin
{1 index /FID ne {def} {pop pop} ifelse }forall
/Encoding ISOLatin1Encoding def
currentdict end

/Courier-ISOL1 exch definefont pop

/Courier-Bold findfont dup length dict  begin
{1 index /FID ne {def} {pop pop} ifelse }forall
/Encoding ISOLatin1Encoding def
currentdict end

/CourierB-ISOL1 exch definefont pop
/TK {250 /Times-ISOL1 FS} bind def

%%EndProlog
gsave

/lanind 0 def
/lantex [(G) (E) (S) (N) (I) (J) (M)] def
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/pchartf where {pop /pchart1 pchartf def /pchart2 pchartf def
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%either defaul values for xchart=0 or values for xchart=1
/lanind lanind1 def %
/colorm colorm1 def %
/deintp deintp1 def %
/xcolor xcolor1 def %
/xchart xchart1 def %
/pchart pchart1 def %
/colsep colsep1 def %
/pmetam pmetam1 def %

colorm 0 eq deintp 0 eq and {/Txx (dm) def} if %colorm=0, deintp=0
colorm 0 eq deintp 1 eq and {/Txx (em) def} if %colorm=0, deintp=1
colorm 1 eq deintp 0 eq and {/Txx (ddm) def} if %colorm=1, deintp=0
colorm 1 eq deintp 1 eq and {/Txx (dem) def} if %colorm=1, deintp=1
xchart 0 eq {/Txx (-) def} if %always independent of intended output

%/xchart xchart1 def %
0 1 0 {/xchart exch def %xchart=0,1

gsave
%LANINDL2 END

/GSS$ where {pop /LSS$ GSS$ def}
            {/LSS$ (1) def} ifelse
/GSC$ where {pop /LSC$ GSC$ def}
            {/LSC$ (N) def} ifelse
/GSX$ where {pop /LSX$ GSX$ def}
            {/LSX$ (0) def} ifelse
/GSY$ where {pop /LSY$ GSY$ def}
            {/LSY$ (0) def} ifelse
/GEX$ where {pop /LEX$ GEX$ def}
            {/LEX$ (P.PS./PDF) def} ifelse
/GEY$ where {pop /LEY$ GEY$ def}
            {/LEY$ (P.DAT) def} ifelse
/IMES where {pop}%/IMES IMES def
            {/IMES 0 def} ifelse

/cvishow {cvi 6 string cvs show} def
/cvsshow1 {10 mul cvi 0.1 mul 7 string cvs show} def
/cvsshow2 {100 mul cvi 0.01 mul 7 string cvs show} def
/cvsshow3 {1000 mul cvi 0.001 mul 7 string cvs show} def

%D65XYZ.PS
/SD65 80 array def %380 bis 775 mit deltalambda=05
/SD50 80 array def %380 bis 775 mit deltalambda=05
/SDAK 80 array def %380 bis 775 mit deltalambda=05
/RA 40 array def %380 bis 770 nm
/F2 240 array def %3 x 80 Daten fuer Bereich 380 bis 770nm
/F2N 120 array def %normiert auf Y=100 fuer D65 und 10nm

/SD65 %80 data 5 nm
[50.0  52.3 54.6 68.7 82.8 87.1 91.5 92.5 93.4 90.1 86.7 
 95.8 104.9 110.9 117.0 117.4 117.8 116.3 114.9 115.4 115.9 
 112.4 108.8 109.1 109.4 108.6 107.8 106.3 104.8 106.2 107.7 
 106.0 104.4 104.2 104.0 102.0 100.0 98.2 96.3 96.1 95.8 92.2 
 88.7 89.3 90.0 89.8 89.6 88.6 87.7 85.5 83.3 83.5 83.7 
 81.9 80.0 80.1 80.2 81.2 82.3 80.3 78.3 74.0 69.7 70.7 
 71.6 73.0 74.3 68.0 61.6 65.7 69.9 72.5 75.1 69.3 63.6 55.0 
 46.4 56.6 66.8 65.1] def

/SD50 %80 data 5 nm CIE 15.3, Seite 30
[24.5 27.2 29.9 39.6 49.3 52.9 56.5 58.3 60.0 58.9
 57.8 66.3 74.8 81.0 87.2 88.9 90.6 91.0 91.4 93.2
 95.1 93.5 92.0 93.8 95.7 96.2 96.6 96.8 97.1 99.6
102.1 101.4 100.8 101.5 102.3 101.2 100.0 98.9 97.7 98.3
 98.9 96.2 93.5 95.6 97.7 98.5 99.3 99.2 99.0 97.4
 95.7 97.3 98.9 97.3 95.7 96.9 98.2 100.6 103.0 101.1
 99.1 93.3 87.4 89.5 91.6 92.2 92.9 84.9 76.9 81.7
 86.5 89.5 92.6 85.4 78.2 68.0 57.7 70.3 82.9 0.0] def %0.0 not used

 
/F2  %3x80 data
[.001368 .002236 .004243 .007650 .01431 .02319 .04351 .07763 
 .1344 .2148 .2839 .3285 .3483 .3481 .3362 .3187 .2908 .2511 
 .1954 .1421 .09564 .05795 .03201 .01470 .0049 .0024 .0093 .0291 
 .06327 .1096 .1655 .2257 .2904 .3597 .4334 .5121 .5945 .6784 
 .7621
 .8425 .9163 .9786 1.0263 1.0567 1.0622 1.0456 1.0026 .9384 
 .8544 .7514 .6424 .5419 .4479 .3608 .2835 .2187 .1649 .1212 
 .0874 .0636 .04677 .03290 .02270 .01584 .01136 .00811 .00579 
 .004109 .002899 .002049 .001440 .0009999 .0006901 
 .000476 .0003323 .0002348 .0001662 .0001174 .00008308 .00005871 
 .000039 .000064 .00012 .000217 .000396 .00064 .00121 .00218 
 .004 .0073 .0116 .01684 .023 .0298 .0380 .048 .06 .0739 
 .09098 .1126 .139 .1693 .208 .2586 .323 .4073 .503 .6082 .71 
 .7932 .862 .9149 .954 .9803 .995 1.0 .995 .9786 .952 
 .9154 .870 .8163 .757 .6949 .631 .5668 .503 .4412 .381 .321 
 .265 .217 .175 .1382 .107 .0816 .061 .04458 .032 .0232 .017 
 .01192 .00821 .005723 .004102 .002929 .002091 .001484 
 .001047 .00074 .00052 .0003611 .0002492 .0001719 
 .00012 .0000848 .00006 .0000424 .00003 .0000212 
 .00645 .01055 .02005 .03621 .06785 .1102 .2074 .3713 .6456 
 1.0391 1.3856 1.623 1.7471 1.7826 1.7721 1.7441 1.6692 
 1.5281 1.2876 1.0419 .8130 .6162 .4652 .3533 .2720 .2123 
 .1582 .1117 .07825 .05725 .04216 .02984 .0203 .0134 .00875 
 .00575 .0039 .00275 .0021 .0018 .00165 .0014 .0011 .0010 .0008 
 .0006 .00034 .00024 .00019 .0001 .00005 .00003 .00002 .00001 % 26*0 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 %26
] def

/IN 27 array def
/IN
[0000 0001 0002 0003 0004 0005 0006 0007 0008
 0243 0244 0245 0246 0247 0248 0249 0250 0251
 0486 0487 0488 0489 0490 0491 0492 0493 0494] def

/LUTL* 99 array def
/LUTA* 99 array def
/LUTB* 99 array def

/LUTL*a 99 array def
/LUTA*a 99 array def
/LUTB*a 99 array def

/LUTL*b 99 array def
/LUTA*b 99 array def
/LUTB*b 99 array def
  
/LUTL*c 99 array def
/LUTA*c 99 array def
/LUTB*c 99 array def

/habton 99 array def
/indton 99 array def
/LNWton 99 array def
/ANWton 99 array def
/BNWton 99 array def

/RXA 41 array def
/RAA 41 array def
/Xt 17 array def
/Yt 17 array def
/Zt 17 array def
/LAB*Lt 17 array def
/LAB*at 17 array def
/LAB*bt 17 array def
/LAB*Lta 17 array def
/LAB*ata 17 array def
/LAB*bta 17 array def

/L*ton 5 array def

/RYGBLAB* 12 array def
/RYGBLAB*[
  39.92  58.74  27.99 % R CIE No.09 elementary colours in LAB, D65
  81.26  -2.89  71.56 % J CIE No.10
  52.23 -42.42  13.60 % G CIE No.11
  30.57   1.41 -46.47 % B CIE No.12
] def

/RYGB16 16 array def
/RYGB16 [(R00Y=R) (R25Y) (R50Y) (R75Y)
         (Y00G=Y) (Y25G) (Y50G) (Y75G)
         (G00B=G) (G25B) (G50B) (G75B)
         (B00R=B) (B25R) (B50R) (B75R)] def
/L05 5 array def
/L05 [(N000W=N) (N025W) (N050W) (N075W) (N100W=W)] def

/RGB*16 16 array def
/RGB*16 [(1.00 0.00 0.00) (1.00 0.25 0.00) (1.00 0.50 0.00) (1.00 0.75 0.00)
         (1.00 1.00 0.00) (0.75 1.00 0.00) (0.50 1.00 0.00) (0.25 1.00 0.00)
         (0.00 1.00 0.00) (0.00 1.00 0.50) (0.00 1.00 1.00) (0.00 0.50 1.00)
         (0.00 0.00 1.00) (0.50 0.00 1.00) (1.00 0.00 1.00) (1.00 0.00 0.50)
        ] def
/RGBNM*16 16 array def
/RGBNW*16 [(1.00 0.00 0.00) (0.50 0.00 0.00) (1.00 0.50 0.50) ()
           (1.00 1.00 0.00) (0.50 0.50 0.00) (1.00 1.00 0.50) ()
           (0.00 1.00 0.00) (0.00 0.50 0.00) (0.50 1.00 0.50) ()
           (0.00 0.00 1.00) (0.00 0.00 0.50) (0.50 0.50 1.00) ()] def

/RGB*005 05 array def
/RGB*005 [(0.00 0.00 0.00) (0.25 0.25 0.25) (0.50 0.50 0.50)
          (0.75 0.75 0.75) (1.00 1.00 1.00)] def

/XD65W  95.04 def
/YD65W 100.00 def
/ZD65W 108.88 def

/XD50W  96.42 def
/YD50W 100.00 def
/ZD50W  82.51 def

/DAKTE [(D65) (D50)] def

/cvi100 {100 mul cvi /xi exch def
         xi 0 lt {/vorz -1 def} {/vorz 1 def} ifelse
         /xia xi abs def
         vorz -1 eq {(\255) show} {(0) show} ifelse
         xia    0 ge xia    9 le     {(0000) show} if
         xia   10 ge xia   99 le and {(000) show} if
         xia  100 ge xia  999 le and {(00) show} if
         xia 1000 ge xia 9999 le and {(0) show} if
         xia cvishow
         } bind def

gsave

72 90 translate

0.01 MM dup scale

/xwide 12000 def
20 setlinewidth
1 1 1 setrgbcolor
0 0 moveto xwide     0 rlineto 0 8000 rlineto
           xwide neg 0 rlineto closepath fill
0 0 0 setrgbcolor
0 0 moveto xwide     0 rlineto 0 8000 rlineto
           xwide neg 0 rlineto closepath stroke

/XN0 2.39 def
/YN0 2.51 def
/ZN0 2.74 def

/XN1 2.39 1.0251 mul def
/YN1 2.51 1.0251 mul def %-> 2,71
/ZN1 2.74 1.0251 mul def

/K 1 def %0: Yfak=1, 1: Yfak=0.886
/YFa 1 def %0: YNK=0.01, 1: YNK=2,71->2,51
 
K 0 eq {/Yfak 1.0000 def} if
K 1 eq {/Yfak 0.8860 def} if

TK
0 setgray
100 -200 moveto (AEP61-3N) show

%************************************************
%DEFINES 48 STEP HUE CIRCLE and 9 GREY STEPS

/TS {170 /Times-ISOL1 FS} bind def
/TK {200 /Times-ISOL1 FS} bind def
/TM {270 /Times-ISOL1 FS} bind def
/TG {320 /Times-ISOL1 FS} bind def

/TIS {170 /TimesI-ISOL1 FS} bind def
/TIK {200 /TimesI-ISOL1 FS} bind def
/TIM {270 /TimesI-ISOL1 FS} bind def
/TIG {320 /TimesI-ISOL1 FS} bind def

/TBS {170 /TimesB-ISOL1 FS} bind def
/TBK {200 /TimesB-ISOL1 FS} bind def
/TBM {270 /TimesB-ISOL1 FS} bind def
/TBG {320 /TimesB-ISOL1 FS} bind def

/TBIS {170 /TimesBI-ISOL1 FS} bind def
/TBIK {200 /TimesBI-ISOL1 FS} bind def
/TBIM {270 /TimesBI-ISOL1 FS} bind def
/TBIG {320 /TimesBI-ISOL1 FS} bind def

/CBKK {200 /CourierB-ISOL1 FS} bind def
/CBK {250 /CourierB-ISOL1 FS} bind def
/CBM {300 /CourierB-ISOL1 FS} bind def
/CBG {350 /CourierB-ISOL1 FS} bind def

/TSS {170 /Symbol FS} bind def
/TSK {200 /Symbol FS} bind def
/TSM {270 /Symbol FS} bind def
/TSG {320 /Symbol FS} bind def

/F89 0.8859 def
% achromatic (D65), (D50), (C00) colours
/XLWD65100  95.04 def
/YLWD65100 100.00 def
/ZLWD65100 108.88 def

/XLWD65089  95.04 F89 mul def
/YLWD65089 100.00 F89 mul def
/ZLWD65089 108.88 F89 mul def

/XLWD50100  96.42 def
/YLWD50100 100.00 def
/ZLWD50100  82.51 def

/XLWD50089  96.42 F89 mul def
/YLWD50089 100.00 F89 mul def
/ZLWD50089  82.51 F89 mul def

/XLWC00100  94.94 def
/YLWC00100 100.00 def
/ZLWC00100 108.76 def

/XLWC00089  94.94 F89 mul def
/YLWC00089 100.00 F89 mul def
/ZLWC00089 108.76 F89 mul def

/XYZC00100 303 array def
/LABC00100 303 array def
/YABC00100 303 array def

/XYZC00089 303 array def
/LABC00089 303 array def
/YABC00089 303 array def

/DecodeXYZ* {dup 6 29 div ge {dup dup mul mul}
            {4 29 div sub 108 841 div mul} ifelse} bind def

/cvishow {cvi 6 string cvs show} def
/cvsshow1 {10 mul cvi 0.1 mul 7 string cvs show} def
/cvsshow2 {100 mul cvi 0.01 mul 7 string cvs show} def
/cvsshow3 {1000 mul cvi 0.001 mul 7 string cvs show} def

/cvishowb {cvi 6 string cvs show ( ) show} def
/cvsshow1b {10 mul cvi 0.1 mul 7 string cvs show ( ) show} def
/cvsshow2b {100 mul cvi 0.01 mul 7 string cvs show ( ) show} def
/cvsshow3b {1000 mul cvi 0.001 mul 7 string cvs show ( ) show} def

/cvishowr {0.5 add cvi 6 string cvs show} def
/cvsshow1r {0.05 add 10 mul cvi 0.1 mul 7 string cvs show} def
/cvsshow2r {0.005 add 100 mul cvi 0.01 mul 7 string cvs show} def
/cvsshow3r {0.0005 add 1000 mul cvi 0.001 mul 7 string cvs show} def

/cvi100 {100 mul cvi /xi exch def
         xi 0 lt {/vorz -1 def} {/vorz 1 def} ifelse
         /xia xi abs def
         vorz -1 eq {(\255) show} {(0) show} ifelse
         xia    0 ge xia    9 le     {(0000) show} if
         xia   10 ge xia   99 le and {(000) show} if
         xia  100 ge xia  999 le and {(00) show} if
         xia 1000 ge xia 9999 le and {(0) show} if
         xia cvishow
         } bind def

/cvi1000 {1000 mul cvi /xi exch def
          xi    0 ge xi    9 le     {(000) show} if
          xi   10 ge xi   99 le and {(00) show} if
          xi  100 ge xi  999 le and {(0) show} if
          xi cvishow
         } bind def

/SD65 80 array def %380 bis 775 mit deltalambda=05
/SD50 80 array def %380 bis 775 mit deltalambda=05
/SP40 80 array def %380 bis 775 mit deltalambda=05
/SA00 80 array def %380 bis 775 mit deltalambda=05
/SE00 80 array def %380 bis 775 mit deltalambda=05
/SC00 80 array def %380 bis 775 mit deltalambda=05
/SP00 80 array def %380 bis 775 mit deltalambda=05
/SQ00 80 array def %380 bis 775 mit deltalambda=05

/SDAK 80 array def %380 bis 775 mit deltalambda=05
/RA   80 array def %380 bis 770 nm
/F2  240 array def %3 x 80 Daten fuer Bereich 380 bis 770nm
/F2N 240 array def %normiert auf Y=100 fuer D65 und 10nm

%C
%C      LITERATURQUELLEN  LICHTARTEN
%C      SA,SC,SD65,  CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 1.1.1, SEITE 81
%C      SD55,SD75,   CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 1.1.4, SEITE 85
%C                   LINEAR INTERPOLIERT VON 5 ZU 5NM
%C      SG,SP,SXE,   DIN 5033, BLATT 7 ,SEITE 8-9
%C                   AUSGABE  1966

/SD65 %80 data 5 nm
[50.0  52.3 54.6 68.7 82.8 87.1 91.5 92.5 93.4 90.1 86.7 
 95.8 104.9 110.9 117.0 117.4 117.8 116.3 114.9 115.4 115.9 
 112.4 108.8 109.1 109.4 108.6 107.8 106.3 104.8 106.2 107.7 
 106.0 104.4 104.2 104.0 102.0 100.0 98.2 96.3 96.1 95.8 92.2 
 88.7 89.3 90.0 89.8 89.6 88.6 87.7 85.5 83.3 83.5 83.7 
 81.9 80.0 80.1 80.2 81.2 82.3 80.3 78.3 74.0 69.7 70.7 
 71.6 73.0 74.3 68.0 61.6 65.7 69.9 72.5 75.1 69.3 63.6 55.0 
 46.4 56.6 66.8 65.1] def

/SD50 %80 data 5 nm CIE 15.3, Seite 30; aus JE540-1N.PS
[24.5 27.2 29.9 39.6 49.3 52.9 56.5 58.3 60.0 58.9
 57.8 66.3 74.8 81.0 87.2 88.9 90.6 91.0 91.4 93.2
 95.1 93.5 92.0 93.8 95.7 96.2 96.6 96.8 97.1 99.6
102.1 101.4 100.8 101.5 102.3 101.2 100.0 98.9 97.7 98.3
 98.9 96.2 93.5 95.6 97.7 98.5 99.3 99.2 99.0 97.4
 95.7 97.3 98.9 97.3 95.7 96.9 98.2 100.6 103.0 101.1
 99.1 93.3 87.4 89.5 91.6 92.2 92.9 84.9 76.9 81.7
 86.5 89.5 92.6 85.4 78.2 68.0 57.7 70.3 82.9 0.0] def %0.0 not used

/SA00 %80 data 5 nm CIE 15.3  Seite 30; aus JE540-1N.PS
[9.80 10.90 12.09 13.35 14.71 16.15 17.68 19.29 20.99
 22.79 24.67 26.64 28.70 30.85 33.09 35.41 37.81 40.30
 42.87 45.52 48.24 51.04 53.91 56.85 59.86 62.93 66.06
 69.25 72.50 75.79 79.13 82.52 85.95 89.41 92.91 96.44
 100.00 103.58 107.18 110.80 114.44 118.08 121.73 125.39
 129.04 132.70 136.35 139.99 143.62 147.24 150.84 154.42
 157.98 161.52 165.03 168.51 171.96 175.38 178.77 182.12
 185.43 188.70 191.93 195.12 198.26 201.36 204.41 207.41
 210.36 213.27 216.12 218.92 221.67 224.36 227.00 229.59
 232.12 234.59 237.01 239.37 0.0] def %0.0 not used

% AUS BILDPLA.FOR aus vrbam/wrpos:KRPROG.FOR, 5987-6023 5.10.92
%C     PROGRAMM ZUR BERECHNUNG DER RELATIVEN SPEKTRALEN STRAHLUNGSVERTEI-
%C     LUNG EINES HOHLRAUMSTRAHLERS ALS FUNKTION DER WELLENLAENGE LAMDA  
%C     BEI GEGEBENER TEMPERATUR T                                        
%C     VERWENDETE VARIABLE                                               
%C        T                   TEMPERATUR                                 
%C        C2                  PLANCKSCHE KONSTANTE (=1.4388 CM K (1967)) 
%C        LAMDA(I)            WELLENLAENGE                               
%C        S(I)                STRAHLUNGSVERTEILUNG DES HOHLRAUMSTRAHLERS 
%C                                                                       
%C     LITERATUR OFFIZIELLE EMPFEHLUNGEN DER CIE,DEUTSCHE VERSION,       
%C               CA. 1969, SEITE 21 UND TABELLE 1.1.1                    
%C                                                                       
%SDP4 80 array def %380 bis 775 mit deltalambda=05
%      DO 50 I=1,54                                                      
%   50 S(I)=100.
%     1*(560./FLOAT(LAMDA(I)))**5
%     2*(EXP(C2/(560.*10.**(-7)*T))-1.)
%     3/(EXP(C2/(FLOAT(LAMDA(I))*10.**(-7)*T))-1.)

%new CIE 15.3:2004, Eq. (3.1) page 2
%S(I) = [100{560/lambda}**5] [exp{(c2*10**7)/(TNC*560   )} - 1]
%                           /[exp{(c2*10**7)/(TNC*lambda)} - 1]
% exp = e {...} = 2.71 {...} 

%/TNC 2848 def %NLA
/TNC 4000 def
/EE 2.718281 def %e=mac pocket calculator
/C2 1.4350000 10 7 exp mul def
/lamd 80 array def


0 1 79 {%i=0,79
        /i exch def
        /lambda 380 i 5 mul add def
        lamd i lambda put
        /E1 560 lambda div 5 exp def

        /E4 C2 TNC 560    mul div def
        /E5 C2 TNC lambda mul div def

        /E6 EE E4 exp def
        /E7 EE E5 exp def

        SP40 i
        E1 100 mul E6 1 sub 
                   E7 1 sub div mul

        put
       } for %i=0,79

/xex 10 2 exp def
/yex EE 2 exp def

/SE00 %80 data 5 nm
[100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0
 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0] def %0.0 not used

/SC00 %80 data 5 nm
[ 33.00  39.92  47.40  55.17  63.30  71.81  80.60  89.53  98.10 105.80
 112.40 117.75 121.50 123.45 124.00 123.60 123.10 123.30 123.80 124.09
 123.90 122.92 120.70 116.90 112.10 106.98 102.30  98.81  96.90  96.78
  98.00  99.94 102.10 103.95 105.20 105.67 105.30 104.11 102.30 100.15
  97.80  95.43  93.20  91.22  89.70  88.83  88.40  88.19  88.10  88.06
  88.00  87.86  87.80  87.99  88.20  88.20  87.90  87.22  86.30  85.30
  84.00  82.21  80.20  78.24  76.30  74.36  72.40  70.40  68.30  66.30
  64.40  62.80  61.50  60.20  59.20  58.50  58.10  58.00  58.20  58.50
 ] def %0.0 not used

0 1 79 {/i exch def %i=0,79
        /lamda 380 i 5 mul add def
        SP00 i SE00 i get lamda 560 div mul put
        SQ00 i SE00 i get 1120 lamda sub 560 div mul put
       } for %i=0,79
 
%C      LITERATURQUELLEN  SPEKTRALWERTE
%C       F2          CIE-DOKUMENT NR.15 FARBMESSUNG, 1971
%C                   TABELLE 2.1, SEITE 93-102

/F2  %3x80 data
[.001368 .002236 .004243 .007650 .01431 .02319 .04351 .07763 
 .1344 .2148 .2839 .3285 .3483 .3481 .3362 .3187 .2908 .2511 
 .1954 .1421 .09564 .05795 .03201 .01470 .0049 .0024 .0093 .0291 
 .06327 .1096 .1655 .2257 .2904 .3597 .4334 .5121 .5945 .6784 
 .7621
 .8425 .9163 .9786 1.0263 1.0567 1.0622 1.0456 1.0026 .9384 
 .8544 .7514 .6424 .5419 .4479 .3608 .2835 .2187 .1649 .1212 
 .0874 .0636 .04677 .03290 .02270 .01584 .01136 .00811 .00579 
 .004109 .002899 .002049 .001440 .0009999 .0006901 
 .000476 .0003323 .0002348 .0001662 .0001174 .00008308 .00005871 
 .000039 .000064 .00012 .000217 .000396 .00064 .00121 .00218 
 .004 .0073 .0116 .01684 .023 .0298 .0380 .048 .06 .0739 
 .09098 .1126 .139 .1693 .208 .2586 .323 .4073 .503 .6082 .71 
 .7932 .862 .9149 .954 .9803 .995 1.0 .995 .9786 .952 
 .9154 .870 .8163 .757 .6949 .631 .5668 .503 .4412 .381 .321 
 .265 .217 .175 .1382 .107 .0816 .061 .04458 .032 .0232 .017 
 .01192 .00821 .005723 .004102 .002929 .002091 .001484 
 .001047 .00074 .00052 .0003611 .0002492 .0001719 
 .00012 .0000848 .00006 .0000424 .00003 .0000212 
 .00645 .01055 .02005 .03621 .06785 .1102 .2074 .3713 .6456 
 1.0391 1.3856 1.623 1.7471 1.7826 1.7721 1.7441 1.6692 
 1.5281 1.2876 1.0419 .8130 .6162 .4652 .3533 .2720 .2123 
 .1582 .1117 .07825 .05725 .04216 .02984 .0203 .0134 .00875 
 .00575 .0039 .00275 .0021 .0018 .00165 .0014 .0011 .0010 .0008 
 .0006 .00034 .00024 .00019 .0001 .00005 .00003 .00002 .00001 % 26*0 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 %26
] def

/F10 %3x80 data
[.00016 .0006624 .002362 .007242 .01911 .0434 .08474 .1406 .2045 
 .2647 .3147 .3577 .3837 .3867 .3707 .343 .3023 .2541 .1956 .1323
  .08051 .04107 .01617 .005132 .003816 .01544 .03746 .07136 .1177
  .173 .2365 .3042 .3768 .4516 .5298 .6161 .7052 .7938 .8787 
 .9512 1.0142 1.0743 1.1185 1.1343 1.124 1.0891 1.0305 .9507 
 .8563 .7549 .6475 .5351 .4316 .3437 .2683 .2043 .1526 .1122 
 .08126 .05793 .04085 .02862 .019941 .01384 .0100 .006605 
 .004552 .003145 .002175 .001506 .001045 .0007274 .0005083 
 .0003564 .000251 .0001777 .0001264 .00009015 .00006453 .00004634 
 .00001736 .00007156 .0002534 .0007685 .002004 .004509 .008756 
 .01446 .02139 .0295 .03868 .0496 .06208 .0747 .08946 .1063 .1282 
 .1528 .1852 .2199 .2536 .2977 .3391 .3954 .4608 .5314 .6067 
 .6857 .7618 .8233 .8752 .9238 .962 .9822 .9918 .9991 .9973 .9824 
 .9555 .9152 .8689 .8256 .7774 .7203 .6583 .5939 .528 .4618 .3981 
 .3395 .2835 .2282 .1798 .1402 .1076 .08119 .06028 .0441 .0318 
 .0226 .0159 .01113 .007749 .0053751 .0037177 .002565 .001768 
 .001222 .0008462 .0005864 .0004074 .000284 .0001987 .0001395 
 .00009843 .00006982 .00004974 .00003554 .00002549 .00001834 
 .0007048 .002928 .01048 .03234 .08601 .1971 .3894 .6568 .9725 
 1.2825 1.5535 1.7985 1.9673 2.0273 1.9948 1.9007 1.7454 
 1.5549 1.3176 1.0302 .7721 .5701 .4152 .3024 .2185 .1592 .112 
 .08225 .06071 .04305 .03045 .02058 .01368 .007918 .003988 
 .001091 
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %10
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %20
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %30
 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 %40
 0.0 0.0 0.0 0.0 %44
] def


%calculation of transformation data
/FARBE 27 array def
/FARBE [(R) (m) ( 561_770) %00
        (Y) (m) ( 520_770) %01
        (G) (m) ( 475_573) %02
        (C) (m) ( 380_561) %03
        (B) (m) ( 380_495) %04
        (M) (m) ( 573_475) %05
        (N) (0) ( 380_770) %06
        (W) (0) ( 380_770) %07
        (W) (1) ( 380_770) %08
       ] def

%/FARBE [(R) (m) ( 565_770) %00
%        (Y) (m) ( 520_770) %01
%        (G) (m) ( 475_575) %02
%        (C) (m) ( 380_565) %03
%        (B) (m) ( 380_495) %04
%        (M) (m) ( 575_475) %05
%        (N) (0) ( 380_770) %06
%        (W) (0) ( 380_770) %07
%        (W) (1) ( 380_770) %08
%       ] def

/xshift 10 array def %max 6 device + 4 elementary
/yshift 10 array def
/colori 10 array def

/xcolorl xcolor def
%0 1 1 {/xcolorl exch def %xcolorl=0,1
       

xcolorl 1 eq {0 1 79 {/i exch def %i=0,79
                      F2 i F10 i get put
                     } for %i=0,79
             } if

/YKSUM 0 def %For CIE Illuminant E
0 1 79 {/i exch def %i=0,1,79
        /YKSUM YKSUM F2  80 i add get add def
} for %i=0,1,79

/F2N 240 array def
0 1 79 {/i exch def %i=0,1,79
        F2N  00 i add F2  00 i add get YKSUM div 100 mul put
        F2N  80 i add F2  80 i add get YKSUM div 100 mul put
        F2N 160 i add F2 160 i add get YKSUM div 100 mul put
} for %i=0,1,79

/FXN 80 array def %FXN 0 = F2N imax
/FYN 80 array def
/FZN 80 array def
%defines FXN, FYN, FZN 0 to 79
0 1 79 {/i exch def %i=0,79
        FXN i F2N 000 i add get put
        FYN i F2N 080 i add get put
        FZN i F2N 160 i add get put
} for %i=0,79

%special wavelength range with complementary colours for E?
/FXD 63 array def
/FYD 63 array def
/FZD 63 array def
/DOW 63 array def

00 1 60 {/i exch def %i=0,60 %range 400..700nm
         FXD i FXN 005 i add get put
         FYD i FYN 005 i add get put
         FZD i FZN 005 i add get put
         DOW i 400 i 5 mul add put %range 400 to 700
        } for %i=0,60

%for interpolation
FXD 61 FXD 60 get put
FYD 61 FYD 60 get put
FZD 61 FZD 60 get put

FXD 62 FXD 60 get put
FYD 62 FYD 60 get put
FZD 62 FZD 60 get put

/FAD 63 array def
/FBD 63 array def
/FCD 63 array def

20 setlinewidth
/xdel  1005 def
/ydel   393 def
/x0  050 def
/x1 -150 def

/TELi 8 array def
/TELi [(D65) (D50) (P40) (A00) (E00) (C00) (P00) (Q00)] def %7 illumin.

/Xi 79 array def %max 6 device colour + 4 elementary colours
/Yi 79 array def
/Zi 79 array def
/XANi 79 array def
/YANi 79 array def
/ZANi 79 array def

/xchartl 0 def

%calculation of XW,YW,ZW for illuminant D65, D50, ...
0 1 79 {/i exch def %i=0,79
        SDAK i xchartl 0 eq {SD65 i get} if
               xchartl 1 eq {SD50 i get} if
               xchartl 2 eq {SP40 i get} if
               xchartl 3 eq {SA00 i get} if
               xchartl 4 eq {SE00 i get} if
               xchartl 5 eq {SC00 i get} if
               xchartl 6 eq {SP00 i get} if
               xchartl 7 eq {SQ00 i get} if
               put
       } for %i=0,79

/YKSUM 0 def
0 1 79 {/i exch def %i=0,1,79
        /YKSUM YKSUM SDAK i get F2  80 i add get mul add def
} for %i=0,1,79

0 1 79 {/i exch def %i=0,1,79
        F2N  00 i add SDAK i get F2  00 i add get mul YKSUM div 100 mul put
        F2N  80 i add SDAK i get F2  80 i add get mul YKSUM div 100 mul put
        F2N 160 i add SDAK i get F2 160 i add get mul YKSUM div 100 mul put
} for %i=0,1,79

%XW,YW,ZW for white
/XW 0 def
/YW 0 def
/ZW 0 def
0 1 079 {/i exch def %i=0,79
         /XW XW F2N  00 i add get add def
         /YW YW F2N  80 i add get add def
         /ZW ZW F2N 160 i add get add def
        } for %i=0,79

/SUMW XW YW add ZW add def %for D65, D50, P40, A00, E00
/XANW XW SUMW div def
/YANW YW SUMW div def
/ZANW ZW SUMW div def

/AANW XW YW 0.0001 add div def
/BANW ZW YW 0.0001 add div 0.4 mul neg def

0 1 62 {/i exch def %i=0,62
        FAD i FXD i get put
        FBD i FYD i get put
        FCD i FZD i get put
       } for %i=0,62

/ix0 100 def
/ix1 ix0 2000 add def
/ixd 600 def
/ixd2 500 def

/iymax 16000 def
/idy 250 def
20 setlinewidth

/ymax 16600 def
/ydel   203 def

/ymax2 15900 def
/ymax3 16100 def
/xdel2   667 def
/ydel2   250 def
/ydel2t  300 def

/ymaxt ymax 400 sub def

/xpos 100 def

%/ymax ymax 800 sub def

%***************************************************
/proc_ABC_KNP_FWERTiX
{%BEG proc_ABC_KNP_FWERT

%input FAD,FBD,FCD, KNP
%output FWERTiX/Y/Z (i=1,4)

    kNP 1 ge {/FWERT1X FAD kNP 1 sub get def
              /FWERT1Y FBD kNP 1 sub get def
              /FWERT1Z FCD kNP 1 sub get def}
             {/FWERT1X FAD 0 get def %again 400nm for i=0
              /FWERT1Y FBD 0 get def
              /FWERT1Z FCD 0 get def} ifelse

    /FWERT2X FAD kNP get def
    /FWERT2Y FBD kNP get def
    /FWERT2Z FCD kNP get def

    /FWERT3X FAD kNP 1 add get def
    /FWERT3Y FBD kNP 1 add get def
    /FWERT3Z FCD kNP 1 add get def

    /FWERT4X FAD kNP 2 add get def
    /FWERT4Y FBD kNP 2 add get def
    /FWERT4Z FCD kNP 2 add get def

} bind def %END proc_ABC_KNP_FWERTiX

%*********************************************************
/proc_XIE_TN1
{%BEG proc_XIE_TN1

%input XIE, FWERTiX/Y/Z (i=1,4)
%output TN1

/A1N XIE       1 XIE sub mul XIE 2 sub mul 6 div   def
/A2N XIE 1 add XIE 1 sub mul XIE 2 sub mul 0.5 mul def
/A3N XIE 1 add XIE       mul 2 XIE sub mul 0.5 mul def
/A4N XIE 1 add XIE       mul XIE 1 sub mul 6 div   def
/FNX A1N FWERT1X mul
     A2N FWERT2X mul add
     A3N FWERT3X mul add
     A4N FWERT4X mul add def
/FNY A1N FWERT1Y mul
     A2N FWERT2Y mul add
     A3N FWERT3Y mul add
     A4N FWERT4Y mul add def
/FNZ A1N FWERT1Z mul
     A2N FWERT2Z mul add
     A3N FWERT3Z mul add
     A4N FWERT4Z mul add def
/TNX FNX FXU1 mul
     FNY FXU2 mul add
     FNZ FXU3 mul add def

} bind def %END proc_XIE_TN1

%*****************************************************
/i1i 60 array def
/i2i 60 array def
/idi 60 array def
/ici 60 array def

/w1i 60 array def
/w2i 60 array def
/wdi 60 array def
/wci 60 array def

/w1ci 60 array def
/w2ci 60 array def
/wdci 60 array def
/wcci 60 array def

/i1ib 60 array def
/i2ib 60 array def
/idib 60 array def
/icib 60 array def

/w1ib 60 array def
/w2ib 60 array def
/wdib 60 array def
/wcib 60 array def

/w1cib 60 array def
/w2cib 60 array def
/wdcib 60 array def
/wccib 60 array def

/i1ic 60 array def
/i2ic 60 array def
/idic 60 array def
/icic 60 array def

/w1ic 60 array def
/w2ic 60 array def
/wdic 60 array def
/wcic 60 array def

/w1cic 60 array def
/w2cic 60 array def
/wdcic 60 array def
/wccic 60 array def

0 1 59 {/i exch def %i=0,59
        i1i i 0 put
        i2i i 0 put
        idi i 0 put
        ici i 0 put

        w1i i 0 put
        w2i i 0 put
        wdi i 0 put
        wci i 0 put

        w1ci i (x) put
        w2ci i (x) put
        wdci i (x) put
        wcci i (x) put
        
       } for %i=0,59

/WEL1 60 array def %irregular definition
/WEL2 60 array def %irregular definition
      %0   1   2   3   4   5   6   7   8   9
/WEL1 [405 435 450 460 465 470 475 480 485 490
       495 500 510 520 530 540 545 550 555 560
      ] def

0 1 19 {/i exch def
        w1i i        WEL1 i get put
        w2i i 20 add WEL1 i get put
       } for

0 1 19 {/k exch def %k=0,19 %wavelength 405..700nm

        /j  WEL1 k get 400 sub 5 idiv def
        /ik k def
        /ik2 k 20 add def
       /FF1 FXD j get def %start at 405..700nm
       /FF2 FYD j get def
       /FF3 FZD j get def

       /U1 XW def
       /U2 YW def
       /U3 ZW def
       /FXU1 FF2 U3 mul FF3 U2 mul sub def
       /FXU2 FF3 U1 mul FF1 U3 mul sub def
       /FXU3 FF1 U2 mul FF2 U1 mul sub def

/INP -1 def
/IPN -1 def
%assumption jump from TN to TP from negativ to positiv
       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add def
               TN 0 le TP 0 gt and {/INP i def exit} if
              } for %i=1,60

       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add neg def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add neg def
               TN 0 le TP 0 gt and {/IPN i def exit} if
              } for %i=1,60

TM
%ix1 ixd 22 mul add iymax ik idy mul sub moveto INP cvishow
%ix1 ixd 23 mul add iymax ik idy mul sub moveto IPN cvishow
i1i ik INP put
i2i ik IPN put

%ix1 ixd 22 mul add iymax ik2 idy mul sub moveto IPN cvishow
%ix1 ixd 23 mul add iymax ik2 idy mul sub moveto INP cvishow
i1i ik2 IPN put
i2i ik2 INP put

%STOP1
%*********************************************************
/kNP INP def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE1 DOW INP get DOW INP 1 add get DOW INP get sub XIE mul add def
/XIENP XIE def

       } if %kNP>=0

%*********************************************************
/kNP IPN def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def
/FXU1 FXU1 neg def
/FXU2 FXU2 neg def
/FXU3 FXU3 neg def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE2 DOW IPN get DOW IPN 1 add get DOW IPN get sub XIE mul add def
/XIEPN XIE def

       } if %kNP>=0

%*********************************************************
%0 1 1 0 setcmyk_olvcolor
INP 0 ge {%INP>=0,-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 0.03 add cvishow %includes rounding failure
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE1 0.03 add cvishow
          w1i  ik DOWXIE1 put
          w1ci ik () put
          w2i  ik2 DOWXIE1 put
          w2ci ik2 () put
          /DOWEL1 DOWXIE1 def /DOWEL1c () def
         }%INP>=0
         {%INP=-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow (c) show
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LPP mul sub moveto
          w1i  ik DOWXIE2 put
          w1ci ik (c) put    
          w2i  ik2 DOWXIE2 put
          w2ci ik2 (c) put
%          DOWXIE2 cvishow (c) show
          /DOWEL1 DOWXIE2 def /DOWEL1c (c) def
         } ifelse %INP>=0,-1

%1 0 1 0 setcmyk_olvcolor
IPN 0 ge {%IPN>=0,-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 0.03 add cvishow
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE2 0.03 add cvishow
          w2i  ik DOWXIE2 put
          w2ci ik () put
          w1i  ik2 DOWXIE2 put
          w1ci ik2 () put
          /DOWEL2 DOWXIE2 def /DOWEL2c () def
         }%IPN>=0
         {%IPN=-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos xdel 1 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow (c) show
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos xdel 0 mul add 400 add ymax ydel LPP mul sub moveto
%          DOWXIE1 cvishow (c) show
          w2i  ik DOWXIE1 put
          w2ci ik (c) put
          w1i  ik2 DOWXIE1 put
          w1ci ik2 (c) put
          /DOWEL2 DOWXIE1 def /DOWEL2c (c) def
         } ifelse %IPN>=0,-1

0 0 0 1 setcmyk_olvcolor

%*********************************************************
0 1 79 {/i exch def %i=0,79
        RA i 0 put
       } for %i=0,79

INP -1 eq {/i1 0 def}                %380nm
          {/i1 INP 5 add def} ifelse %405..700nm

IPN -1 eq {/i2 79 def}               %770nm
          {/i2 IPN 5 add def} ifelse %405..700nm

i2 i1 ge {%i1<i2
          i1 1 i2 {/i exch def %i=i1,i2
                   RA i 1 put
                  } for %i=i1,i2
         }%i1<i2
         {%i1>i2
          i1 1 79 {/i exch def %i=i1,79
                   RA i 1 put
                  } for %i=i1,79
          0  1 i2 {/i exch def %i=0,i2
                   RA i 1 put
                  } for %i=0,i2
                  
         } ifelse %i1>i2

%correction
i2 i1 ge {%i1<i2
          RA i1 0.5 put
          RA i2 0.5 XIEPN 0.5 sub add put
         }%i1<i2
         {%i1>i2
          RA i1 0.5 put
          RA i2 0.5 XIEPN 0.5 sub add put
         } ifelse %i1>i2

%***************************************************
/X 0 def
/Y 0 def
/Z 0 def
          0 1 079 {/i exch def %i=0,79
                   /X X F2N  00 i add get RA i get mul add def
                   /Y Y F2N  80 i add get RA i get mul add def
                   /Z Z F2N 160 i add get RA i get mul add def
                  } for %i=0,79

/SUM X Y add Z add def
/XAN X SUM 0.0001 add div def
/YAN Y SUM 0.0001 add div def
/ZAN Z SUM 0.0001 add div def

%*************************************************
/xpos 100 def

0 1 1 {/Icom exch def %Icom=0,1

Icom 1 eq {%Icom=1
           /X XW X sub def
           /Y YW Y sub def
           /Z ZW Z sub def
           /SUM X Y add Z add def
           /XAN X SUM 0.0001 add div def
           /YAN Y SUM 0.0001 add div def
           /ZAN Z SUM 0.0001 add div def
           /ik ik 20 add def
          } if %Icom=1


%ix0 ixd 0 mul add iymax ik idy mul sub moveto WEL1 ik0 get cvishow
%ix0 ixd 1 mul add iymax ik idy mul sub moveto ik cvishow
%ix0 ixd 2 mul add iymax ik idy mul sub moveto

%Icom 0 eq {%Icom=0,1
%           ik0  0 eq {(Cm) show} if
%           ik0  6 eq {(Gm) show} if
%           ik0 13 eq {(Ym) show} if
%          }%Icom=0
%          {%Icom=1
%           ik0  0 eq {(Rm) show} if
%           ik0  6 eq {(Mm) show} if
%           ik0 13 eq {(Bm) show} if
%          } ifelse %Icom=0,1

%*********************************************************
%calculation of lamdad and lambdac for X, Y, Z
       /FF1 X def
       /FF2 Y def
       /FF3 Z def

       /U1 XW def
       /U2 YW def
       /U3 ZW def
       
       /FXU1 FF2 U3 mul FF3 U2 mul sub def
       /FXU2 FF3 U1 mul FF1 U3 mul sub def
       /FXU3 FF1 U2 mul FF2 U1 mul sub def

/INP -1 def
/IPN -1 def
%assumption jump from TN to TP from negativ to positiv
       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add def
               TN 0 le TP 0 gt and {/INP i def exit} if
              } for %i=1,60

       0 1 60 {/i exch def %i=1,60
               /TN FAD i get FXU1 mul
                   FBD i get FXU2 mul add
                   FCD i get FXU3 mul add neg def
               /TP FAD i 1 add get FXU1 mul
                   FBD i 1 add get FXU2 mul add
                   FCD i 1 add get FXU3 mul add neg def
               TN 0 le TP 0 gt and {/IPN i def exit} if
              } for %i=1,60

TK
%ix1 ixd 22 mul add iymax ik idy mul sub moveto INP cvishow
%ix1 ixd 23 mul add iymax ik idy mul sub moveto IPN cvishow

idi ik INP put
ici ik IPN put 

%*********************************************************
/kNP INP def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE1 DOW INP get DOW INP 1 add get DOW INP get sub XIE mul add def

       } if %kNP>=0

%*********************************************************
/kNP IPN def

kNP 0 ge {%kNP>=0

proc_ABC_KNP_FWERTiX %input FAD,KNP, output FWERTiXYZ (i=1,4)

/XIE1 0 def %start values TN=0 for XIE1, TP>0 for XIE2
/XIE2 1 def
/FXU1 FXU1 neg def
/FXU2 FXU2 neg def
/FXU3 FXU3 neg def

0 1 9 {/mk exch def %mk=0,9
       /XIE XIE1 XIE2 add 0.5 mul def
       proc_XIE_TN1  %input XIE, ouput TN1
       TNX 0 le {/XIE1 XIE def /TN1 TNX def}
                {/XIE2 XIE def /TP1 TNX def} ifelse
      } for %mk=0,9

/XIE XIE1 XIE2 add 0.5 mul def
/DOWXIE2 DOW IPN get DOW IPN 1 add get DOW IPN get sub XIE mul add def

       } if %kNP>=0

%*********************************************************
%0 1 1 0 setcmyk_olvcolor
INP 0 ge {%INP>=0,-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 9 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow
          wdi  ik DOWXIE1 put
          wdci ik () put
          /DOWEL1 DOWXIE1 def /DOWEL1c () def
         }%INP>=0
         {%INP=-1
%          ix1 ixd 24 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 9 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow (c) show
          wdi  ik DOWXIE2 put
          wdci ik (c) put
          /DOWEL1 DOWXIE2 def /DOWEL1c (c) def
         } ifelse %INP>=0,-1

%*********************************************************
%1 0 1 0 setcmyk_olvcolor
IPN 0 ge {%IPN>=0,-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 10 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE2 cvishow
          wci  ik DOWXIE2 put
          wcci ik () put
          /DOWEL2 DOWXIE2 def /DOWEL2c () def
         }%IPN>=0
         {%IPN=-1
%          ix1 ixd 25 mul add iymax ik idy mul sub moveto
%          xpos x1 add xdel 10 mul add 400 add ymax ydel LP mul sub moveto
%          DOWXIE1 cvishow (c) show
          wci  ik DOWXIE1 put
          wcci ik (c) put
          /DOWEL2 DOWXIE1 def /DOWEL2c (c) def
         } ifelse %IPN>=0,-1

%**********************************************************************

0 0 0 1 setcmyk_olvcolor

Icom 0 eq {%Icom=0,1
           Xi k X put
           Yi k Y put
           Zi k Z put
           XANi k XAN put
           YANi k YAN put
           ZANi k ZAN put
          }%Icom=0
          {%Icom=1
           /kP 20 k add def
           Xi kP X put
           Yi kP Y put
           Zi kP Z put
           XANi kP XAN put
           YANi kP YAN put
           ZANi kP ZAN put
          } ifelse %Icom=1

} for %k=0,19

} for %Icom=0,1

0 1 7 {/i exch def %i=0,7
       Xi  40 i add Xi  i get put %for later interpolation
       Yi  40 i add Yi  i get put
       Zi  40 i add Zi  i get put
       w1i 40 i add w1i i get put
       w2i 40 i add w2i i get put
       wdi 40 i add wdi i get put
       wci 40 i add wci i get put
      } for %i=0,7

%**********************************************************************
%XYZw stored at i=42
%XW,YW,ZW and XK,YK,ZK for white
/XW 0 def
/YW 0 def
/ZW 0 def
0 1 079 {/i exch def %i=0,79
         /XW XW F2N  00 i add get add def
         /YW YW F2N  80 i add get add def
         /ZW ZW F2N 160 i add get add def
        } for %i=0,79

/kP 48 def
Xi kP XW put
Yi kP YW put
Zi kP ZW put
/SUM XW YW add ZW add def
/XANW XW SUM 0.0001 add div def
/YANW YW SUM 0.0001 add div def
XANi kP XANW put
YANi kP YANW put

%**********************************************************************
%needed
%       LUTL*a j LAB*Lja jx get put
%       LUTA*a j LAB*aja jx get put
%       LUTB*a j LAB*bja jx get put
%       habton itonj LUTB*a j get LUTA*a j get atan put

/LAB*Li 99 array def %only 48 used here
/LAB*ai 99 array def
/LAB*bi 99 array def
/LAB*Ci 99 array def
/LAB*hi 99 array def

/LAB*Lia 99 array def
/LAB*aia 99 array def
/LAB*bia 99 array def
/LAB*Cia 99 array def
/LAB*hia 99 array def

/D13 1 3 div def
/D841_108 841 108 div def
/D16_116 16 116 div def
/D24_116 24 116 div 3 exp def
/a2D65 0.2191 def
/b2D65 -0.08376 def

0 1 48 {/i exch def %i=0,48 %including white

K 0 eq {/X Xi i get def
        /Y Yi i get def
        /Z Zi i get def
       }
       {
        /X Xi i get XN1 add 1.0271 div 0.886 mul def
        /Y Yi i get YN1 add 1.0271 div 0.886 mul def
        /Z Zi i get ZN1 add 1.0271 div 0.886 mul def
       } ifelse

X XW div D24_116 gt {/FXXN X XW div 0.0001 add D13 exp def}
                    {/FXXN D841_108 X XW div mul D16_116 add def} ifelse

Y YW div D24_116 gt {/FYYN Y YW div 0.0001 add D13 exp def}
                    {/FYYN D841_108 Y YW div mul D16_116 add def} ifelse

Z ZW div D24_116 gt {/FZZN Z ZW div 0.0001 add D13 exp def}
                    {/FZZN D841_108 Z YW div mul D16_116 add def} ifelse

/L* 116. FYYN mul 16. sub def
/a* 500. FXXN FYYN sub mul def
/b* 200. FYYN FZZN sub mul def
/C*ab a* dup mul
      b* dup mul add 0.0001 add sqrt def
/hab b* a* 0.0001 add atan def

LAB*Lia i L*   put
LAB*aia i a*   put
LAB*bia i b*   put
LAB*Cia i C*ab put
LAB*hia i hab  put

LUTL*a i L*   put
LUTA*a i a*   put
LUTB*a i b*   put

habton i LUTB*a i get LUTA*a i get 0.0001 add atan put

} for %i=0,48

%change of decending to increasing hue angle order

0 1 47 {/i exch def %i=0,47
       LUTL*c i LUTL*a 47 i sub get put
       LUTA*c i LUTA*a 47 i sub get put
       LUTB*c i LUTB*a 47 i sub get put
       habton i LUTB*c i get LUTA*c i get 0.0001 add atan put
       w1ic   i w1i    47 i sub get put
       w2ic   i w2i    47 i sub get put
       wdic   i wdi    47 i sub get put
       wcic   i wci    47 i sub get put
       wdcic  i wdci   47 i sub get put
       wccic  i wcci   47 i sub get put
       } for %i=0,47

/imin -1 def
0 1 46 {/i exch def %i=0,46
       habton i 1 add habton i get sub -100 lt
       {/imin i def exit} if
       } for %i=0,46
imin -1 eq {STOP imin false} if

%usually imin=25, imin1=26
%new order imin1..47->0..47-26
%          0 imin   ->47-45..47

/imin1 imin 1 add def
imin1 1 47 {/i exch def %i=imin1,47
            LUTL*b i imin1 sub LUTL*c i get put
            LUTA*b i imin1 sub LUTA*c i get put
            LUTB*b i imin1 sub LUTB*c i get put
            habton i imin1 sub
            LUTB*c i get 0.0001 add
            LUTA*c i get 0.0001 add atan put
            w1ib   i imin1 sub w1ic   i get put
            w2ib   i imin1 sub w2ic   i get put
            wdib   i imin1 sub wdic   i get put
            wcib   i imin1 sub wcic   i get put
            wdcib  i imin1 sub wdcic  i get put
            wccib  i imin1 sub wccic  i get put            
           } for %i=imin1,47 

0 1 imin   {/i exch def %i=0,imin
            LUTL*b 47 imin sub LUTL*c i get put
            LUTA*b 47 imin sub LUTA*c i get put
            LUTB*b 47 imin sub LUTB*c i get put
            habton 47 imin sub
            LUTB*c i get 0.0001 add
            LUTA*c i get 0.0001 add atan put
            w1ib   47 imin sub w1ic   i get put
            w2ib   47 imin sub w2ic   i get put
            wdib   47 imin sub wdic   i get put
            wcib   47 imin sub wcic   i get put
            wdcib  47 imin sub wdcic  i get put
            wccib  47 imin sub wccic  i get put
           } for %i=0,imin

/L*Nio 0.0001 def
/A*Nio 0 def
/B*Nio 0 def
/L*Wio LAB*Lia 48 get def
/A*Wio LAB*aia 48 get def
/B*Wio LAB*bia 48 get def

/XNio 0.0001 def
/YXio 0.0001 def
/ZNio 0.0001 def

/XWio XLWD65100 def
/YWio YLWD65100 def
/ZWio ZLWD65100 def

0 setgray
/TBGGT {290 /TimesB-ISOL1 FS} bind def
/TBIGGT {290 /TimesBI-ISOL1 FS} bind def
/TGT {250 /Times-ISOL1 FS} bind def
/TIGT {250 /TimesI-ISOL1 FS} bind def
/TBGT {250 /TimesB-ISOL1 FS} bind def
/TBIGT {250 /TimesBI-ISOL1 FS} bind def
/TBMT {200 /TimesB-ISOL1 FS} bind def
/TBIMT {200 /TimesBI-ISOL1 FS} bind def
/ishowGT {TBMT -00 -50 rmoveto show 00 50 rmoveto TBGT} bind def
/ishowGGT {TBGT -00 -50 rmoveto show 00 50 rmoveto TBGGT} bind def

/RYGBton 17 array def

/RYGB0 RYGBLAB* 02 get RYGBLAB* 01 get atan def %026
/RYGB1 RYGBLAB* 05 get RYGBLAB* 04 get atan def %092
/RYGB2 RYGBLAB* 08 get RYGBLAB* 07 get atan def %162
/RYGB3 RYGBLAB* 11 get RYGBLAB* 10 get atan def %272


0 1 16 {/j exch def %i=0,16 elementary and intemediate hue angles
/j0 j j 4 idiv 4 mul sub def %0,1,2,3
/b0 j0 0.25 mul def
/a0 1 b0 sub def
j 00 ge j 03 le and {RYGBton j a0 RYGB0 mul b0 RYGB1 mul add put} if
j 04 ge j 07 le and {RYGBton j a0 RYGB1 mul b0 RYGB2 mul add put} if
j 08 ge j 11 le and {RYGBton j a0 RYGB2 mul b0 RYGB3 mul add put} if
j 12 ge j 15 le and {RYGBton j a0 RYGB3 mul b0 RYGB0 360 add mul add
                               dup 360 ge {360 sub} if put} if

j 16 eq {RYGBton j RYGB0 put} if
         } for %j=0,16 elementary and intemediate hue angles
 
0 setgray
/xton 050 def
/ymax2 7000 def

xton ymax2 700 add moveto
TBIGGT (rgb*) show (e) ishowGGT TBGGT
( and CIE data of a elementary hue circle according to) showea
(\255 und CIE\255Daten eines Elementar\255Bunttonkreises nach) showde
( CIE R1\25547) show
( for) showea
( f\374r) showde
TBIGGT
( Ostwald) show
TBGGT
( colours) showea
(\255Farben) showde

xton ymax2 350 add moveto
TBIGT
xchart 0 eq {%xchart=0,1
             (XYZ, xy, YAB,) showea
             (XYZ\255, xy\255, YAB\255) showde
            }%xchart=0
            {%xchart=1
             (XYZ, ab, YAB) showea
             (XYZ\255, ab\255, YAB) showde
             (,) showea
             (\255) showde
            } ifelse %xchart=0,1
TBGT
( and) showea
( und) showde
TBIGT
( Lab*) show
TBGT
( data for relative spacing of elementary hue) showea
(\255Daten f\374 relative Stufung des Elementarbunttons) showde
TBIGT
( h) show (ab) ishowGT
TBGT
( of CIELAB, ) showea
( von CIELAB, ) showde
TBIGT
(Y) show (W) ishowGT
TBGT
K 0 eq {(=100, ) show} if
K 1 eq {(=88,6, ) show} if
TBIGT
(Y) show (N) ishowGT
TBGT
YFa 0 eq {(=0) show} if
YFa 1 eq {(=2,5) show} if

TBGT
xton ymax2 moveto
(16 step elementary hue circle with intended elementary hues:) showea
(16\255stufiger Elementar\255Bunttonkreis mit Ziel\255Elementar\255Buntton:) showde
TBIGT
( h) show (ab)ishowGT
TBGT
( = ) show
RYGB0 cvsshow1 (, ) show
RYGB1 cvsshow1 (, ) show
RYGB2 cvsshow1 (, ) show
RYGB3 cvsshow1
TBGT
( of CIELAB) showea
( von CIELAB) showde

/xtext 0 def
xtext 1 eq {%xtext=1
%title text
0 1 5 {/xtonj exch def %xtonj=0,5

/xton 150 4180 xtonj mul add def

xton 0 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (rgb -> rgb*) show (d) ishowGT TBGT
xton 2.0 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (h) show (ab) ishowGT

xton 2.9 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (L*) show
xton 3.8 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (a*) show %(a) ishowGT
xton 4.7 xdel2 mul add ymax3 ydel2t add moveto
TBIGT (b*) show %(a) ishowGT

TGT
%xton 0 xdel2 mul add ymax3 j ydel2 mul sub moveto
%LUTR jx 7 mul       get 0.001 mul cvsshow2 ( ) show
%LUTR jx 7 mul 1 add get 0.001 mul cvsshow2 ( ) show
%LUTR jx 7 mul 2 add get 0.001 mul cvsshow2

%STOPx

0 1 7 {/j exch def %j=0,7
/n xtonj 8 mul j add def
xton 0.0 xdel2 mul add ymax3 j ydel2 mul sub moveto
n cvishow
xton 0.4 xdel2 mul add ymax3 j ydel2 mul sub moveto
w1i n get cvishow
xton 1.1 xdel2 mul add ymax3 j ydel2 mul sub moveto
w2i n get cvishow
xton 1.8 xdel2 mul add ymax3 j ydel2 mul sub moveto
wdi n get cvishow
xton 2.5 xdel2 mul add ymax3 j ydel2 mul sub moveto
wci n get cvishow
xton 3.1 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTB*b n get LUTA*b n get 0.00001 add atan cvsshow1
TGT
xton 3.9 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTL*b n get cvishow
xton 4.7 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTA*b n get cvishow
xton 5.5 xdel2 mul add ymax3 j ydel2 mul sub moveto
LUTB*b n get cvishow
      } for %j=0,7
      } for %xtonj=0,5
} if %xtext=1
     
0 setgray
/xton 050 def

/xtext 0 def
xtext 1 eq {%xtext=1
xton ymax2 ydel2 8 mul sub moveto
TBIGT (RYGB) show (ton) ishowGT
TGT
(, ) show RYGB0 cvsshow1
(, ) show RYGB1 cvsshow1
(, ) show RYGB2 cvsshow1
(, ) show RYGB3 cvsshow1

TBIGT (     RYGB) show (all) ishowGT (:) show
TGT
0 1 15 {/j exch def %j=0,15
        xton 5000 add j 750 mul add ymax2 ydel2 8 mul sub moveto
        RYGBton j get cvsshow1
       } for %j=0,15

TBIGT (    LAB*Nio: ) show TGT
L*Nio cvsshow1 (,  ) show
A*Nio cvsshow1 (,  ) show
B*Nio cvsshow1
TBIGT (    LAB*Wio: ) show TGT
L*Wio cvsshow1 (,  ) show
A*Wio cvsshow1 (,  ) show
B*Wio cvsshow1
} if %xtext=1

%/ymax2 7000 def
/ymax2 7000 def

%TBGT
%100 ymax2 ydel2 9.5 mul sub moveto
%(16 step elementary hue circle with intended elementary hues:) showea
%(16\255stufiger Elementar\255Bunttonkreis mit Ziel\255Elementar\255Buntton:) showde
%TBIGT
%( h) show (ab,a)ishowGT
%TBGT
%( = ) show
%RYGB0 cvsshow1 (, ) show
%RYGB1 cvsshow1 (, ) show
%RYGB2 cvsshow1 (, ) show
%RYGB3 cvsshow1
TGT

/ivar 0 def
/jm 1.7 def /jx ivar 0 eq {2.5 def}
                          {22.7 def} ifelse %color series title text
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub ydel2 add moveto
/yact ymax2 jx ydel2 mul sub ydel2 add def
%/j 0 def
%/jm 19.7 def %color series title text
%/yact ymax2 10.5 j 7 mul add ydel2 mul sub ydel2 add def
xton jm       xdel2 mul add yact moveto
TBIGT (X) show
xton jm 1 add xdel2 mul add yact moveto
TBIGT (Y) show
xton jm 2 add xdel2 mul add yact moveto
TBIGT (Z) show

xchart 0 eq {%xchart=0
xton jm 3 add xdel2 mul add yact moveto
TBIGT (x) show 
xton jm 4 add xdel2 mul add yact moveto
TBIGT (y) show
} if %xchart=0

xchart 1 eq {%xchart=1
xton jm 3 add xdel2 mul add yact moveto
TBIGT (a) show
xton jm 4 add xdel2 mul add yact moveto
TBIGT (b) show
} if %xchart=1

xton jm 5 add xdel2 mul add yact moveto
TBIGT (A) show
xton jm 6 add xdel2 mul add yact moveto
TBIGT (B) show
xton jm 7 add xdel2 mul add yact moveto
TBIGT (C) show (AB) ishowGT
xton jm 8 add xdel2 mul add yact moveto
TBIGT (h) show (AB) ishowGT

xton jm 9 add xdel2 mul add yact moveto
TBIGT (L*) show %(a) ishowGT
xton jm 10 add xdel2 mul add yact moveto
TBIGT (a*) show %(a) ishowGT
xton jm 11 add xdel2 mul add yact moveto
TBIGT (b*) show %(a) ishowGT
xton jm 11.9 add xdel2 mul add yact moveto
TBIGT (C*) show (ab) ishowGT
xton jm 13 add xdel2 mul add yact moveto
TBIGT (h) show (ab) ishowGT

xton jm 14 add xdel2 mul add yact moveto
TBIGT (rgb -> rgb*) show (e) ishowGT TBGT

%increasing order with LUTL*b etc!
/itonx  0 def
/itonx1 0 def
/habtonM 0 def
/habton0 0 def
/habton1 0 def
/habtonP 0 def

/habton2M 0 def
/habton2  0 def
/habton3  0 def
/habton3P 0 def

/LUTL*b2M 0.0001 def
/LUTL*b2  0.0001 def
/LUTL*b3  0.0001 def
/LUTL*b3P 0.0001 def

/LUTA*b2M 0.0001 def
/LUTA*b2  0.0001 def
/LUTA*b3  0.0001 def
/LUTA*b3P 0.0001 def

/LUTB*b2M 0.0001 def
/LUTB*b2  0.0001 def
/LUTB*b3  0.0001 def
/LUTB*b3P 0.0001 def

TGT
/I45 45 def %hue circle steps (47-2) for first step at i=0
/I39 39 def %hue circle of 40 steps (40-1) and i-0,39

/ymax2x ymax2 2600 sub def
/xtext 0 def
xtext 1 eq {%xtext=1
0 1 47 {/jj exch def
        xton ymax2x 220 jj mul sub moveto
        jj 9 le {(0) show} if
        jj cvishow ( ) show habton jj get cvsshow1
        xton 1000 add ymax2x 220 jj mul sub moveto
        LUTL*b jj get cvsshow1
        xton 2000 add ymax2x 220 jj mul sub moveto
        LUTA*b jj get cvsshow1
        xton 3000 add ymax2x 220 jj mul sub moveto
        LUTB*b jj get cvsshow1
       } for %jj=0,47
} if %xtext=1

0 1 15 {/j exch def %j=0,15
        1 1 I39 {/jj exch def %jj=1,I39
                 /habtonM habton jj 1 sub get def
                 /habton0 habton jj       get def
                 /habton1 habton jj 1 add get def
                 /habtonP habton jj 2 add get def

/xtext 0 def
xtext 1 eq {%xtext=1
j 15 eq {%j=0
        xton 4000 add ymax2x 220 jj mul sub moveto
        jj cvishow ( ) show habton jj get cvsshow1
        xton 5000 add ymax2x 220 jj mul sub moveto
        habtonM cvsshow1
        xton 6000 add ymax2x 220 jj mul sub moveto
        habton0 cvsshow1
        xton 7000 add ymax2x 220 jj mul sub moveto
        habton1 cvsshow1
        xton 8000 add ymax2x 220 jj mul sub moveto
        habtonP cvsshow1
        xton 9000 add ymax2x 220 jj mul sub moveto
        RYGBton j get cvsshow1
} if %j=0
} if %xtext=1

habton1 5 add habton0 lt {%habton1<habton0 %5 add avoids small errors
        /habton0x habton0 def
        %attention habton0 will change!

        RYGBton j get habton0 lt
        RYGBton j get habtonM lt and {%1
                  habton0 habton1 gt {/habton0 habton0x 360 sub def} if
                  habtonM habton1 gt {/habtonM habtonM 360 sub def} if
                                     } if %1

        RYGBton j get habton0x gt
        RYGBton j get habton1 360 add lt and {%1
                  /habton1 habton1 360 add def
                  /habtonP habtonP 360 add def
                                     } if %1
} if %habton1<habton0

                 RYGBton j get habton0 ge
                 RYGBton j get habton1 lt and
                 {/itonx jj def
                 /habton2M habton jj 1 sub get def
                 /habton2  habton jj       get def
                 /habton3  habton jj 1 add get def
                 /habton3P habton jj 2 add get def

                 /LUTL*b2M LUTL*b jj 1 sub get def
                 /LUTL*b2  LUTL*b jj       get def
                 /LUTL*b3  LUTL*b jj 1 add get def
                 /LUTL*b3P LUTL*b jj 2 add get def

                 /LUTA*b2M LUTA*b jj 1 sub get def
                 /LUTA*b2  LUTA*b jj       get def
                 /LUTA*b3  LUTA*b jj 1 add get def
                 /LUTA*b3P LUTA*b jj 2 add get def

                 /LUTB*b2M LUTB*b jj 1 sub get def
                 /LUTB*b2  LUTB*b jj       get def
                 /LUTB*b3  LUTB*b jj 1 add get def
                 /LUTB*b3P LUTB*b jj 2 add get def

                 /w1i2M w1i jj 1 sub get def
                 /w1i2  w1i jj       get def
                 /w1i3  w1i jj 1 add get def
                 /W1i3P w1i jj 2 add get def

                 /w2i2M w2i jj 1 sub get def
                 /w2i2  w2i jj       get def
                 /w2i3  w2i jj 1 add get def
                 /W2i3P w2i jj 2 add get def

                 /wdi2M wdi jj 1 sub get def
                 /wdi2  wdi jj       get def
                 /wdi3  wdi jj 1 add get def
                 /Wdi3P wdi jj 2 add get def

                 /wci2M wci jj 1 sub get def
                 /wci2  wci jj       get def
                 /wci3  wci jj 1 add get def
                 /Wci3P wci jj 2 add get def

/xtext 0 def
xtext 1 eq {%xtext=1
j 15 eq {%j=0
        xton 11000 add ymax2x 220 jj mul sub moveto
        jj cvishow ( ) show habton jj get cvsshow1
        xton 12000 add ymax2x 220 jj mul sub moveto
        habton2M cvsshow1
        xton 13000 add ymax2x 220 jj mul sub moveto
        habton2 cvsshow1
        xton 14000 add ymax2x 220 jj mul sub moveto
        habton3 cvsshow1
        xton 15000 add ymax2x 220 jj mul sub moveto
        habton3P cvsshow1
        xton 16000 add ymax2x 220 jj mul sub moveto
        RYGBton j get cvsshow1
} if %j=0
} if %xtext=1

                 /xdel RYGBton j get habton0 sub
                       habton1       habton0 sub div def
                } if
               } for %jj=0,I39

/XIE xdel def

/A1 XIE 1 XIE sub mul  XIE 2 sub mul  6 div def
/A2 XIE 1 add  XIE 1 sub mul  XIE 2 sub mul  0.5 mul def
/A3 XIE 1 add  XIE mul  2 XIE sub mul  0.5 mul def
/A4 XIE 1 add  XIE mul  XIE 1 sub mul 6 div def

/habtonx habton2M A1 mul
         habton2  A2 mul add
         habton3  A3 mul add
         habton3P A4 mul add def

LAB*Lta j LUTL*b2M A1 mul
          LUTL*b2  A2 mul add
          LUTL*b3  A3 mul add
          LUTL*b3P A4 mul add put

LAB*ata j LUTA*b2M A1 mul
          LUTA*b2  A2 mul add
          LUTA*b3  A3 mul add
          LUTA*b3P A4 mul add put

LAB*bta j LUTB*b2M A1 mul
          LUTB*b2  A2 mul add
          LUTB*b3  A3 mul add
          LUTB*b3P A4 mul add put


LAB*Lt j LAB*Lta j get put
/l*CIE LAB*Lt j get L*Nio sub L*Wio L*Nio sub 0.0001 add div def %system rel. lightn.
/a*s A*Wio A*Nio sub l*CIE mul def
/b*s B*Wio B*Nio sub l*CIE mul def
LAB*at j LAB*ata j get A*Nio sub a*s add put
LAB*bt j LAB*bta j get B*Nio sub b*s add put

/habtonx LAB*bta j get LAB*ata j get 0.0001 add atan def

/X* {LAB*Lt j get 16 add 116 div
     LAB*at j get 500 div add} bind def
/Y* {LAB*Lt j get 16 add 116 div} bind def
/Z* {LAB*Lt j get 16 add 116 div
     LAB*bt j get 200 div sub} bind def
Xt j X* DecodeXYZ* XLWD65100 mul put
Yt j Y* DecodeXYZ* YLWD65100 mul put
Zt j Z* DecodeXYZ* ZLWD65100 mul put

TGT
/jm 1.7 def /jx 03 j 1 mul add def %color series mkub=7 actual data
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBIGT RYGB16 j get show TGT

xton jm xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get cvsshow1
xton jm 1 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get cvsshow1
xton jm 2 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get cvsshow1

xchart 0 eq {%xchart=0
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
/SUMXZYt Xt j get Yt j get add Zt j get add def
Xt j get SUMXZYt div 0.00001 add cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get SUMXZYt div 0.00001 add cvsshow3
} if %xchart=0

%A=(X/Y -Xn/Yn)*Y
/A Xt j get Yt j get 0.0001 add div
   XWio     YWio     0.0001 add div sub Yt j get mul def
%B=(Z/Y -Zn/Yn)*Y
/B Zt j get Yt j get 0.0001 add div
   ZWio     YWio     0.0001 add div sub Yt j get mul 0.4 mul neg def
%CAB=[A**2+B**2]**(1/2) * Y
/CAB A dup mul B dup mul add 0.0001 add sqrt def
%hAB=atan (B/A)
/hAB B A 0.0001 add atan def

xchart 1 eq {%xchart=1
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get Yt j get 0.0001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get Yt j get 0.0001 add div 0.4 mul neg cvsshow3
} if %xchart=1

xton jm 5 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
A cvsshow1
xton jm 6 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
B cvsshow1
xton jm 7 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
CAB cvsshow1
xton jm 8 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
hAB cvsshow1

xton jm 9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*Lta j get cvsshow1
xton jm 10 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get cvsshow1
xton jm 11 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get cvsshow1
xton jm 12 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get dup mul LAB*bta j get dup mul add 0.00001 add sqrt cvsshow1

xton jm 13 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT LAB*bta j get LAB*ata j get atan cvsshow1 TGT

xton jm 14 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT RGB*16 j get show TGT

%special for later delete

} for %j=0,15

%************************************************************************
%Begin 5 grey steps

/ymax2 4000 def

%series Black to white
K 0 eq {/YNW 100.0 def}
       {/YNW 88.60 def} ifelse
/YW0 100 def
YNW YW0 div D24_116 gt {/FYYN YNW YW0 div 0.0001 add D13 exp def}
                    {/FYYN D841_108 YNW YW0 div mul D16_116 add def} ifelse
/L*NW 116. FYYN mul 16. sub def


YFa 0 eq {/YNN 0.001 def} %near cero
         {/YNN YN0   def} ifelse

YNN YW0 div D24_116 gt {/FYYN YNN YW0 div 0.0001 add D13 exp def}
                    {/FYYN D841_108 YNN YW0 div mul D16_116 add def} ifelse
/L*NN 116. FYYN mul 16. sub def

/L*N L*NN def
/L*W L*NW def
0 1 4 {/j exch def %j=0,4
       L*ton j L*N  L*W L*N sub j 0.25 mul mul add put
      } for %j=0,4

TBGT
100 ymax2 ydel2 8.5 mul sub moveto
(5 step equidistant grey scale with intended lightness:) showea
(5\255stufige gleichabst\344ndige Graureihe mit Ziel\255Helligkeit:) showde
TBIGT
( L*) show
TBGT
( = ) show
L*ton 0 get cvsshow1 (, ) show
L*ton 1 get cvsshow1 (, ) show
L*ton 2 get cvsshow1 (, ) show
L*ton 3 get cvsshow1 (, ) show
L*ton 4 get cvsshow1
TGT

0 1 4 {/j exch def %j=0,4
       LAB*Lta j L*ton j get put
       LAB*ata j 0 put
       LAB*bta j 0 put

       LAB*Lt j LAB*Lta j get put
       /l*CIE LAB*Lt j get L*Nio sub L*Wio L*Nio sub 0.0001 add div def %system rel. li
       /a*s A*Wio A*Nio sub l*CIE mul def
       /b*s B*Wio B*Nio sub l*CIE mul def
       LAB*at j LAB*ata j get A*Nio sub a*s add put
       LAB*bt j LAB*bta j get B*Nio sub b*s add put

/X* {LAB*Lt j get 16 add 116 div
     LAB*at j get 500 div add} bind def
/Y* {LAB*Lt j get 16 add 116 div} bind def
/Z* {LAB*Lt j get 16 add 116 div
     LAB*bt j get 200 div sub} bind def
Xt j X* DecodeXYZ* XLWD65100 mul put
Yt j Y* DecodeXYZ* YLWD65100 mul put
Zt j Z* DecodeXYZ* ZLWD65100 mul put

TGT
/jm 1.7 def /jx 11 j 1 mul add def %grey series
xton jm 1.7 sub xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBIGT L05 j get show TGT
xton jm       xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get cvsshow1
xton jm 1 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get cvsshow1
xton jm 2 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get cvsshow1

xchart 0 eq {%xchart=0
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
/SUMXZYt Xt j get Yt j get add Zt j get add def
Xt j get SUMXZYt 0.00001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Yt j get SUMXZYt 0.00001 add div cvsshow3
} if %xchart=0

/A Xt j get Yt j get 0.0001 add div
   XWio     YWio     0.0001 add div sub Yt j get mul def
%B=(Z/Y -Zn/Yn)*Y
/B Zt j get Yt j get 0.0001 add div
   ZWio     YWio     0.0001 add div sub Yt j get mul 0.4 mul neg def
%CAB=[A**2+B**2]**(1/2) * Y
/CAB A dup mul B dup mul add 0.0001 add sqrt def
%hAB=atan (B/A)
/hAB B A 0.0001 add atan def

xchart 1 eq {%xchart=1
xton jm 2.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Xt j get Yt j get 0.0001 add div cvsshow3
xton jm 3.9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
Zt j get Yt j get 0.0001 add div 0.4 mul neg cvsshow3
} if %xchart=1

xton jm 5 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
A cvsshow1
xton jm 6 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
B cvsshow1
xton jm 7 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
CAB cvsshow1
xton jm 8 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
hAB cvsshow1

xton jm 9 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT LAB*Lta j get cvsshow1 TGT
xton jm 10 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get cvsshow1
xton jm 11 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get cvsshow1
xton jm 12 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*ata j get dup mul LAB*bta j get dup mul add 0.00001 add sqrt cvsshow1

xton jm 13 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
LAB*bta j get LAB*ata j get 0.0001 add atan cvsshow1

xton jm 14 add xdel2 mul add ymax2 jx ydel2 mul sub moveto
TBGT RGB*005 j get show TGT

       } for %j=0,4

showpage
grestore

} for %xchart=0,1

%%Trailer

%%EndDocument
EndEPSF grestore gsave

BeginEPSF
219 MM 06 MM sub SHAr add 020 MM translate 12 /Times-ISOL1 FS -9 MM -7 MM  moveto ( ) show
  10 /Times-ISOL1 FS  53 MM 1 MM moveto ( ) show 1 1 scale  -77 -91 translate
%%BeginDocument: Bild 28

%line 499
%!PS-Adobe-3.0 EPSF-3.0 AEP61-8,
%%BoundingBox: 70 90 226 206

/FS {findfont exch scalefont setfont} bind def
/MM {72 25.4 div mul} def
%%EndProlog
gsave

8 /Times-Roman FS
72 83 moveto
%!2     (AEP61-8,) show

72 90 translate

%! 0.01 MM 0.01 MM scale
%! 15 setlinewidth
%! 0 0  moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto
%! closepath stroke

grestore

showpage
%%Trailer

%%EndDocument
EndEPSF grestore gsave

BeginEPSF
219 MM 080 MM add 008 MM translate %80 MM Breite von TestStreifen
  10 /Times-ISOL1 FS  53 MM 1 MM moveto () show 1 1 scale -77 21 MM sub -91 translate
%%BeginDocument: Bild 29 Teststreifen Ueberlaenge

%line 509

%%EndDocument
EndEPSF grestore gsave

BeginEPSF
-0.0 MM -0.0 MM translate %xy-Verschiebung Rechteckrahmen nach innen%

%%BeginDocument: Bild 30 %Rechteckrahmen

%line 519
%!PS-Adobe-3.0 EPSF-3.0 Frame arround with Internet text DG02 20070101
%%BoundingBox: 0 0 598 845

%%EndProlog
gsave

/lanind 1 def
/lantex [(G) (E) (S) (N) (I) (J) (M)] def
/showde {0 lanind eq {show} {pop} ifelse} bind def
/showen {1 lanind eq {show} {pop} ifelse} bind def
/showes {2 lanind eq {show} {pop} ifelse} bind def
/showfr {3 lanind eq {show} {pop} ifelse} bind def
/showit {4 lanind eq {show} {pop} ifelse} bind def
/showjp {5 lanind eq {show} {pop} ifelse} bind def
/showea {1 lanind le {show} {pop} ifelse} bind def

/lanind1 01 def /lanind2 01 def /lanindd 01 def
/colorm1 00 def /colorm2 00 def /colormd 01 def
/deintp1 00 def /deintp2 00 def /deintpd 01 def
/xcolor1 03 def /xcolor2 03 def /xcolord 01 def
/xchart1 00 def /xchart2 00 def /xchartd 01 def
/pchart1 00 def /pchart2 00 def /pchartd 01 def
/colsep1 00 def /colsep2 00 def /colsepd 01 def
/pmetam1 00 def /pmetam2 00 def /pmetamd 01 def

/lanindf where {pop /lanind1 lanindf def /lanind2 lanindf def
                    /lanindd laninddf def} if
/colormf where {pop /colorm1 colormf def /colorm2 colormf def
                    /colormd colormdf def} if
/deintpf where {pop /deintp1 deintpf def /deintp2 deintpf def
                    /deintpd deintpdf def} if
/xcolorf where {pop /xcolor1 xcolorf def /xcolor2 xcolorf def
                    /xcolord xcolordf def} if
/xchartf where {pop /xchart1 xchartf def /xchart2 xchartf def
                    /xchartd xchartdf def
                    /xchartm xchart2f xchart1f sub 1 add def}
               {/xchartm 1 def} ifelse
/xchart3f where {pop /xchart3 xchart3f def}
                {/xchart3 1 def} ifelse
/xchart4f where {pop /xchart4 xchart4f def}
                {/xchart4 0 def} ifelse
/pchartf where {pop /pchart1 pchartf def /pchart2 pchartf def
                    /pchartd pchartdf def} if
/colsepf where {pop /colsep1 colsepf def /colsep2 colsepf def
                    /colsepd colsepdf def} if
/pmetamf where {pop /pmetam1 pmetamf def /pmetam2 pmetamf def
                    /pmetamd pmetamdf def} if

/lanind lanind1 def %
/colorm colorm1 def %
/deintp deintp1 def %
/xcolor xcolor1 def %
/xchart xchart1 def %
/pchart pchart1 def %
/colsep colsep1 def %
/pmetam pmetam1 def %

/GSS$ where {pop /LSS$ GSS$ def}
            {/LSS$ (1) def} ifelse
/GSC$ where {pop /LSC$ GSC$ def}
            {/LSC$ (N) def} ifelse
/GSX$ where {pop /LSX$ GSX$ def}
            {/LSX$ (0) def} ifelse
/GSY$ where {pop /LSY$ GSY$ def}
            {/LSY$ (0) def} ifelse
/GEX$ where {pop /LEX$ GEX$ def}
            {/LEX$ (P.PS./PDF) def} ifelse
/GEY$ where {pop /LEY$ GEY$ def}
            {/LEY$ (P.DAT) def} ifelse
/IMES 0 def
/i*ptrsc 0 def

gsave

0 setgray

1.0 1.0  scale

0.0 MM 0.0 MM translate

0.15 MM setlinewidth

/x 20 array def
/y 20 array def
/d 20 array def

/x [000 296 296 000  002 294 294 002  005 291 291 005 %speziell
    006 290 290 006  008 288 288 008 ] def
/y [000 000 210 210  002 002 208 208  005 005 205 205 %speziell
    006 006 204 204  008 008 202 202 ] def
/d [060 017 -60 -17  058 015 -58 -15  056 013 -56 -13
    054 011 -54 -11  052 009 -52 -09 ] def

colorm 0 eq deintp 0 eq and {/Txx (d) def  /Fxx (d) def} if %colorm=0, deintp=0
colorm 0 eq deintp 1 eq and {/Txx (e) def  /Fxx (e) def} if %colorm=0, deintp=1
colorm 1 eq deintp 0 eq and {/Txx (dd) def /Fxx (d) def} if %colorm=1, deintp=0
colorm 1 eq deintp 1 eq and {/Txx (de) def /Fxx (e) def} if %colorm=1, deintp=1
xchart 0 eq {/Txx (-) def /Fxx (-) def} if

xchart 1 ge {%xchart>=1

/i0 12 def
/i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def
2.5 MM /Times-ISOL1 FS
x i0 get MM 40 MM add y i0 get MM 1 MM sub moveto
lanind cvishow (-) show
colorm cvishow
deintp cvishow
xcolor cvishow
xchart cvishow
pchart cvishow
colsep cvishow (-F) show pmetam cvishow

} if %xchart>=1

/xt 1 def
xchart 1 eq {/xt 1 def} if

xt 0 eq {%xt=0,1 ifelse

/i0 12 def
/i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def
2.5 MM /Times-ISOL1 FS
x i0 get MM 110 MM add y i0 get MM 1 MM sub moveto
(http://130.149.60.45/~farbmetrik/AEP6/AEP6) show
colorm cvishow deintp cvishow
colorm 0 eq {(N) show} {(F) show} ifelse (P.PDF  & ) show
(http://130.149.60.45/~farbmetrik/AEP6/AEP6) show
colorm cvishow deintp cvishow
colorm 0 eq {(N) show} {(F) show} ifelse (P.TXT  & ) show
(http://130.149.60.45/~farbmetrik/AEP6/AEP6.HTM) show

} %xt=0

{ %xt=1
/xlu 017 MM def /ylu 017 MM def
/xro 279 MM def /yro 193 MM def
/xlo 017 MM def /ylo 193 MM def
/xru 279 MM def /yru 017 MM def

/xmo xlo xro xlo sub 0.5 mul add def
/ymo yro 1 MM sub def
xmo 1 MM sub ymo moveto 2 MM 0 rlineto stroke
xmo ymo 1 MM sub moveto 0 1 MM rlineto stroke

xlu 8 MM sub ylu moveto  16 MM 0 rlineto stroke
xlu ylu 8 MM sub moveto 0  16 MM rlineto stroke
xro 8 MM add yro moveto -16 MM 0 rlineto stroke
xro yro 8 MM add moveto 0 -16 MM rlineto stroke

xru 8 MM sub yru moveto  16 MM 0 rlineto stroke
xru yru 8 MM sub moveto 0  16 MM rlineto stroke
xlo 8 MM add ylo moveto -16 MM 0 rlineto stroke
xlo ylo 8 MM add moveto 0 -16 MM rlineto stroke

1 2 7 {/i exch def %Zentrierkreise
xlu ylu i MM 0 360 arc stroke
xro yro i MM 0 360 arc stroke
xru yru i MM 0 360 arc stroke
xlo ylo i MM 0 360 arc stroke
      } for %i

12 4 16 {/i exch def /i0 i def %i=0,16
%0 4 16 {/i exch def /i0 i def %i=0,16
        /i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def

i 16 eq {0.30 MM setlinewidth} {0.15 MM setlinewidth} ifelse

0 setgray
x i0 get MM y i0 get MM moveto x i1 get MM y i1 get MM lineto
x i2 get MM y i2 get MM lineto x i3 get MM y i3 get MM lineto
x i0 get MM y i0 get MM lineto stroke

i 16 eq {6 /Times-ISOL1 FS
         /x00 67 def /xdif 32 def /y0o 202.3 def /y0u 6.3 def
         /x0l 6.1 def /x0r 288 def /y00 22 def /ydif 32 def
         x00 xdif 0 mul add MM y0o MM moveto (V) show
         x00 xdif 0 mul add MM y0u MM moveto (C) show
         x00 xdif 1 mul add MM y0o MM moveto (L) show
         x00 xdif 1 mul add MM y0u MM moveto (M) show
         x00 xdif 2 mul add MM y0o MM moveto (O) show
         x00 xdif 2 mul add MM y0u MM moveto (Y) show
         x00 xdif 3 mul add MM y0o MM moveto (Y) show
         x00 xdif 3 mul add MM y0u MM moveto (O) show
         x00 xdif 4 mul add MM y0o MM moveto (M) show
         x00 xdif 4 mul add MM y0u MM moveto (L) show
         x00 xdif 5 mul add MM y0o MM moveto (C) show
         x00 xdif 5 mul add MM y0u MM moveto (V) show

         x0l MM y00 ydif 0 mul add MM moveto (V) show
         x0r MM y00 ydif 0 mul add MM moveto (C) show
         x0l MM y00 ydif 1 mul add MM moveto (L) show
         x0r MM y00 ydif 1 mul add MM moveto (M) show
         x0l MM y00 ydif 2 mul add MM moveto (O) show
         x0r MM y00 ydif 2 mul add MM moveto (Y) show
         x0l MM y00 ydif 3 mul add MM moveto (Y) show
         x0r MM y00 ydif 3 mul add MM moveto (O) show
         x0l MM y00 ydif 4 mul add MM moveto (M) show
         x0r MM y00 ydif 4 mul add MM moveto (L) show
         x0l MM y00 ydif 5 mul add MM moveto (C) show
         x0r MM y00 ydif 5 mul add MM moveto (V) show
        } if

       } for %i=0,16

0 1 10 {/j0 exch def /j1 j0 1 add def %j0

         j0 0 eq {tzccmy0* setcmykcolor} if
         j0 1 eq {0 setgray} if
         j0 2 eq {tzmcmy0* setcmykcolor} if
         j0 3 eq {0 setgray} if
         j0 4 eq {tzycmy0* setcmykcolor} if
         j0 5 eq {0 setgray} if
         j0 6 eq {tzocmy0* setcmykcolor} if
         j0 7 eq {0 setgray} if
         j0 8 eq {tzlcmy0* setcmykcolor} if
         j0 9 eq {0 setgray} if
         j0 10 eq {tzvcmy0* setcmykcolor} if

12 4 16 {/i exch def /i0 i def %i=0,16
%0 4 16 {/i exch def /i0 i def %i=0,16
        /i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def

i 16 eq {0.30 MM setlinewidth} {0.15 MM setlinewidth} ifelse

x i0 get d i0 get add 16 j0 mul add MM y i0 get MM moveto
x i0 get d i0 get add 16 j1 mul add MM y i0 get MM lineto stroke

x i1 get MM y i1 get d i1 get add 16 j0 mul add MM moveto
x i1 get MM y i1 get d i1 get add 16 j1 mul add MM lineto stroke

x i2 get d i2 get add 16 j0 mul sub MM y i2 get MM moveto
x i2 get d i2 get add 16 j1 mul sub MM y i2 get MM lineto stroke

x i3 get MM y i3 get d i3 get add 16 j0 mul sub MM moveto
x i3 get MM y i3 get d i3 get add 16 j1 mul sub MM lineto stroke

       } for %i=0,16

       } for %j0

0.15 MM setlinewidth
/s 7 MM def /s1 8 MM def /s5 36 MM def
16 1 20 {/j exch def /j0 j 16 sub def %j=16,20
         /ix0 xlu  8 MM add j0 7 MM mul add def /iy0 ylu 8 MM sub def

0 1 3 {/ij exch def %ij=0,3

 ij 0 eq {/ix0 xlu  8 MM add j0 7 MM mul add def /iy0 ylu 8 MM sub def} if
 ij 1 eq {/ix0 xru 43 MM sub j0 7 MM mul add def /iy0 yru 8 MM sub def} if
 ij 2 eq {/ix0 xlo  8 MM add j0 7 MM mul add def /iy0 ylo 1 MM add def} if
 ij 3 eq {/ix0 xro 43 MM sub j0 7 MM mul add def /iy0 yro 1 MM add def} if

i*ptrsc 0 eq i*ptrsc 2 eq or {%i*ptrsc=0,2 cmy0* setcmykcolor
              j 16 eq {tzan j get dup dup 0 setcmykcolor
                       ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if
              tzan j get dup dup 0 setcmykcolor
              ix0 iy0 s s  rec fill
             } if %i*ptrsc=0,2

i*ptrsc 1 eq i*ptrsc 3 eq or {%i*ptrsc=1,3 www* setrgbcolor
              j 16 eq {1 tzan j get 1 sub dup dup setrgbcolor %N
                       ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if
              1 tzan j get sub dup dup setrgbcolor %N
              ix0 iy0 s s  rec fill
             } if %i*ptrsc=1,3

i*ptrsc 4 eq i*ptrsc 5 eq or {%i*ptrsc=4,5
  [/CIEBasedABC <<    %Farbraum und Grenzen fuer D65
  /RangeABC [0 100 -128 127 -128 127]
  /DecodeABC [{16 add 116 div} bind {500 div} bind {200 div} bind]
  /MatrixABC [1 1 1 1 0 0 0 0 -1]
  /DecodeLMN
    [{dup 6 29 div ge {dup dup mul mul}
     {4 29 div sub 108 841 div mul} ifelse 0.9505 mul} bind
     {dup 6 29 div ge {dup dup mul mul}
     {4 29 div sub 108 841 div mul} ifelse} bind
     {dup 6 29 div ge {dup dup mul mul}
     {4 29 div sub 108 841 div mul} ifelse 1.0890 mul} bind]
    /WhitePoint  [0.9505 1 1.089]                %CIEXYZ fuer D65
 >>] setcolorspace

 j 16 eq {tznLAB* 0 get tzwLAB* 0 get tznLAB* 0 get sub 0.25 j0 mul mul add
          tznLAB* 1 get tzwLAB* 1 get tznLAB* 1 get sub 0.25 j0 mul mul add
          tznLAB* 2 get tzwLAB* 2 get tznLAB* 2 get sub 0.25 j0 mul mul add
          setcolor %N
          ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if
          tznLAB* 0 get tzwLAB* 0 get tznLAB* 0 get sub 0.25 j0 mul mul add
          tznLAB* 1 get tzwLAB* 1 get tznLAB* 1 get sub 0.25 j0 mul mul add
          tznLAB* 2 get tzwLAB* 2 get tznLAB* 2 get sub 0.25 j0 mul mul add
          setcolor %N
          ix0 iy0 s s  rec fill
             } if %i*ptrsc=4,5

i*ptrsc 6 eq {%i*ptrsc=6 000n* setcmykcolor
              j 16 eq {0 0 0 tzan j get setcmykcolor
                       ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if
              0 0 0 tzan j get setcmykcolor
              ix0 iy0 s s  rec fill
             } if %i*ptrsc=6

i*ptrsc 7 eq {%i*ptrsc=7 w* setgray
              j 16 eq {1 tzan j get sub setgray
                       ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if
              1 tzan j get sub setgray
              ix0 iy0 s s  rec fill
             } if %i*ptrsc=7

      } for %ij=0,3

        } for %j=16,20

0 setgray
018 MM 008.2 MM moveto 6 /Times-Roman FS (-8) show
018 MM 006.2 MM moveto 6 /Times-Roman FS (-6) show

276 MM 008.2 MM moveto 6 /Times-Roman FS (-8) show
276 MM 006.2 MM moveto 6 /Times-Roman FS (-6) show

018 MM 202.2 MM moveto 6 /Times-Roman FS (-8) show
018 MM 204.2 MM moveto 6 /Times-Roman FS (-6) show

276 MM 202.2 MM moveto 6 /Times-Roman FS (-8) show
276 MM 204.2 MM moveto 6 /Times-Roman FS (-6) show

/10TIN {10 /Times-ISOL1 FS} def
/10TRN {10 /Times-Roman FS} def
/12TIN {12 /Times-ISOL1 FS} def
/12TRN {12 /Times-Roman FS} def

/10TII {10 /TimesI-ISOL1 FS} def
/10TRI {10 /Times-Italic FS} def
/12TII {12 /TimesI-ISOL1 FS} def
/12TRI {12 /Times-Italic FS} def

/10TIB {10 /TimesB-ISOL1 FS} def
/10TRB {10 /Times-Bold FS} def
/12TIB {12 /TimesB-ISOL1 FS} def
/12TRB {12 /Times-Bold FS} def

/10TIBI {10 /TimesBI-ISOL1 FS} def
/10TRBI {10 /Times-BoldItalic FS} def
/12TIBI {12 /TimesBI-ISOL1 FS} def
/12TRBI {12 /Times-BoldItalic FS} def

%special
/10TIN10  {10TIN 0 -3 rmoveto 
           xcolor 1 eq {(10) show} if 0 3 rmoveto} def
/10TINi10 {10TIN 0 -3 rmoveto (i) show
           xcolor 1 eq {(,10) show} if 0 3 rmoveto} def

/TELi0 8 array def
/TELi1 8 array def
/TELi  8 array def
/TELi0 [(P60) (P55) (P50) (P45) (P40) (P35) (P30) (P25)] def %7 illumin.
/TELi1 [(D65) (D50) (P40) (A00) (E00) (C00) (P00) (Q00)] def %7 illumin.

/xchart8 1 def %xchart8=0: Pxx, xchart8=1: Dxx
0 1 7 {/i exch def %i=0,7
xchart8 0 eq {%xchart8=0
              TELi i TELi0 i get put
             }%xchart8=0
             {%xchart8=1
              TELi i TELi1 i get put
             } ifelse %xchart8=1
       } for %i=0,7

0 setgray
12TIN
61 MM 13.5 MM  moveto
(TUB\255Pr\374fvorlage AEP6; ) showde                           %0AEP6X-Y 0000#
(TUB\255test chart AEP6; ) showen                               %1AEP6X-Y 0000#
(gr\341fico TUB\255AEP6; ) showes                               %2AEP6X-Y 0000#
(TUB\255test graphique AEP6; ) showfr                           %3AEP6X-Y 0000#
(grafico TUB\255AEP6; ) showit                                  %4AEP6X-Y 0000#
(TUB\255test chart AEP6; ) showjp                               %5AEP6X-Y 0000#

/xchart41 0 def
xchart41 0 eq {%xchart41=0 %F0,1
12TII
(Ostwald) show
12TIN
(\255Optimal\255 und Elementarfarben (e)) showde
( optimal and elementary colours (e)) showen
             } if %xchart41=0

/xchart42 0 def %0: YN=0, 1: YN=2,5

61 MM 09.5 MM  moveto
xchart42 0 eq {%xchart42=0
12TIN
(CIE\255Daten vom Bunttonkreis als Tabelle, ) showde
(CIE data and of the hue circle as table ) showen
12TII
(Y) show 10TIN 0 -2 rmoveto (W) show 0 2 rmoveto 
12TIN
(=100 & 88,6, ) show
12TII
(Y) show 10TIN 0 -2 rmoveto (N) show 0 2 rmoveto
12TIN
(=0 & 2,5) show
} if %xchart42=0

xchart42 1 eq {%xchart42=1
} if %xchart42=1

xchart42 2 eq {%xchart42=2
} if %xchart42=2

xchart42 3 eq {%xchart42=3
} if %xchart42=3

xchart 1 ge {%xchart>=1
12TIN
(, 3D=) show colorm cvishow
(, de=) show deintp cvishow

12TII
xchart5f 0 eq {(, sRGB) show} if
xchart5f 1 eq {(, cmyk) show} if
xchart5f 2 eq {(, cmy0)  show} if
xchart5f 3 eq {(, cmyk) show} if
colorm 1 eq {(*) show} if
} if %xchart>=1

12TIN
184 MM 13.5 MM moveto
(Eingabe: ) showde                                              %0AEP6X-Y 0500#
(input: ) showen                                                %1AEP6X-Y 0500#
(entrada: ) showes                                              %2AEP6X-Y 0500#
(entr\351e: ) showfr                                            %3AEP6X-Y 0500#
(immettere: ) showit                                            %4AEP6X-Y 0500#
(input: ) showjp                                                %5AEP6X-Y 0500#
12TII
(rgb/cmy0) show

xchart41 0 eq {( (No 1MR)) show}
              {(->rgb ) show
               ((1MR)) show} ifelse

%xchart xchart3 lt {(w/rgb/cmyk) show
%                  } if
%xchart xchart3 ge {%xchart>=xchart3
%                   (rgb) show
%                  } if %xchart>=xchart3

%10 /Times-ISOL1 FS
%0 -2 rmoveto Txx show 0 2 rmoveto
%12TIN

12TIN
184 MM 9.5 MM moveto
(Ausgabe: ) showde                                              %0AEP6X-Y 0600#
(output: ) showen                                               %1AEP6X-Y 0600#
(salida: ) showes                                               %2AEP6X-Y 0600#
(sortie: ) showfr                                               %3AEP6X-Y 0600#
(uscita: ) showit                                               %4AEP6X-Y 0600#
(output: ) showjp                                               %5AEP6X-Y 0600#

%colorm=0,1!
12TIN
xchart 0 eq {%xchart=0,#0
xchart41 0 eq {12TIN
               (no change) showen
               (keine \304nderung) showde}
              {12TIN
               (change of gamma ) showen
               (\304nderung Gamma ) showde
               12TII
               (g) show
               10TIN
               0 -2 rmoveto (P) show 0 2 rmoveto} ifelse
%12TIN
%(rechts) showde                                                 %0AEP6X-Y 0700#
%(right) showea                                                  %1AEP6X-Y 0700#
%(ning\372n cambio) showes                                       %2AEP6X-Y 0700#
%(aucun changement) showfr                                       %3AEP6X-Y 0700#
%(nessun cambiamento) showit                                     %4AEP6X-Y 0700#
%(no change compared) showjp                                     %5AEP6X-Y 0700#
            }%xchart=0

            {%xchart#0
             12TIN
             colorm 0 eq {%colorm=0
(Transfer nach ) showde                                         %0AEP6X-Y 0800#
(transfer to ) showen                                           %1AEP6X-Y 0800#
(transfiera a ) showes                                          %2AEP6X-Y 0800#
(transf\351rer \340 ) showfr                                    %3AEP6X-Y 0800#
(trasferire a ) showit                                          %4AEP6X-Y 0800#
(transfer to ) showjp                                           %5AEP6X-Y 0800#
                         }%colorm=0
                         {%colorm=1
(3D\255Linearisierung ) showde                                  %0AEP6X-Y 0900#
(3D\255linearization to ) showen                                %1AEP6X-Y 0900#
(3D\255linealizaci\363n a ) showes                              %2AEP6X-Y 0900#
(linearisation 3D selon ) showfr                                %3AEP6X-Y 0900#
(3D\255linearizzazione a ) showit                               %4AEP6X-Y 0900#
(3D\255linearization to ) showjp                                %5AEP6X-Y 0900#
                         } ifelse %colorm=1
12TII
xchart5f 0 eq {(rgb)  show} if
xchart5f 1 eq {(cmyk) show} if
xchart5f 2 eq {(cmy0) show} if
xchart5f 3 eq {(cmyk) show} if
colorm 1 eq {(*) show} if
10 /Times-ISOL1 FS
0 -2 rmoveto Txx show 0 2 rmoveto
12TIN
} ifelse %xchart=0,#0

%0 setgray %end white and unvisible

12TIN

 62 MM 198.5 MM  moveto
12TRN (http://farbe.li.tu-berlin.de/AEP6/AEP6L) show 12TIN
(0) show %
LSC$ show LEX$ show
xchart41 4 le {(; only vector graphic VG) showen 
               (; nur Vektorgrafik VG) showde} if
%              {(; VG with ISO\255PG image) showen
%               (; VG mit ISO\255PG\255Bild) showde} ifelse

%1 setgray %start white and unvisible
(; ) show
xchart 0 eq {
(Start\255Ausgabe) showde                                       %0AEP6X-Y 1000#
(start output) showen                                           %1AEP6X-Y 1000#
(comience salida) showes                                        %2AEP6X-Y 1000#
(sortie de production) showfr                                   %3AEP6X-Y 1000#
(cominciare l'uscita) showit                                    %4AEP6X-Y 1000#
(start output) showjp                                           %5AEP6X-Y 1000#
           } if
LSC$ (C) eq {
(Start\255Ausgabe) showde                                       %0AEP6X-Y 1100#
(start output) showen                                           %1AEP6X-Y 1100#
(comience salida) showes                                        %2AEP6X-Y 1100#
(sortie de production) showfr                                   %3AEP6X-Y 1100#
(cominciare l'uscita) showit                                    %4AEP6X-Y 1100#
(start output) showjp                                           %5AEP6X-Y 1100#
           } if
xchart 1 ge {%xchart>=1
colorm 0 eq {%colorm=0,1
(Transfer Ausgabe) showde                                       %0AEP6X-Y 1200#
(transfer output) showen                                        %1AEP6X-Y 1200#
(salida de transferencia) showes                                %2AEP6X-Y 1200#
(sortie de transfert) showfr                                    %3AEP6X-Y 1200#
(uscita di trasferimento) showit                                %4AEP6X-Y 1200#
(transfer output) showjp                                        %5AEP6X-Y 1200#
            }%colorm=0
            {%colorm=1
(3D\255Linearisierung) showde                                   %0AEP6X-Y 1300#
(3D\255linearization) showen                                    %1AEP6X-Y 1300#
(3D\255linealizaci\363n) showes                                 %2AEP6X-Y 1300#
(linearisation 3D) showfr                                       %3AEP6X-Y 1300#
(3D\255linearizzzazione) showit                                 %4AEP6X-Y 1300#
(3D\255linearization) showjp                                    %5AEP6X-Y 1300#
            } ifelse %colorm=0,1
            } if %xchart>=1

 62 MM 194 MM  moveto
LSC$ (N) eq LSC$ (C) eq or {
(N: Keine 3D\255Linearisierung (OL) ) showde                    %0AEP6X-Y 1400#
(N: no 3D\255linearization (OL) ) showen                        %1AEP6X-Y 1400#
(N: ninguna 3D\255linealizaci\363n (OL) ) showes                %2AEP6X-Y 1400#
(N: aucun linearisation 3D (OL) ) showfr                        %3AEP6X-Y 1400#
(N: nessun 3D\255linearizzazione (OL) ) showit                  %4AEP6X-Y 1400#
(N: no 3D\255linearization (OL) ) showjp                        %5AEP6X-Y 1400#

(in Datei (F) oder PS\255Startup (S)) showde                    %0AEP6X-Y 1500#
(in file (F) or PS\255startup (S)) showen                       %1AEP6X-Y 1500#
(en archivo (F) o PS\255startup (S)) showes                     %2AEP6X-Y 1500#
(dans fichier (F) ou PS\255startup (S)) showfr                  %3AEP6X-Y 1500#
(nel file (F) o PS\255startup (S)) showit                       %4AEP6X-Y 1500#
(in file (F) or PS\255startup (S)) showjp                       %5AEP6X-Y 1500#
           }
           {LSC$ show (: ) show
(3D\255Linearisierung) showde                                   %0AEP6X-Y 1600#
(3D\255linearization) showen                                    %1AEP6X-Y 1600#
(3D\255linealizaci\363n) showes                                 %2AEP6X-Y 1600#
(linearisation 3D) showfr                                       %3AEP6X-Y 1600#
(3D\255linearizzzazione) showit                                 %4AEP6X-Y 1600#
(3D\255linearization) showjp                                    %5AEP6X-Y 1600#
( AEP6/AEP6L) show
LSS$ show LSX$ show (0) show %
LSC$ show LEY$ show
          } ifelse
LSC$ (F) eq {
( in Datei (F)) showde                                          %0AEP6X-Y 1700#
( in file (F)) showen                                           %1AEP6X-Y 1700#
( en archivo (F)) showes                                        %2AEP6X-Y 1700#
( dans fichier (F)) showfr                                      %3AEP6X-Y 1700#
( nel file (F)) showit                                          %4AEP6X-Y 1700#
( in file (F)) showjp                                           %5AEP6X-Y 1700#
           } if
LSC$ (S) eq {
( im Distiller Startup (S) Directory) showde                    %0AEP6X-Y 1800#
( in Distiller Startup (S) Directory) showen                    %1AEP6X-Y 1800#
( en el Distiller Startup (S) Directory) showes                 %2AEP6X-Y 1800#
( dans le Distiller Startup (S) Directory) showfr               %3AEP6X-Y 1800#
( nel Distiller Startup (S) Directory) showit                   %4AEP6X-Y 1800#
( in Distiller Startup (S) Directory) showjp                    %5AEP6X-Y 1800#
           } if
LSC$ (D) eq {
( in PS\255Device (D)) showde                                   %0AEP6X-Y 1900#
( in PS\255device (D)) showen                                   %1AEP6X-Y 1900#
( en el PS\255device (D)) showes                                %2AEP6X-Y 1900#
( dans l'appareil PS (D)) showfr                                %3AEP6X-Y 1900#
( nel PS\255dispositivo (D)) showit                             %4AEP6X-Y 1900#
( in PS\255Device (D)) showjp                                   %5AEP6X-Y 1900#
           } if
LSC$ (T) eq {
( im Distiller Startup (S) Directory) showde                    %0AEP6X-Y 2000#
( in Distiller Startup (S) Directory) showen                    %1AEP6X-Y 2000#
( en el Distiller Startup (S) Directory) showes                 %2AEP6X-Y 2000#
( dans le Distiller Startup (S) Directory) showfr               %3AEP6X-Y 2000#
( nel Distiller Startup (S) Directory) showit                   %4AEP6X-Y 2000#
( in Distiller Startup (S) Directory) showjp                    %5AEP6X-Y 2000#
           } if
LSC$ (E) eq {
( in PS\255Device (D)) showde                                   %0AEP6X-Y 2100#
( in PS\255device (D)) showen                                   %1AEP6X-Y 2100#
( en el PS\255device (D)) showes                                %2AEP6X-Y 2100#
( dans appareil PS (D)) showfr                                  %3AEP6X-Y 2100#
( nel PS\255dispositivo (D)) showit                             %4AEP6X-Y 2100#
( in PS\255Device (D)) showjp                                   %5AEP6X-Y 2100#
           } if
%0 setgray %end white and unvisible

(, Seite ) showde                                               %0AEP6X-Y 2200#
(, page ) showen                                                %1AEP6X-Y 2200#
(, p\341gina ) showes                                           %2AEP6X-Y 2200#
(, page ) showfr                                                %3AEP6X-Y 2200#
(, pagina ) showit                                              %4AEP6X-Y 2200#
(, page ) showjp                                                %5AEP6X-Y 2200#
xchart 1 add cvishow (/) show
xchartm cvishow

 16 MM 185 MM moveto
-90 rotate
(Siehe \344hnliche Dateien: ) showde                            %0AEP6X-Y 2300#
(see similar files: ) showen                                    %1AEP6X-Y 2300#
(vea archivos semejantes: ) showes                              %2AEP6X-Y 2300#
(voir des fichiers similaires: ) showfr                         %3AEP6X-Y 2300#
(vedere dei file simili: ) showit                               %4AEP6X-Y 2300#
(see similar files: ) showjp                                    %5AEP6X-Y 2300#
12TRN (http://farbe.li.tu-berlin.de/AEP6/AEP6.HTM) show 12TIN
%(0) show %
%LSC$ show LEX$ show
90 rotate

 12 MM 185 MM moveto
-90 rotate
(Technische Information: ) showde                               %0AEP6X-Y 2400#
(technical information: ) showen                                %1AEP6X-Y 2400#
(informaci\363n t\351cnica: ) showes                            %2AEP6X-Y 2400#
(informations techniques: ) showfr                              %3AEP6X-Y 2400#
(informazioni tecniche: ) showit                                %4AEP6X-Y 2400#
(technical information: ) showjp                                %5AEP6X-Y 2400#
12TRN (http://farbe.li.tu-berlin.de) show 12TIN
( oder ) showde                                                 %0AEP6X-Y 2500#
( or ) showen                                                   %1AEP6X-Y 2500#
( o ) showes                                                    %2AEP6X-Y 2500#
( ou ) showfr                                                   %3AEP6X-Y 2500#
( o ) showit                                                    %4AEP6X-Y 2500#
( or ) showjp                                                   %5AEP6X-Y 2500#
12TRN (http://130.149.60.45/~farbmetrik) show 12TIN
 90 rotate

281 MM 185 MM moveto
-90 rotate
(TUB\255Registrierung: 20200901\255AEP6/AEP6L) showde           %0AEP6X-Y 2600#
(TUB registration: 20200901\255AEP6/AEP6L) showen               %1AEP6X-Y 2600#
(TUB matr\355cula: 20200901\255AEP6/AEP6L) showes               %2AEP6X-Y 2600#
(TUB enregistrement: 20200901\255AEP6/AEP6L) showfr             %3AEP6X-Y 2600#
(TUB iscrizione: 20200901\255AEP6/AEP6L) showit                 %4AEP6X-Y 2600#
(TUB registration: 20200901\255AEP6/AEP6L) showjp               %5AEP6X-Y 2600#
(0) show %
LSC$ show LEX$ show
90 rotate

281 MM 74 MM moveto
-90 rotate
(TUB\255Material: Code=rha4ta) showde                           %0AEP6X-Y 2700#
(TUB material: code=rha4ta) showen                              %1AEP6X-Y 2700#
(TUB material: code=rha4ta) showes                              %2AEP6X-Y 2700#
(TUB mat\351riel: code=rha4ta) showfr                           %3AEP6X-Y 2700#
(TUB materiale: code=rha4ta) showit                             %4AEP6X-Y 2700#
(TUB material: code=rha4ta) showjp                              %5AEP6X-Y 2700#
90 rotate

277 MM 185 MM moveto
-90 rotate
/cvishow {cvi 6 string cvs show} def
/cvsshow1 {10 mul cvi 0.1 mul 7 string cvs show} def

( Anwendung f\374r Beurteilung und Messung ) showde             %0AEP6X-Y 2800#
( application for evaluation and measurement ) showen           %1AEP6X-Y 2800#
( aplicaci\363n para la medida ) showes                         %2AEP6X-Y 2800#
( application pour la mesure ) showfr                           %3AEP6X-Y 2800#
( la domanda per la misura ) showit                             %4AEP6X-Y 2800#
( application for measurement ) showjp                          %5AEP6X-Y 2800#

xchart5f 0 eq {%xchart5f=0
(von Display\255 oder Druck\255Ausgabe) showde                  %0AEP6X-Y 2900#
(of display or print output) showen                             %1AEP6X-Y 2900#
(de display output) showes                                      %2AEP6X-Y 2900#
(de sortie sur \350cran) showfr                                 %3AEP6X-Y 2900#
(di stampa di display) showit                                   %4AEP6X-Y 2900#
(of display output) showjp                                      %5AEP6X-Y 2900#
} if %xchart5f=0

xchart5f 1 eq xchart5f 2 eq or {%xchart5f=1,2
(von Offsetdruck\255Ausgabe) showde                             %0AEP6X-Y 3000#
(of offset print output) showen                                 %1AEP6X-Y 3000#
(salida en la impressi\363n offset) showes                      %2AEP6X-Y 3000#
(des sorties sur offset) showfr                                 %3AEP6X-Y 3000#
(uscita nella stampa di offset) showit                          %4AEP6X-Y 3000#
(of offset print output) showjp                                 %5AEP6X-Y 3000#
} if %xchart5f=1,2

xchart5f 3 eq {%xchart5f=3
(von Laserdrucker\255Ausgabe) showde                            %0AEP6X-Y 3100#
(of laser printer output) showen                                %1AEP6X-Y 3100#
(salida de impresora l\341ser) showes                           %2AEP6X-Y 3100#
(des sorties sur imprimante laser) showfr                       %3AEP6X-Y 3100#
(di uscita della stampante laser) showit                        %4AEP6X-Y 3100#
(of laser printer output) showjp                                %5AEP6X-Y 3100#
} if %xchart5f=3

xchart 1 ge {%xchart>=1
xchart5f 0 eq {%xchart5f=0
(, keine Separation) showde                                     %0AEP6X-Y 3200#
(, no separation) showen                                        %1AEP6X-Y 3200#
(, ninguna separaci\363n) showes                                %2AEP6X-Y 3200#
(, aucune s\351paration) showfr                                 %3AEP6X-Y 3200#
(, nessuna separazione) showit                                  %4AEP6X-Y 3200#
(, no separation) showjp                                        %5AEP6X-Y 3200#
} if %chart5f=0

xchart5f 1 ge {%xchart5f>=1
(, Separation) showde                                           %0AEP6X-Y 3300#
(, separation) showen                                           %1AEP6X-Y 3300#
(, separaci\363n) showes                                        %2AEP6X-Y 3300#
(, s\351paration) showfr                                        %3AEP6X-Y 3300#
(, separazione) showit                                          %4AEP6X-Y 3300#
(, separation) showjp                                           %5AEP6X-Y 3300#
xchart5f 1 eq xchart5f 3 eq or {(cmyn6) show} if
xchart5f 2 eq                  {(cmy0)  show} if
colorm 1 eq {(*) show} if
colsep 0 eq {( (CMYK))}{( (CMY0))} ifelse show
} if %xchart5f>=1

            } if %xchart>=1

IMES 1 eq LSC$ (N) ne and { %IMES=1
             (, Yr=) show Yre cvsshow1 (, XYZ) show
          } if %IMES=1
90 rotate

/i0 8 def
/i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def
0.30 MM setlinewidth
0 setgray
x i0 get MM y i0 get MM moveto x i1 get MM y i1 get MM lineto
x i2 get MM y i2 get MM lineto x i3 get MM y i3 get MM lineto
x i0 get MM y i0 get MM lineto stroke

%/xlu1 013 MM def /ylu1 010 MM def
%/xro1 283 MM def /yro1 200 MM def
%/xlo1 013 MM def /ylo1 200 MM def
%/xru1 283 MM def /yru1 010 MM def

%xlu1 4 MM sub ylu1 moveto  8 MM 0 rlineto stroke
%xlu1 ylu1 4 MM sub moveto 0  8 MM rlineto stroke
%xro1 4 MM add yro1 moveto -8 MM 0 rlineto stroke
%xro1 yro1 4 MM add moveto 0 -8 MM rlineto stroke

%xru1 4 MM sub yru1 moveto  8 MM 0 rlineto stroke
%xru1 yru1 4 MM sub moveto 0  8 MM rlineto stroke
%xlo1 4 MM add ylo1 moveto -8 MM 0 rlineto stroke
%xlo1 ylo1 4 MM add moveto 0 -8 MM rlineto stroke
} ifelse %xt=1

grestore
gsave

%**********************************************************

%%Trailer

%%EndDocument
EndEPSF grestore gsave

showpage
grestore

%} for %colsepf=0,1

%} for %pchartf=0,0

%} for %xchartf=0,0

%} for %xcolorf=0,1

%} for %deintpf=0,1

%} for %colormf=0,1

%} for %lanindf=0,0

%%Trailer