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[/Title (PostScript pictures: farbe.li.tu-berlin.de/eed9/eed9.HTM)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
 /Subject (goto: http://farbe.li.tu-berlin.de or http://color.li.tu-berlin.de)
 /Keywords (image reproduction, colour devices)
 /Creator (klaus.richter@mac.com)
 /CreationDate (D:2023080112000)
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[ /View [ /Fit ]
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[/Title (PostScript pictures: farbe.li.tu-berlin.de/eed9/eed9.htm)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
 /Subject (goto: http://farbe.li.tu-berlin.de or http://color.li.tu-berlin.de)
 /Keywords (image reproduction, colour devices)
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/Vpr 10 array def %Dissertation, page 100 and 106  
/Ypr 10 array def
/cYr 10 array def          
/q2M 10 array def
/p2M 10 array def
/prM 10 array def

%     0      1     2     3     4     5     6     7     8    9
/Vpr [ 1.00  2.00  3.00  4.00  5.00  6.00  7.00  8.00  9.00 5.57] def
/Ypr [ 1.21  3.13  6.56 12.00 19.77 30.05 43.06 59.10 78.66 25.30] def
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/q2M [-2.13 -1.90 -1.78 -1.69 -1.64 -1.61 -1.59 -1.57 -1.55 -1.623] def
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/prM [ 2.29  1.46  1.24  0.98  0.78  0.69  0.60  0.54  0.50 0.730] def

/Aij 10 array def
/Bij 10 array def

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/xyan1 80 array def
/xyan2 80 array def
/xyan5 80 array def
/xyan8 80 array def
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%  05
%  1 40  1  1 VALUE1
/xyan1 [                                                             
 0.2677 0.2280 0.2547 0.2310 0.2427 0.2368 0.2360 0.2420 0.2309 0.2491 0.2291 0.2579 0.2291 0.2677 0.2322 0.2781
 0.2362 0.2882 0.2430 0.3023 0.2500 0.3141 0.2600 0.3289 0.2689 0.3407 0.2758 0.3484 0.2833 0.3564 0.2910 0.3634
 0.3006 0.3720 0.3154 0.3840 0.3359 0.3982 0.3540 0.4088 0.3802 0.4212 0.4042 0.4287 0.4230 0.4265 0.4362 0.4177
 0.4446 0.3982 0.4430 0.3775 0.4377 0.3580 0.4258 0.3344 0.4128 0.3154 0.4020 0.3034 0.3908 0.2929 0.3768 0.2816
 0.3629 0.2710 0.3498 0.2617 0.3378 0.2542 0.3240 0.2459 0.3132 0.2404 0.3030 0.2361 0.2936 0.2330 0.2808 0.2296
       ] def
       
%  1 40 02  2 VALUE2
/xyan2 [                                                              
 0.2803 0.2567 0.2712 0.2582 0.2638 0.2624 0.2592 0.2675 0.2558 0.2725 0.2545 0.2799 0.2559 0.2874 0.2578 0.2940
 0.2606 0.3010 0.2651 0.3098 0.2697 0.3175 0.2765 0.3271 0.2820 0.3341 0.2869 0.3400 0.2918 0.3450 0.2978 0.3507
 0.3069 0.3580 0.3165 0.3650 0.3309 0.3743 0.3421 0.3803 0.3556 0.3848 0.3660 0.3858 0.3757 0.3839 0.3825 0.3785
 0.3872 0.3688 0.3889 0.3590 0.3880 0.3476 0.3852 0.3365 0.3811 0.3274 0.3751 0.3181 0.3692 0.3111 0.3614 0.3033
 0.3532 0.2957 0.3459 0.2892 0.3383 0.2829 0.3279 0.2754 0.3161 0.2691 0.3071 0.2647 0.2984 0.2612 0.2892 0.2583
       ] def
       
%  1 40 05  3 VALUE5
/xyan5 [                                                              
 0.2959 0.2905 0.2918 0.2908 0.2882 0.2923 0.2847 0.2942 0.2821 0.2966 0.2803 0.3000 0.2794 0.3032 0.2791 0.3071
 0.2796 0.3111 0.2812 0.3161 0.2841 0.3210 0.2880 0.3270 0.2910 0.3310 0.2945 0.3355 0.2978 0.3392 0.3030 0.3445
 0.3110 0.3508 0.3188 0.3560 0.3289 0.3612 0.3352 0.3636 0.3422 0.3648 0.3470 0.3640 0.3500 0.3620 0.3534 0.3570
 0.3546 0.3514 0.3540 0.3445 0.3530 0.3395 0.3506 0.3337 0.3465 0.3278 0.3425 0.3229 0.3392 0.3192 0.3360 0.3158
 0.3332 0.3131 0.3296 0.3098 0.3256 0.3065 0.3199 0.3019 0.3148 0.2986 0.3103 0.2959 0.3045 0.2928 0.3000 0.2912
       ] def
       
%  1 40 08  4 VALUE8
/xyan8 [                                                              
 0.3027 0.3035 0.3003 0.3034 0.2974 0.3039 0.2957 0.3047 0.2935 0.3062 0.2922 0.3077 0.2908 0.3096 0.2897 0.3124
 0.2894 0.3152 0.2900 0.3183 0.2919 0.3228 0.2940 0.3268 0.2957 0.3293 0.2981 0.3326 0.3009 0.3359 0.3053 0.3404
 0.3121 0.3459 0.3194 0.3502 0.3284 0.3542 0.3327 0.3555 0.3359 0.3552 0.3379 0.3540 0.3394 0.3518 0.3406 0.3484
 0.3407 0.3434 0.3395 0.3379 0.3373 0.3330 0.3334 0.3276 0.3301 0.3237 0.3277 0.3211 0.3254 0.3186 0.3236 0.3169
 0.3218 0.3152 0.3200 0.3136 0.3180 0.3120 0.3154 0.3100 0.3131 0.3084 0.3107 0.3070 0.3065 0.3047 0.3048 0.3040
       ] def
       
%  1 40 09  5 VALUE9
/xyan9 [                                                              
 0.3038 0.3054 0.3015 0.3052 0.2991 0.3057 0.2975 0.3063 0.2949 0.3076 0.2937 0.3087 0.2919 0.3102 0.2909 0.3125
 0.2907 0.3159 0.2911 0.3188 0.2930 0.3232 0.2947 0.3267 0.2965 0.3293 0.2987 0.3323 0.3017 0.3357 0.3058 0.3400
 0.3124 0.3454 0.3198 0.3500 0.3284 0.3534 0.3321 0.3539 0.3349 0.3537 0.3365 0.3527 0.3378 0.3504 0.3390 0.3472
 0.3392 0.3430 0.3380 0.3377 0.3353 0.3325 0.3320 0.3273 0.3284 0.3233 0.3263 0.3210 0.3240 0.3188 0.3210 0.3168
 0.3205 0.3155 0.3190 0.3141 0.3172 0.3126 0.3149 0.3108 0.3128 0.3094 0.3107 0.3081 0.3067 0.3060 0.3050 0.3051
       ] def

/XrMCR1 41 array def
/YrMCR1 41 array def
/ZrMCR1 41 array def
/xanCR1 41 array def
/yanCR1 41 array def
/zanCR1 41 array def

/XrMCR5 41 array def
/YrMCR5 41 array def
/ZrMCR5 41 array def
/xanCR5 41 array def
/yanCR5 41 array def
/zanCR5 41 array def

/XrMCR9 41 array def
/YrMCR9 41 array def
/ZrMCR9 41 array def
/xanCR9 41 array def
/yanCR9 41 array def
/zanCR9 41 array def

/XrMCRX 41 array def
/YrMCRX 41 array def
/ZrMCRX 41 array def
/xanCRX 41 array def
/yanCRX 41 array def
/zanCRX 41 array def

0 1 39 {/i exch def %i=0,39
        YrMCR1 i Ypr 0 get put
        xanCR1 i xyan1 i 2 mul       get put
        yanCR1 i xyan1 i 2 mul 1 add get put
        zanCR1 i 1 xanCR1 i get sub yanCR1 i get sub put
        /SUM  Ypr 0 get yanCR1 i get div def
        XrMCR1 i xanCR1 i get SUM mul put
        ZrMCR1 i xanCR1 i get SUM mul put
      } for %i=0,39

0 1 39 {/i exch def %i=0,39
        YrMCR5 i Ypr 4 get put
        xanCR5 i xyan5 i 2 mul       get put
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        zanCR5 i 1 xanCR5 i get sub yanCR5 i get sub put
        /SUM  Ypr 4 get yanCR1 i get div def
        XrMCR5 i xanCR5 i get SUM mul put
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      } for %i=0,39

0 1 39 {/i exch def %i=0,39
        YrMCR9 i Ypr 8 get put
        xanCR9 i xyan9 i 2 mul       get put
        yanCR9 i xyan9 i 2 mul 1 add get put
        zanCR9 i 1 xanCR9 i get sub yanCR9 i get sub put
        /SUM  Ypr 8 get yanCR9 i get div def
        ZrMCR9 i xanCR9 i get SUM mul put
      } for %i=0,39
      
72 90 translate

0.01 MM dup scale

/xchart 0 def

/xchartl 0 def

gsave

200 /Times-ISOL1 FS
0 setgray
25 setlinewidth
/xwidth 5400 def
/ywidth 4000 def

0 0 xwidth ywidth 1.0 1.0 1.0 rgbrecfi %Rechteck Mittelgrau

25 setlinewidth

0 0 xwidth ywidth 0.0 0.0 0.0 rgbrecst %Rahmen Schwarz

100 /Times-ISOL1 FS
100 -090 moveto 
(eed90-1a) show

gsave

/x700 400 def

0100 3850 moveto
TBIL
(Munsell (Renotation)) showen
(Munsell (Renotation)) showde
TBL ( Chroma) showen (\255Buntheit) showde
TBIL ( C) show
TBL ( = 2 and Value) showen ( = 2 und Helligkeit (Value)) showde
TBIL ( V) show
TBL ( = ) show
0 1 0 setrgbcolor
TBL (1) show
0 setgray
(, ) show
1 0 0 setrgbcolor
(5) show
0 setgray
( und ) showde
(, and ) showen
0 0 1 setrgbcolor
(9) show
0 setgray

xchartl 0 eq {%xchartl=0
0100 3670 moveto
TBL (in chromaticity diagram ) showen
    (in Farbartdiagramm ) showde
TBL (\050) show
TBIL (p) show
TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show 
TBL (, ) show
TBIL (q) show
TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show 
TBL (\051) show

1200 3430 moveto
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
             } if %xchartl=0
             
xchartl 1 eq {%xchartl=1
0100 3670 moveto
TBL (in chroma diagram ) showen
    (in Buntheitsdiagramm ) showde
TBL (\050) show
TBIL (p*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBL (, ) show
TBIL (q*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBV (\051) show

0300 3430 moveto
TBIL (q*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 0 50 rmoveto
TBL ( [) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL ((M)) show
TBL (\051] = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 30 50 rmoveto
TBL ( ) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
             } if %xchartl=1

25 setlinewidth
%circle
0 setgray

%new shift in middle
xchartl 0 eq {2000 1800 translate /ydt 250 def} if
xchartl 1 eq {2000 1800 translate /ydt 150 def} if

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

xchartl 0 eq 
xchartl 1 eq or {%xchartl=0,1

%TBS 700 700 moveto (TESTN0/1) show

/xchart6 1 def %0: no (1,1) test, 1: with (1,1) test
/xchart7 1 def %0:U, 1:M
/xchart8 0 def %0: xc=0,00, 1: xc=0,11
/xchart9 0 def %0: Bc=1,0, 1: Bc=0,8

xchart8 0 eq {/xc 0.00 def} if
xchart8 1 eq {/xc 0.11 def} if
xchart9 0 eq {/Bc 1.0 def} if
xchart9 1 eq {/Bc 0.8 def} if

/Aij 10 array def
/Bij 10 array def
/bij 9 array def
/aij 9 array def
/Bij [ 0.0000  1.0000  0.0000  %Dissertation, page 81 and 82
      -0.4139  1.4571 -2.4046
       2.9797 -2.6662 -0.0960] def
/Aij [ 0.9093 -0.0133  0.3338
       1.0000  0.0000  0.0000
       0.4494 -0.4136 -0.0574] def
/aij [ 0.9093 -0.0133  0.3338 %equation 4.2;10
       1.0000  0.0000  0.0000
       2.3587 -0.4269  0.2754] def
%x = [a11 + a12 p2 + a13 p3] / [a31 + a32 p2 + a33 p3]
%y = [a21 + a22 p2 + a23 p3] / [a31 + a32 p2 + a33 p3]
/bij [ 0.0000  1.0000  0.0000 %equation 4.2;14-15
       1.9907  3.8617 -2.4046
       3.0757 -2.5702 -0.0960] def
%p2 = 1/y [ b21 x + b22 y + b23]
%p3 = 1/y [ b31 x + b32 y + b33]

/xan 10 array def
/yan 10 array def
/XrM 10 array def
/ZrM 10 array def

0 1 9 {/j exch def %j=0,9; 9=surround
       xan j aij 0 get
             aij 1 get q2M j get mul add
             aij 2 get p2M j get mul add
             aij 6 get
             aij 7 get q2M j get mul add
             aij 8 get p2M j get mul add div
             put
       yan j aij 3 get
             aij 4 get q2M j get mul add
             aij 5 get p2M j get mul add
             aij 6 get
             aij 7 get q2M j get mul add
             aij 8 get p2M j get mul add div
             put

       /SUM  Ypr j get yan j get div def
       XrM j xan j get SUM mul put
       ZrM j 1 xan j get sub yan j get sub SUM mul put
      } for %j=0,9

1200 1900 moveto
TIL (p) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (=) show p20 cvsshow4 TL (, ) show
TIL (q) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (=) show q20 cvsshow4

1200 1650 moveto
TIL (x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (=) show xc cvsshow2 TL (, ) show
TIL (B) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (=) show Bc cvsshow2

xchartl 1 eq {%xchartl=1
TL (, ) show
TIL (c) show TV 0 -50 rmoveto (Y) show 0 50 rmoveto
TL (=0,91) show
TIL ( Y) show TV 50 50 rmoveto n cvsshow3 0 -50 rmoveto
} if %xchartl=1

0450 1400 moveto
TIL (p) show
TV 0 -50 rmoveto (2) show 0 50 rmoveto
TL (=p) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (B) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL ([3,0757) show
TIL (\050x-x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (\051-2,5702) show
TIL ( y) show
TL (-0,0960]/) show
TIL (y) show

0450 1150 moveto
TIL (q) show 
TV 0 -50 rmoveto (2) show 0 50 rmoveto
TL (=q) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL ([1,9907) show
TIL ( \050x-x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (\051+3,8617) show
TIL ( y) show
TL (-2,4046]/) show
TIL (y) show

newpath
-1900 -0950 ydt sub moveto
TIV (x) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 0,313) show

-1900 -1200 ydt sub moveto
TIV (y) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 0,324) show

-1900 -1450 ydt sub moveto
TIV (Y) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 25,30) show

xchartl 0 eq {%xchartl=0
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
1800 0120 moveto
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
} if %xchartl=0

xchartl 1 eq {%xchartl=1
1800 0400 moveto
TBIL (p*) show
TBV -40 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 30 50 rmoveto
TBIL (p) show TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show

1800 0150 moveto
TBL (= ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 0 50 rmoveto
TBL ( [) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
TBL (]) show
} if %xchartl=1

0 setgray
-1800 0 moveto 5100  0 rlineto stroke
0 -1700  moveto 0 3000 rlineto stroke
3300 100 sub 50 moveto 100 -50 rlineto
                      -100 -50 rlineto closepath fill
-000 50 sub 1300 100 sub moveto 50  100 rlineto
                             50 -100 rlineto closepath fill

%x-axis
TL
0 1 4 {/i exch def %i=0,4
        -2000   i 1000   mul add  -50 moveto 0 100 rlineto stroke
        -2150   i 1000   mul add -220   moveto
%        i 0 eq {(-0,50) show} if
        i 1 eq {(-2,00) show} if
        i 3 eq {( 2,00) show} if
%        i 4 eq {( 0,50) show} if
       } for %i=0,4

%y-axis
0 1 2 {/i exch def %i=0,2
       -75 -1000 i 1000 mul    add moveto 150 0 rlineto stroke
       100 -1050 i 1000 mul    add moveto
       i 0 eq {(-2,00) show} if
       i 2 eq {( 2,00) show} if
       } for %i=0,2

/fakt1 005 def
/fakts 100 def
/faktx fakt1 fakts mul def

%test
xchart6 1 eq {%xchart6=1
newpath
1 0 1 setrgbcolor
-2.00 faktx mul
 2.00 faktx mul
30 0 360 arc fill
-2.00 faktx mul 250 sub
 2.00 faktx mul 150 add moveto
TL (-2, 2) show
0 setgray
             } if %xchart6=1

0 1 9 {/j exch def %j=0,9
        q2M j bij 3 get xan j get xc sub mul
              bij 4 get yan j get mul add
              bij 5 get add yan j get div q20 mul put
        p2M j bij 6 get xan j get xc sub mul
              bij 7 get yan j get mul add
              bij 8 get add yan j get div p20 mul put
      } for %j=0,9

/yd 130 def
0 setgray
1900 -200 moveto TBIL (V) show
2200 150 sub -200 moveto 
TBIL xchartl 0 eq {(p) show}{(p*) show -40 0 rmoveto} ifelse
TBV 0 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show
2800 100 sub -200 moveto 
TBIL xchartl 0 eq {(q) show}{(q*) show -40 0 rmoveto} ifelse
TBV 0 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show

TV %Tabelle
0 1 9 {/j exch def %j=0,9
       1900 -390 yd j mul neg add moveto
       j 8 le {j 1 add cvishow} {(M) show} ifelse
       2200 -390 yd j mul neg add moveto
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if cvsshow3
       2800 -390 yd j mul neg add moveto
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if Bc mul cvsshow3
      } for %j=0,9

%chroma cero patches
newpath %9 shifts with faktx mul and arc
0 1 8 {/j exch def %j=0,8
       0 setgray
       j 0 eq {0 1 0 setrgbcolor} if
       j 4 eq {1 0 0 setrgbcolor} if
       j 8 eq {0 0 1 setrgbcolor} if
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if
                 faktx mul
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if
                 Bc mul faktx mul
       40 0 360 arc fill
      } for %j=0,8

newpath
0 setgray
0 4 8 {/j exch def %j=0,4,8
       j 0 eq {0 1 0 setrgbcolor} if
       j 4 eq {1 0 0 setrgbcolor} if
       j 8 eq {0 0 1 setrgbcolor} if
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if 
                 faktx mul 040 add j 8 eq {130 sub} if
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if 
                 Bc mul faktx mul 030 add j 8 eq {060 add} if
       moveto TV (V=) show j 1 add cvishow
      } for %j=0,4,8

/p2_CRX 41 array def
/q2_CRX 41 array def

0 setgray
newpath
%chroma circles
0 4 8  {/j exch def %j=0,4,8
        0 1 39 {/i exch def %i=0,39
        j 0 eq {%j=0
        q2_CRX i bij 3 get xanCR1 i get xc sub mul
                 bij 4 get yanCR1 i get mul add
                 bij 5 get add yanCR1 i get div q20 mul put
        p2_CRX i bij 6 get xanCR1 i get xc sub mul
                 bij 7 get yanCR1 i get mul add
                 bij 8 get add yanCR1 i get div p20 mul put} if %j=0
        j 4 eq {%j=4
        q2_CRX i bij 3 get xanCR5 i get xc sub mul
                 bij 4 get yanCR5 i get mul add
                 bij 5 get add yanCR5 i get div q20 mul put
        p2_CRX i bij 6 get xanCR5 i get xc sub mul
                 bij 7 get yanCR5 i get mul add
                 bij 8 get add yanCR5 i get div p20 mul put} if %j=4
        j 8 eq {%j=8
        q2_CRX i bij 3 get xanCR9 i get xc sub mul
                 bij 4 get yanCR9 i get mul add
                 bij 5 get add yanCR9 i get div q20 mul put
        p2_CRX i bij 6 get xanCR9 i get xc sub mul
                 bij 7 get yanCR9 i get mul add
                 bij 8 get add yanCR9 i get div p20 mul put} if %j=8
        } for %i=0,39

j 0 eq {0 1 0 setrgbcolor} if
j 4 eq {1 0 0 setrgbcolor} if
j 8 eq {0 0 1 setrgbcolor} if

0 1 39 {/i exch def %i=0,39
        p2_CRX i get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse 
                     xchartl 1 eq {cYr j get mul} if faktx mul
        q2_CRX i get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                     xchartl 1 eq {cYr j get mul} if Bc mul faktx mul
        30 0 360 arc fill
       } for %i=0,39

0 1 39 {/i exch def %i=0,39
i 38 le {p2_CRX i get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX i get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if 
         Bc mul faktx mul moveto

         p2_CRX i 1 add get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX i 1 add get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul lineto stroke}

        {p2_CRX 39 get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX 39 get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul moveto

         p2_CRX 0 get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX 0 get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul lineto stroke} ifelse

       } for %i=0,39

        0 setgray

       } for %j=0,4,8


} if %xchartl=0,1


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

xchartl 0 eq {2000 neg 1800 neg translate} if
xchartl 1 eq {2000 neg 1800 neg translate} if

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%%Trailer
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%%EndDocument
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[/Title (PostScript pictures: farbe.li.tu-berlin.de/eed9/eed9.htm)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
 /Subject (goto: http://farbe.li.tu-berlin.de or http://color.li.tu-berlin.de)
 /Keywords (image reproduction, colour devices)
 /Creator (klaus.richter@mac.com)
 /CreationDate (D:2023110112000)
 /modDate (D:2023110112000)
/DOCINFO pdfmark02
[ /View [ /Fit ]
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/xchart6 1 def %0: no (1,1) test, 1: with (1,1) test
/xchart7 1 def %0:U, 1:M
/xchart8 0 def %0: xc=0,00, 1: xc=0,11
/xchart9 0 def %0: Bc=1,0, 1: Bc=0,8

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xchart9 0 eq {/Bc 1.0 def} if
xchart9 1 eq {/Bc 0.8 def} if

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/n 0.341 def
/m 0.333 def
/a'0  0.2191 def
/b'0 -0.08376 def
/n2 1.000 def
/n3 2.806 def
/p20 2.806 def
/q20 1.000 def

/Vpr 10 array def %Dissertation, page 100 and 106  
/Ypr 10 array def
/cYr 10 array def          
/q2M 10 array def
/p2M 10 array def
/prM 10 array def

%     0      1     2     3     4     5     6     7     8    9
/Vpr [ 1.00  2.00  3.00  4.00  5.00  6.00  7.00  8.00  9.00 5.57] def
/Ypr [ 1.21  3.13  6.56 12.00 19.77 30.05 43.06 59.10 78.66 25.30] def
/cYr [0.971 1.342 1.728 2.123 2.517 2.903 3.282 3.657 4.031 2.738] def
/q2M [-2.13 -1.90 -1.78 -1.69 -1.64 -1.61 -1.59 -1.57 -1.55 -1.623] def
/p2M [0.378 0.257 0.200 0.153 0.121 0.107 0.096 0.089 0.082 0.110] def
/prM [ 2.29  1.46  1.24  0.98  0.78  0.69  0.60  0.54  0.50 0.730] def

/Aij 10 array def
/Bij 10 array def

/a2M 10 array def %not used
/b2M 10 array def %not used

/xan 10 array def
/yan 10 array def
/XrM 10 array def

/xyan1 80 array def
/xyan2 80 array def
/xyan5 80 array def
/xyan8 80 array def
/xyan9 80 array def

%  05
%  1 40  1  1 VALUE1
/xyan1 [                                                             
 0.2677 0.2280 0.2547 0.2310 0.2427 0.2368 0.2360 0.2420 0.2309 0.2491 0.2291 0.2579 0.2291 0.2677 0.2322 0.2781
 0.2362 0.2882 0.2430 0.3023 0.2500 0.3141 0.2600 0.3289 0.2689 0.3407 0.2758 0.3484 0.2833 0.3564 0.2910 0.3634
 0.3006 0.3720 0.3154 0.3840 0.3359 0.3982 0.3540 0.4088 0.3802 0.4212 0.4042 0.4287 0.4230 0.4265 0.4362 0.4177
 0.4446 0.3982 0.4430 0.3775 0.4377 0.3580 0.4258 0.3344 0.4128 0.3154 0.4020 0.3034 0.3908 0.2929 0.3768 0.2816
 0.3629 0.2710 0.3498 0.2617 0.3378 0.2542 0.3240 0.2459 0.3132 0.2404 0.3030 0.2361 0.2936 0.2330 0.2808 0.2296
       ] def
       
%  1 40 02  2 VALUE2
/xyan2 [                                                              
 0.2803 0.2567 0.2712 0.2582 0.2638 0.2624 0.2592 0.2675 0.2558 0.2725 0.2545 0.2799 0.2559 0.2874 0.2578 0.2940
 0.2606 0.3010 0.2651 0.3098 0.2697 0.3175 0.2765 0.3271 0.2820 0.3341 0.2869 0.3400 0.2918 0.3450 0.2978 0.3507
 0.3069 0.3580 0.3165 0.3650 0.3309 0.3743 0.3421 0.3803 0.3556 0.3848 0.3660 0.3858 0.3757 0.3839 0.3825 0.3785
 0.3872 0.3688 0.3889 0.3590 0.3880 0.3476 0.3852 0.3365 0.3811 0.3274 0.3751 0.3181 0.3692 0.3111 0.3614 0.3033
 0.3532 0.2957 0.3459 0.2892 0.3383 0.2829 0.3279 0.2754 0.3161 0.2691 0.3071 0.2647 0.2984 0.2612 0.2892 0.2583
       ] def
       
%  1 40 05  3 VALUE5
/xyan5 [                                                              
 0.2959 0.2905 0.2918 0.2908 0.2882 0.2923 0.2847 0.2942 0.2821 0.2966 0.2803 0.3000 0.2794 0.3032 0.2791 0.3071
 0.2796 0.3111 0.2812 0.3161 0.2841 0.3210 0.2880 0.3270 0.2910 0.3310 0.2945 0.3355 0.2978 0.3392 0.3030 0.3445
 0.3110 0.3508 0.3188 0.3560 0.3289 0.3612 0.3352 0.3636 0.3422 0.3648 0.3470 0.3640 0.3500 0.3620 0.3534 0.3570
 0.3546 0.3514 0.3540 0.3445 0.3530 0.3395 0.3506 0.3337 0.3465 0.3278 0.3425 0.3229 0.3392 0.3192 0.3360 0.3158
 0.3332 0.3131 0.3296 0.3098 0.3256 0.3065 0.3199 0.3019 0.3148 0.2986 0.3103 0.2959 0.3045 0.2928 0.3000 0.2912
       ] def
       
%  1 40 08  4 VALUE8
/xyan8 [                                                              
 0.3027 0.3035 0.3003 0.3034 0.2974 0.3039 0.2957 0.3047 0.2935 0.3062 0.2922 0.3077 0.2908 0.3096 0.2897 0.3124
 0.2894 0.3152 0.2900 0.3183 0.2919 0.3228 0.2940 0.3268 0.2957 0.3293 0.2981 0.3326 0.3009 0.3359 0.3053 0.3404
 0.3121 0.3459 0.3194 0.3502 0.3284 0.3542 0.3327 0.3555 0.3359 0.3552 0.3379 0.3540 0.3394 0.3518 0.3406 0.3484
 0.3407 0.3434 0.3395 0.3379 0.3373 0.3330 0.3334 0.3276 0.3301 0.3237 0.3277 0.3211 0.3254 0.3186 0.3236 0.3169
 0.3218 0.3152 0.3200 0.3136 0.3180 0.3120 0.3154 0.3100 0.3131 0.3084 0.3107 0.3070 0.3065 0.3047 0.3048 0.3040
       ] def
       
%  1 40 09  5 VALUE9
/xyan9 [                                                              
 0.3038 0.3054 0.3015 0.3052 0.2991 0.3057 0.2975 0.3063 0.2949 0.3076 0.2937 0.3087 0.2919 0.3102 0.2909 0.3125
 0.2907 0.3159 0.2911 0.3188 0.2930 0.3232 0.2947 0.3267 0.2965 0.3293 0.2987 0.3323 0.3017 0.3357 0.3058 0.3400
 0.3124 0.3454 0.3198 0.3500 0.3284 0.3534 0.3321 0.3539 0.3349 0.3537 0.3365 0.3527 0.3378 0.3504 0.3390 0.3472
 0.3392 0.3430 0.3380 0.3377 0.3353 0.3325 0.3320 0.3273 0.3284 0.3233 0.3263 0.3210 0.3240 0.3188 0.3210 0.3168
 0.3205 0.3155 0.3190 0.3141 0.3172 0.3126 0.3149 0.3108 0.3128 0.3094 0.3107 0.3081 0.3067 0.3060 0.3050 0.3051
       ] def

/XrMCR1 41 array def
/YrMCR1 41 array def
/ZrMCR1 41 array def
/xanCR1 41 array def
/yanCR1 41 array def
/zanCR1 41 array def

/XrMCR5 41 array def
/YrMCR5 41 array def
/ZrMCR5 41 array def
/xanCR5 41 array def
/yanCR5 41 array def
/zanCR5 41 array def

/XrMCR9 41 array def
/YrMCR9 41 array def
/ZrMCR9 41 array def
/xanCR9 41 array def
/yanCR9 41 array def
/zanCR9 41 array def

/XrMCRX 41 array def
/YrMCRX 41 array def
/ZrMCRX 41 array def
/xanCRX 41 array def
/yanCRX 41 array def
/zanCRX 41 array def

0 1 39 {/i exch def %i=0,39
        YrMCR1 i Ypr 0 get put
        xanCR1 i xyan1 i 2 mul       get put
        yanCR1 i xyan1 i 2 mul 1 add get put
        zanCR1 i 1 xanCR1 i get sub yanCR1 i get sub put
        /SUM  Ypr 0 get yanCR1 i get div def
        XrMCR1 i xanCR1 i get SUM mul put
        ZrMCR1 i xanCR1 i get SUM mul put
      } for %i=0,39

0 1 39 {/i exch def %i=0,39
        YrMCR5 i Ypr 4 get put
        xanCR5 i xyan5 i 2 mul       get put
        yanCR5 i xyan5 i 2 mul 1 add get put
        zanCR5 i 1 xanCR5 i get sub yanCR5 i get sub put
        /SUM  Ypr 4 get yanCR1 i get div def
        XrMCR5 i xanCR5 i get SUM mul put
        ZrMCR5 i xanCR5 i get SUM mul put
      } for %i=0,39

0 1 39 {/i exch def %i=0,39
        YrMCR9 i Ypr 8 get put
        xanCR9 i xyan9 i 2 mul       get put
        yanCR9 i xyan9 i 2 mul 1 add get put
        zanCR9 i 1 xanCR9 i get sub yanCR9 i get sub put
        /SUM  Ypr 8 get yanCR9 i get div def
        ZrMCR9 i xanCR9 i get SUM mul put
      } for %i=0,39
      
72 90 translate

0.01 MM dup scale

/xchart 0 def

/xchartl 1 def

gsave

200 /Times-ISOL1 FS
0 setgray
25 setlinewidth
/xwidth 5400 def
/ywidth 4000 def

0 0 xwidth ywidth 1.0 1.0 1.0 rgbrecfi %Rechteck Mittelgrau

25 setlinewidth

0 0 xwidth ywidth 0.0 0.0 0.0 rgbrecst %Rahmen Schwarz

100 /Times-ISOL1 FS
100 -090 moveto 
(eed90-2a) show

gsave

/x700 400 def

0100 3850 moveto
TBIL
(Munsell (Renotation)) showen
(Munsell (Renotation)) showde
TBL ( Chroma) showen (\255Buntheit) showde
TBIL ( C) show
TBL ( = 2 and Value) showen ( = 2 und Helligkeit (Value)) showde
TBIL ( V) show
TBL ( = ) show
0 1 0 setrgbcolor
TBL (1) show
0 setgray
(, ) show
1 0 0 setrgbcolor
(5) show
0 setgray
( und ) showde
(, and ) showen
0 0 1 setrgbcolor
(9) show
0 setgray

xchartl 0 eq {%xchartl=0
0100 3670 moveto
TBL (in chromaticity diagram ) showen
    (in Farbartdiagramm ) showde
TBL (\050) show
TBIL (p) show
TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show 
TBL (, ) show
TBIL (q) show
TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show 
TBL (\051) show

1200 3430 moveto
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
             } if %xchartl=0
             
xchartl 1 eq {%xchartl=1
0100 3670 moveto
TBL (in chroma diagram ) showen
    (in Buntheitsdiagramm ) showde
TBL (\050) show
TBIL (p*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBL (, ) show
TBIL (q*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBV (\051) show

0300 3430 moveto
TBIL (q*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 0 50 rmoveto
TBL ( [) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL ((M)) show
TBL (\051] = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 30 50 rmoveto
TBL ( ) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
             } if %xchartl=1

25 setlinewidth
%circle
0 setgray

%new shift in middle
xchartl 0 eq {2000 1800 translate /ydt 250 def} if
xchartl 1 eq {2000 1800 translate /ydt 150 def} if

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

xchartl 0 eq 
xchartl 1 eq or {%xchartl=0,1

%TBS 700 700 moveto (TESTN0/1) show

/xchart6 1 def %0: no (1,1) test, 1: with (1,1) test
/xchart7 1 def %0:U, 1:M
/xchart8 0 def %0: xc=0,00, 1: xc=0,11
/xchart9 0 def %0: Bc=1,0, 1: Bc=0,8

xchart8 0 eq {/xc 0.00 def} if
xchart8 1 eq {/xc 0.11 def} if
xchart9 0 eq {/Bc 1.0 def} if
xchart9 1 eq {/Bc 0.8 def} if

/Aij 10 array def
/Bij 10 array def
/bij 9 array def
/aij 9 array def
/Bij [ 0.0000  1.0000  0.0000  %Dissertation, page 81 and 82
      -0.4139  1.4571 -2.4046
       2.9797 -2.6662 -0.0960] def
/Aij [ 0.9093 -0.0133  0.3338
       1.0000  0.0000  0.0000
       0.4494 -0.4136 -0.0574] def
/aij [ 0.9093 -0.0133  0.3338 %equation 4.2;10
       1.0000  0.0000  0.0000
       2.3587 -0.4269  0.2754] def
%x = [a11 + a12 p2 + a13 p3] / [a31 + a32 p2 + a33 p3]
%y = [a21 + a22 p2 + a23 p3] / [a31 + a32 p2 + a33 p3]
/bij [ 0.0000  1.0000  0.0000 %equation 4.2;14-15
       1.9907  3.8617 -2.4046
       3.0757 -2.5702 -0.0960] def
%p2 = 1/y [ b21 x + b22 y + b23]
%p3 = 1/y [ b31 x + b32 y + b33]

/xan 10 array def
/yan 10 array def
/XrM 10 array def
/ZrM 10 array def

0 1 9 {/j exch def %j=0,9; 9=surround
       xan j aij 0 get
             aij 1 get q2M j get mul add
             aij 2 get p2M j get mul add
             aij 6 get
             aij 7 get q2M j get mul add
             aij 8 get p2M j get mul add div
             put
       yan j aij 3 get
             aij 4 get q2M j get mul add
             aij 5 get p2M j get mul add
             aij 6 get
             aij 7 get q2M j get mul add
             aij 8 get p2M j get mul add div
             put

       /SUM  Ypr j get yan j get div def
       XrM j xan j get SUM mul put
       ZrM j 1 xan j get sub yan j get sub SUM mul put
      } for %j=0,9

1200 1900 moveto
TIL (p) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (=) show p20 cvsshow4 TL (, ) show
TIL (q) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (=) show q20 cvsshow4

1200 1650 moveto
TIL (x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (=) show xc cvsshow2 TL (, ) show
TIL (B) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (=) show Bc cvsshow2

xchartl 1 eq {%xchartl=1
TL (, ) show
TIL (c) show TV 0 -50 rmoveto (Y) show 0 50 rmoveto
TL (=0,91) show
TIL ( Y) show TV 50 50 rmoveto n cvsshow3 0 -50 rmoveto
} if %xchartl=1

0450 1400 moveto
TIL (p) show
TV 0 -50 rmoveto (2) show 0 50 rmoveto
TL (=p) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (B) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL ([3,0757) show
TIL (\050x-x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (\051-2,5702) show
TIL ( y) show
TL (-0,0960]/) show
TIL (y) show

0450 1150 moveto
TIL (q) show 
TV 0 -50 rmoveto (2) show 0 50 rmoveto
TL (=q) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL ([1,9907) show
TIL ( \050x-x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (\051+3,8617) show
TIL ( y) show
TL (-2,4046]/) show
TIL (y) show

newpath
-1900 -0950 ydt sub moveto
TIV (x) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 0,313) show

-1900 -1200 ydt sub moveto
TIV (y) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 0,324) show

-1900 -1450 ydt sub moveto
TIV (Y) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 25,30) show

xchartl 0 eq {%xchartl=0
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
1800 0120 moveto
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
} if %xchartl=0

xchartl 1 eq {%xchartl=1
1800 0400 moveto
TBIL (p*) show
TBV -40 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 30 50 rmoveto
TBIL (p) show TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show

1800 0150 moveto
TBL (= ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 0 50 rmoveto
TBL ( [) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
TBL (]) show
} if %xchartl=1

0 setgray
-1800 0 moveto 5100  0 rlineto stroke
0 -1700  moveto 0 3000 rlineto stroke
3300 100 sub 50 moveto 100 -50 rlineto
                      -100 -50 rlineto closepath fill
-000 50 sub 1300 100 sub moveto 50  100 rlineto
                             50 -100 rlineto closepath fill

%x-axis
TL
0 1 4 {/i exch def %i=0,4
        -2000   i 1000   mul add  -50 moveto 0 100 rlineto stroke
        -2150   i 1000   mul add -220   moveto
%        i 0 eq {(-0,50) show} if
        i 1 eq {(-2,00) show} if
        i 3 eq {( 2,00) show} if
%        i 4 eq {( 0,50) show} if
       } for %i=0,4

%y-axis
0 1 2 {/i exch def %i=0,2
       -75 -1000 i 1000 mul    add moveto 150 0 rlineto stroke
       100 -1050 i 1000 mul    add moveto
       i 0 eq {(-2,00) show} if
       i 2 eq {( 2,00) show} if
       } for %i=0,2

/fakt1 005 def
/fakts 100 def
/faktx fakt1 fakts mul def

%test
xchart6 1 eq {%xchart6=1
newpath
1 0 1 setrgbcolor
-2.00 faktx mul
 2.00 faktx mul
30 0 360 arc fill
-2.00 faktx mul 250 sub
 2.00 faktx mul 150 add moveto
TL (-2, 2) show
0 setgray
             } if %xchart6=1

0 1 9 {/j exch def %j=0,9
        q2M j bij 3 get xan j get xc sub mul
              bij 4 get yan j get mul add
              bij 5 get add yan j get div q20 mul put
        p2M j bij 6 get xan j get xc sub mul
              bij 7 get yan j get mul add
              bij 8 get add yan j get div p20 mul put
      } for %j=0,9

/yd 130 def
0 setgray
1900 -200 moveto TBIL (V) show
2200 150 sub -200 moveto 
TBIL xchartl 0 eq {(p) show}{(p*) show -40 0 rmoveto} ifelse
TBV 0 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show
2800 100 sub -200 moveto 
TBIL xchartl 0 eq {(q) show}{(q*) show -40 0 rmoveto} ifelse
TBV 0 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show

TV %Tabelle
0 1 9 {/j exch def %j=0,9
       1900 -390 yd j mul neg add moveto
       j 8 le {j 1 add cvishow} {(M) show} ifelse
       2200 -390 yd j mul neg add moveto
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if cvsshow3
       2800 -390 yd j mul neg add moveto
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if Bc mul cvsshow3
      } for %j=0,9

%chroma cero patches
newpath %9 shifts with faktx mul and arc
0 1 8 {/j exch def %j=0,8
       0 setgray
       j 0 eq {0 1 0 setrgbcolor} if
       j 4 eq {1 0 0 setrgbcolor} if
       j 8 eq {0 0 1 setrgbcolor} if
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if
                 faktx mul
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if
                 Bc mul faktx mul
       40 0 360 arc fill
      } for %j=0,8

newpath
0 setgray
0 4 8 {/j exch def %j=0,4,8
       j 0 eq {0 1 0 setrgbcolor} if
       j 4 eq {1 0 0 setrgbcolor} if
       j 8 eq {0 0 1 setrgbcolor} if
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if 
                 faktx mul 040 add j 8 eq {130 sub} if
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if 
                 Bc mul faktx mul 030 add j 8 eq {060 add} if
       moveto TV (V=) show j 1 add cvishow
      } for %j=0,4,8

/p2_CRX 41 array def
/q2_CRX 41 array def

0 setgray
newpath
%chroma circles
0 4 8  {/j exch def %j=0,4,8
        0 1 39 {/i exch def %i=0,39
        j 0 eq {%j=0
        q2_CRX i bij 3 get xanCR1 i get xc sub mul
                 bij 4 get yanCR1 i get mul add
                 bij 5 get add yanCR1 i get div q20 mul put
        p2_CRX i bij 6 get xanCR1 i get xc sub mul
                 bij 7 get yanCR1 i get mul add
                 bij 8 get add yanCR1 i get div p20 mul put} if %j=0
        j 4 eq {%j=4
        q2_CRX i bij 3 get xanCR5 i get xc sub mul
                 bij 4 get yanCR5 i get mul add
                 bij 5 get add yanCR5 i get div q20 mul put
        p2_CRX i bij 6 get xanCR5 i get xc sub mul
                 bij 7 get yanCR5 i get mul add
                 bij 8 get add yanCR5 i get div p20 mul put} if %j=4
        j 8 eq {%j=8
        q2_CRX i bij 3 get xanCR9 i get xc sub mul
                 bij 4 get yanCR9 i get mul add
                 bij 5 get add yanCR9 i get div q20 mul put
        p2_CRX i bij 6 get xanCR9 i get xc sub mul
                 bij 7 get yanCR9 i get mul add
                 bij 8 get add yanCR9 i get div p20 mul put} if %j=8
        } for %i=0,39

j 0 eq {0 1 0 setrgbcolor} if
j 4 eq {1 0 0 setrgbcolor} if
j 8 eq {0 0 1 setrgbcolor} if

0 1 39 {/i exch def %i=0,39
        p2_CRX i get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse 
                     xchartl 1 eq {cYr j get mul} if faktx mul
        q2_CRX i get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                     xchartl 1 eq {cYr j get mul} if Bc mul faktx mul
        30 0 360 arc fill
       } for %i=0,39

0 1 39 {/i exch def %i=0,39
i 38 le {p2_CRX i get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX i get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if 
         Bc mul faktx mul moveto

         p2_CRX i 1 add get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX i 1 add get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul lineto stroke}

        {p2_CRX 39 get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX 39 get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul moveto

         p2_CRX 0 get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX 0 get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul lineto stroke} ifelse

       } for %i=0,39

        0 setgray

       } for %j=0,4,8


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

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[/Title (PostScript pictures: farbe.li.tu-berlin.de/eed9/eed9.htm)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
 /Subject (goto: http://farbe.li.tu-berlin.de or http://color.li.tu-berlin.de)
 /Keywords (image reproduction, colour devices)
 /Creator (klaus.richter@mac.com)
 /CreationDate (D:2023110112000)
 /modDate (D:2023110112000)
/DOCINFO pdfmark03
[ /View [ /Fit ]
/DOCVIEW pdfmark03
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/popxfr {/n exch def 3 lanind ne {n {pop} repeat} if} bind def
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%LANINDL2 END

/cvi100show {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     {(000) show} if
             xia   10 ge xia   99 le and {(00) show} if
             xia  100 ge xia  999 le and {(0) show} if
%             xia 1000 ge xia 9999 le and {() show} if
             xia cvishow ( ) show
            } bind def

/xchart6 1 def %0: no (1,1) test, 1: with (1,1) test
/xchart7 1 def %0:U, 1:M
/xchart8 0 def %0: xc=0,00, 1: xc=0,11
/xchart9 1 def %0: Bc=1,0, 1: Bc=0,8

xchart8 0 eq {/xc 0.00 def} if
xchart8 1 eq {/xc 0.11 def} if
xchart9 0 eq {/Bc 1.0 def} if
xchart9 1 eq {/Bc 0.8 def} if

/a20  1.0 def
/b20 -0.4 def
/n 0.341 def
/m 0.333 def
/a'0  0.2191 def
/b'0 -0.08376 def
/n2 1.000 def
/n3 2.806 def
/p20 2.806 def
/q20 1.000 def

/Vpr 10 array def %Dissertation, page 100 and 106  
/Ypr 10 array def
/cYr 10 array def          
/q2M 10 array def
/p2M 10 array def
/prM 10 array def

%     0      1     2     3     4     5     6     7     8    9
/Vpr [ 1.00  2.00  3.00  4.00  5.00  6.00  7.00  8.00  9.00 5.57] def
/Ypr [ 1.21  3.13  6.56 12.00 19.77 30.05 43.06 59.10 78.66 25.30] def
/cYr [0.971 1.342 1.728 2.123 2.517 2.903 3.282 3.657 4.031 2.738] def
/q2M [-2.13 -1.90 -1.78 -1.69 -1.64 -1.61 -1.59 -1.57 -1.55 -1.623] def
/p2M [0.378 0.257 0.200 0.153 0.121 0.107 0.096 0.089 0.082 0.110] def
/prM [ 2.29  1.46  1.24  0.98  0.78  0.69  0.60  0.54  0.50 0.730] def

/Aij 10 array def
/Bij 10 array def

/a2M 10 array def %not used
/b2M 10 array def %not used

/xan 10 array def
/yan 10 array def
/XrM 10 array def

/xyan1 80 array def
/xyan2 80 array def
/xyan5 80 array def
/xyan8 80 array def
/xyan9 80 array def

%  05
%  1 40  1  1 VALUE1
/xyan1 [                                                             
 0.2677 0.2280 0.2547 0.2310 0.2427 0.2368 0.2360 0.2420 0.2309 0.2491 0.2291 0.2579 0.2291 0.2677 0.2322 0.2781
 0.2362 0.2882 0.2430 0.3023 0.2500 0.3141 0.2600 0.3289 0.2689 0.3407 0.2758 0.3484 0.2833 0.3564 0.2910 0.3634
 0.3006 0.3720 0.3154 0.3840 0.3359 0.3982 0.3540 0.4088 0.3802 0.4212 0.4042 0.4287 0.4230 0.4265 0.4362 0.4177
 0.4446 0.3982 0.4430 0.3775 0.4377 0.3580 0.4258 0.3344 0.4128 0.3154 0.4020 0.3034 0.3908 0.2929 0.3768 0.2816
 0.3629 0.2710 0.3498 0.2617 0.3378 0.2542 0.3240 0.2459 0.3132 0.2404 0.3030 0.2361 0.2936 0.2330 0.2808 0.2296
       ] def
       
%  1 40 02  2 VALUE2
/xyan2 [                                                              
 0.2803 0.2567 0.2712 0.2582 0.2638 0.2624 0.2592 0.2675 0.2558 0.2725 0.2545 0.2799 0.2559 0.2874 0.2578 0.2940
 0.2606 0.3010 0.2651 0.3098 0.2697 0.3175 0.2765 0.3271 0.2820 0.3341 0.2869 0.3400 0.2918 0.3450 0.2978 0.3507
 0.3069 0.3580 0.3165 0.3650 0.3309 0.3743 0.3421 0.3803 0.3556 0.3848 0.3660 0.3858 0.3757 0.3839 0.3825 0.3785
 0.3872 0.3688 0.3889 0.3590 0.3880 0.3476 0.3852 0.3365 0.3811 0.3274 0.3751 0.3181 0.3692 0.3111 0.3614 0.3033
 0.3532 0.2957 0.3459 0.2892 0.3383 0.2829 0.3279 0.2754 0.3161 0.2691 0.3071 0.2647 0.2984 0.2612 0.2892 0.2583
       ] def
       
%  1 40 05  3 VALUE5
/xyan5 [                                                              
 0.2959 0.2905 0.2918 0.2908 0.2882 0.2923 0.2847 0.2942 0.2821 0.2966 0.2803 0.3000 0.2794 0.3032 0.2791 0.3071
 0.2796 0.3111 0.2812 0.3161 0.2841 0.3210 0.2880 0.3270 0.2910 0.3310 0.2945 0.3355 0.2978 0.3392 0.3030 0.3445
 0.3110 0.3508 0.3188 0.3560 0.3289 0.3612 0.3352 0.3636 0.3422 0.3648 0.3470 0.3640 0.3500 0.3620 0.3534 0.3570
 0.3546 0.3514 0.3540 0.3445 0.3530 0.3395 0.3506 0.3337 0.3465 0.3278 0.3425 0.3229 0.3392 0.3192 0.3360 0.3158
 0.3332 0.3131 0.3296 0.3098 0.3256 0.3065 0.3199 0.3019 0.3148 0.2986 0.3103 0.2959 0.3045 0.2928 0.3000 0.2912
       ] def
       
%  1 40 08  4 VALUE8
/xyan8 [                                                              
 0.3027 0.3035 0.3003 0.3034 0.2974 0.3039 0.2957 0.3047 0.2935 0.3062 0.2922 0.3077 0.2908 0.3096 0.2897 0.3124
 0.2894 0.3152 0.2900 0.3183 0.2919 0.3228 0.2940 0.3268 0.2957 0.3293 0.2981 0.3326 0.3009 0.3359 0.3053 0.3404
 0.3121 0.3459 0.3194 0.3502 0.3284 0.3542 0.3327 0.3555 0.3359 0.3552 0.3379 0.3540 0.3394 0.3518 0.3406 0.3484
 0.3407 0.3434 0.3395 0.3379 0.3373 0.3330 0.3334 0.3276 0.3301 0.3237 0.3277 0.3211 0.3254 0.3186 0.3236 0.3169
 0.3218 0.3152 0.3200 0.3136 0.3180 0.3120 0.3154 0.3100 0.3131 0.3084 0.3107 0.3070 0.3065 0.3047 0.3048 0.3040
       ] def
       
%  1 40 09  5 VALUE9
/xyan9 [                                                              
 0.3038 0.3054 0.3015 0.3052 0.2991 0.3057 0.2975 0.3063 0.2949 0.3076 0.2937 0.3087 0.2919 0.3102 0.2909 0.3125
 0.2907 0.3159 0.2911 0.3188 0.2930 0.3232 0.2947 0.3267 0.2965 0.3293 0.2987 0.3323 0.3017 0.3357 0.3058 0.3400
 0.3124 0.3454 0.3198 0.3500 0.3284 0.3534 0.3321 0.3539 0.3349 0.3537 0.3365 0.3527 0.3378 0.3504 0.3390 0.3472
 0.3392 0.3430 0.3380 0.3377 0.3353 0.3325 0.3320 0.3273 0.3284 0.3233 0.3263 0.3210 0.3240 0.3188 0.3210 0.3168
 0.3205 0.3155 0.3190 0.3141 0.3172 0.3126 0.3149 0.3108 0.3128 0.3094 0.3107 0.3081 0.3067 0.3060 0.3050 0.3051
       ] def

/XrMCR1 41 array def
/YrMCR1 41 array def
/ZrMCR1 41 array def
/xanCR1 41 array def
/yanCR1 41 array def
/zanCR1 41 array def

/XrMCR5 41 array def
/YrMCR5 41 array def
/ZrMCR5 41 array def
/xanCR5 41 array def
/yanCR5 41 array def
/zanCR5 41 array def

/XrMCR9 41 array def
/YrMCR9 41 array def
/ZrMCR9 41 array def
/xanCR9 41 array def
/yanCR9 41 array def
/zanCR9 41 array def

/XrMCRX 41 array def
/YrMCRX 41 array def
/ZrMCRX 41 array def
/xanCRX 41 array def
/yanCRX 41 array def
/zanCRX 41 array def

0 1 39 {/i exch def %i=0,39
        YrMCR1 i Ypr 0 get put
        xanCR1 i xyan1 i 2 mul       get put
        yanCR1 i xyan1 i 2 mul 1 add get put
        zanCR1 i 1 xanCR1 i get sub yanCR1 i get sub put
        /SUM  Ypr 0 get yanCR1 i get div def
        XrMCR1 i xanCR1 i get SUM mul put
        ZrMCR1 i xanCR1 i get SUM mul put
      } for %i=0,39

0 1 39 {/i exch def %i=0,39
        YrMCR5 i Ypr 4 get put
        xanCR5 i xyan5 i 2 mul       get put
        yanCR5 i xyan5 i 2 mul 1 add get put
        zanCR5 i 1 xanCR5 i get sub yanCR5 i get sub put
        /SUM  Ypr 4 get yanCR1 i get div def
        XrMCR5 i xanCR5 i get SUM mul put
        ZrMCR5 i xanCR5 i get SUM mul put
      } for %i=0,39

0 1 39 {/i exch def %i=0,39
        YrMCR9 i Ypr 8 get put
        xanCR9 i xyan9 i 2 mul       get put
        yanCR9 i xyan9 i 2 mul 1 add get put
        zanCR9 i 1 xanCR9 i get sub yanCR9 i get sub put
        /SUM  Ypr 8 get yanCR9 i get div def
        ZrMCR9 i xanCR9 i get SUM mul put
      } for %i=0,39
      
72 90 translate

0.01 MM dup scale

/xchart 0 def

/xchartl 0 def

gsave

200 /Times-ISOL1 FS
0 setgray
25 setlinewidth
/xwidth 5400 def
/ywidth 4000 def

0 0 xwidth ywidth 1.0 1.0 1.0 rgbrecfi %Rechteck Mittelgrau

25 setlinewidth

0 0 xwidth ywidth 0.0 0.0 0.0 rgbrecst %Rahmen Schwarz

100 /Times-ISOL1 FS
100 -090 moveto 
(eed90-3a) show

gsave

/x700 400 def

0100 3850 moveto
TBIL
(Munsell (Renotation)) showen
(Munsell (Renotation)) showde
TBL ( Chroma) showen (\255Buntheit) showde
TBIL ( C) show
TBL ( = 2 and Value) showen ( = 2 und Helligkeit (Value)) showde
TBIL ( V) show
TBL ( = ) show
0 1 0 setrgbcolor
TBL (1) show
0 setgray
(, ) show
1 0 0 setrgbcolor
(5) show
0 setgray
( und ) showde
(, and ) showen
0 0 1 setrgbcolor
(9) show
0 setgray

xchartl 0 eq {%xchartl=0
0100 3670 moveto
TBL (in chromaticity diagram ) showen
    (in Farbartdiagramm ) showde
TBL (\050) show
TBIL (p) show
TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show 
TBL (, ) show
TBIL (q) show
TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show 
TBL (\051) show

1200 3430 moveto
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
             } if %xchartl=0
             
xchartl 1 eq {%xchartl=1
0100 3670 moveto
TBL (in chroma diagram ) showen
    (in Buntheitsdiagramm ) showde
TBL (\050) show
TBIL (p*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBL (, ) show
TBIL (q*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBV (\051) show

0300 3430 moveto
TBIL (q*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 0 50 rmoveto
TBL ( [) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL ((M)) show
TBL (\051] = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 30 50 rmoveto
TBL ( ) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
             } if %xchartl=1

25 setlinewidth
%circle
0 setgray

%new shift in middle
xchartl 0 eq {2000 1800 translate /ydt 250 def} if
xchartl 1 eq {2000 1800 translate /ydt 150 def} if

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

xchartl 0 eq 
xchartl 1 eq or {%xchartl=0,1

%TBS 700 700 moveto (TESTN0/1) show

/xchart6 1 def %0: no (1,1) test, 1: with (1,1) test
/xchart7 1 def %0:U, 1:M
/xchart8 0 def %0: xc=0,00, 1: xc=0,11
/xchart9 1 def %0: Bc=1,0, 1: Bc=0,8

xchart8 0 eq {/xc 0.00 def} if
xchart8 1 eq {/xc 0.11 def} if
xchart9 0 eq {/Bc 1.0 def} if
xchart9 1 eq {/Bc 0.8 def} if

/Aij 10 array def
/Bij 10 array def
/bij 9 array def
/aij 9 array def
/Bij [ 0.0000  1.0000  0.0000  %Dissertation, page 81 and 82
      -0.4139  1.4571 -2.4046
       2.9797 -2.6662 -0.0960] def
/Aij [ 0.9093 -0.0133  0.3338
       1.0000  0.0000  0.0000
       0.4494 -0.4136 -0.0574] def
/aij [ 0.9093 -0.0133  0.3338 %equation 4.2;10
       1.0000  0.0000  0.0000
       2.3587 -0.4269  0.2754] def
%x = [a11 + a12 p2 + a13 p3] / [a31 + a32 p2 + a33 p3]
%y = [a21 + a22 p2 + a23 p3] / [a31 + a32 p2 + a33 p3]
/bij [ 0.0000  1.0000  0.0000 %equation 4.2;14-15
       1.9907  3.8617 -2.4046
       3.0757 -2.5702 -0.0960] def
%p2 = 1/y [ b21 x + b22 y + b23]
%p3 = 1/y [ b31 x + b32 y + b33]

/xan 10 array def
/yan 10 array def
/XrM 10 array def
/ZrM 10 array def

0 1 9 {/j exch def %j=0,9; 9=surround
       xan j aij 0 get
             aij 1 get q2M j get mul add
             aij 2 get p2M j get mul add
             aij 6 get
             aij 7 get q2M j get mul add
             aij 8 get p2M j get mul add div
             put
       yan j aij 3 get
             aij 4 get q2M j get mul add
             aij 5 get p2M j get mul add
             aij 6 get
             aij 7 get q2M j get mul add
             aij 8 get p2M j get mul add div
             put

       /SUM  Ypr j get yan j get div def
       XrM j xan j get SUM mul put
       ZrM j 1 xan j get sub yan j get sub SUM mul put
      } for %j=0,9

1200 1900 moveto
TIL (p) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (=) show p20 cvsshow4 TL (, ) show
TIL (q) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (=) show q20 cvsshow4

1200 1650 moveto
TIL (x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (=) show xc cvsshow2 TL (, ) show
TIL (B) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (=) show Bc cvsshow2

xchartl 1 eq {%xchartl=1
TL (, ) show
TIL (c) show TV 0 -50 rmoveto (Y) show 0 50 rmoveto
TL (=0,91) show
TIL ( Y) show TV 50 50 rmoveto n cvsshow3 0 -50 rmoveto
} if %xchartl=1

0450 1400 moveto
TIL (p) show
TV 0 -50 rmoveto (2) show 0 50 rmoveto
TL (=p) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (B) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL ([3,0757) show
TIL (\050x-x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (\051-2,5702) show
TIL ( y) show
TL (-0,0960]/) show
TIL (y) show

0450 1150 moveto
TIL (q) show 
TV 0 -50 rmoveto (2) show 0 50 rmoveto
TL (=q) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL ([1,9907) show
TIL ( \050x-x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (\051+3,8617) show
TIL ( y) show
TL (-2,4046]/) show
TIL (y) show

newpath
-1900 -0950 ydt sub moveto
TIV (x) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 0,313) show

-1900 -1200 ydt sub moveto
TIV (y) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 0,324) show

-1900 -1450 ydt sub moveto
TIV (Y) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 25,30) show

xchartl 0 eq {%xchartl=0
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
1800 0120 moveto
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
} if %xchartl=0

xchartl 1 eq {%xchartl=1
1800 0400 moveto
TBIL (p*) show
TBV -40 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 30 50 rmoveto
TBIL (p) show TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show

1800 0150 moveto
TBL (= ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 0 50 rmoveto
TBL ( [) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
TBL (]) show
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0 setgray
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0 -1700  moveto 0 3000 rlineto stroke
3300 100 sub 50 moveto 100 -50 rlineto
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-000 50 sub 1300 100 sub moveto 50  100 rlineto
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%x-axis
TL
0 1 4 {/i exch def %i=0,4
        -2000   i 1000   mul add  -50 moveto 0 100 rlineto stroke
        -2150   i 1000   mul add -220   moveto
%        i 0 eq {(-0,50) show} if
        i 1 eq {(-2,00) show} if
        i 3 eq {( 2,00) show} if
%        i 4 eq {( 0,50) show} if
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%y-axis
0 1 2 {/i exch def %i=0,2
       -75 -1000 i 1000 mul    add moveto 150 0 rlineto stroke
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       i 2 eq {( 2,00) show} if
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/fakt1 005 def
/fakts 100 def
/faktx fakt1 fakts mul def

%test
xchart6 1 eq {%xchart6=1
newpath
1 0 1 setrgbcolor
-2.00 faktx mul
 2.00 faktx mul
30 0 360 arc fill
-2.00 faktx mul 250 sub
 2.00 faktx mul 150 add moveto
TL (-2, 2) show
0 setgray
             } if %xchart6=1

0 1 9 {/j exch def %j=0,9
        q2M j bij 3 get xan j get xc sub mul
              bij 4 get yan j get mul add
              bij 5 get add yan j get div q20 mul put
        p2M j bij 6 get xan j get xc sub mul
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              bij 8 get add yan j get div p20 mul put
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/yd 130 def
0 setgray
1900 -200 moveto TBIL (V) show
2200 150 sub -200 moveto 
TBIL xchartl 0 eq {(p) show}{(p*) show -40 0 rmoveto} ifelse
TBV 0 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show
2800 100 sub -200 moveto 
TBIL xchartl 0 eq {(q) show}{(q*) show -40 0 rmoveto} ifelse
TBV 0 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show

TV %Tabelle
0 1 9 {/j exch def %j=0,9
       1900 -390 yd j mul neg add moveto
       j 8 le {j 1 add cvishow} {(M) show} ifelse
       2200 -390 yd j mul neg add moveto
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if cvsshow3
       2800 -390 yd j mul neg add moveto
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if Bc mul cvsshow3
      } for %j=0,9

%chroma cero patches
newpath %9 shifts with faktx mul and arc
0 1 8 {/j exch def %j=0,8
       0 setgray
       j 0 eq {0 1 0 setrgbcolor} if
       j 4 eq {1 0 0 setrgbcolor} if
       j 8 eq {0 0 1 setrgbcolor} if
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if
                 faktx mul
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if
                 Bc mul faktx mul
       40 0 360 arc fill
      } for %j=0,8

newpath
0 setgray
0 4 8 {/j exch def %j=0,4,8
       j 0 eq {0 1 0 setrgbcolor} if
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       j 8 eq {0 0 1 setrgbcolor} if
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if 
                 faktx mul 040 add j 8 eq {130 sub} if
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if 
                 Bc mul faktx mul 030 add j 8 eq {060 add} if
       moveto TV (V=) show j 1 add cvishow
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/p2_CRX 41 array def
/q2_CRX 41 array def

0 setgray
newpath
%chroma circles
0 4 8  {/j exch def %j=0,4,8
        0 1 39 {/i exch def %i=0,39
        j 0 eq {%j=0
        q2_CRX i bij 3 get xanCR1 i get xc sub mul
                 bij 4 get yanCR1 i get mul add
                 bij 5 get add yanCR1 i get div q20 mul put
        p2_CRX i bij 6 get xanCR1 i get xc sub mul
                 bij 7 get yanCR1 i get mul add
                 bij 8 get add yanCR1 i get div p20 mul put} if %j=0
        j 4 eq {%j=4
        q2_CRX i bij 3 get xanCR5 i get xc sub mul
                 bij 4 get yanCR5 i get mul add
                 bij 5 get add yanCR5 i get div q20 mul put
        p2_CRX i bij 6 get xanCR5 i get xc sub mul
                 bij 7 get yanCR5 i get mul add
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        j 8 eq {%j=8
        q2_CRX i bij 3 get xanCR9 i get xc sub mul
                 bij 4 get yanCR9 i get mul add
                 bij 5 get add yanCR9 i get div q20 mul put
        p2_CRX i bij 6 get xanCR9 i get xc sub mul
                 bij 7 get yanCR9 i get mul add
                 bij 8 get add yanCR9 i get div p20 mul put} if %j=8
        } for %i=0,39

j 0 eq {0 1 0 setrgbcolor} if
j 4 eq {1 0 0 setrgbcolor} if
j 8 eq {0 0 1 setrgbcolor} if

0 1 39 {/i exch def %i=0,39
        p2_CRX i get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse 
                     xchartl 1 eq {cYr j get mul} if faktx mul
        q2_CRX i get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                     xchartl 1 eq {cYr j get mul} if Bc mul faktx mul
        30 0 360 arc fill
       } for %i=0,39

0 1 39 {/i exch def %i=0,39
i 38 le {p2_CRX i get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX i get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if 
         Bc mul faktx mul moveto

         p2_CRX i 1 add get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX i 1 add get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul lineto stroke}

        {p2_CRX 39 get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX 39 get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul moveto

         p2_CRX 0 get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX 0 get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul lineto stroke} ifelse

       } for %i=0,39

        0 setgray

       } for %j=0,4,8


} if %xchartl=0,1


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

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%%Trailer
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[/Title (PostScript pictures: farbe.li.tu-berlin.de/eed9/eed9.htm)
 /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1)
 /Subject (goto: http://farbe.li.tu-berlin.de or http://color.li.tu-berlin.de)
 /Keywords (image reproduction, colour devices)
 /Creator (klaus.richter@mac.com)
 /CreationDate (D:2023110112000)
 /modDate (D:2023110112000)
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[ /View [ /Fit ]
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             /xia xi abs def
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%             xia 1000 ge xia 9999 le and {() show} if
             xia cvishow ( ) show
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/xchart6 1 def %0: no (1,1) test, 1: with (1,1) test
/xchart7 1 def %0:U, 1:M
/xchart8 0 def %0: xc=0,00, 1: xc=0,11
/xchart9 1 def %0: Bc=1,0, 1: Bc=0,8

xchart8 0 eq {/xc 0.00 def} if
xchart8 1 eq {/xc 0.11 def} if
xchart9 0 eq {/Bc 1.0 def} if
xchart9 1 eq {/Bc 0.8 def} if

/a20  1.0 def
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/n 0.341 def
/m 0.333 def
/a'0  0.2191 def
/b'0 -0.08376 def
/n2 1.000 def
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/p20 2.806 def
/q20 1.000 def

/Vpr 10 array def %Dissertation, page 100 and 106  
/Ypr 10 array def
/cYr 10 array def          
/q2M 10 array def
/p2M 10 array def
/prM 10 array def

%     0      1     2     3     4     5     6     7     8    9
/Vpr [ 1.00  2.00  3.00  4.00  5.00  6.00  7.00  8.00  9.00 5.57] def
/Ypr [ 1.21  3.13  6.56 12.00 19.77 30.05 43.06 59.10 78.66 25.30] def
/cYr [0.971 1.342 1.728 2.123 2.517 2.903 3.282 3.657 4.031 2.738] def
/q2M [-2.13 -1.90 -1.78 -1.69 -1.64 -1.61 -1.59 -1.57 -1.55 -1.623] def
/p2M [0.378 0.257 0.200 0.153 0.121 0.107 0.096 0.089 0.082 0.110] def
/prM [ 2.29  1.46  1.24  0.98  0.78  0.69  0.60  0.54  0.50 0.730] def

/Aij 10 array def
/Bij 10 array def

/a2M 10 array def %not used
/b2M 10 array def %not used

/xan 10 array def
/yan 10 array def
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/xyan1 80 array def
/xyan2 80 array def
/xyan5 80 array def
/xyan8 80 array def
/xyan9 80 array def

%  05
%  1 40  1  1 VALUE1
/xyan1 [                                                             
 0.2677 0.2280 0.2547 0.2310 0.2427 0.2368 0.2360 0.2420 0.2309 0.2491 0.2291 0.2579 0.2291 0.2677 0.2322 0.2781
 0.2362 0.2882 0.2430 0.3023 0.2500 0.3141 0.2600 0.3289 0.2689 0.3407 0.2758 0.3484 0.2833 0.3564 0.2910 0.3634
 0.3006 0.3720 0.3154 0.3840 0.3359 0.3982 0.3540 0.4088 0.3802 0.4212 0.4042 0.4287 0.4230 0.4265 0.4362 0.4177
 0.4446 0.3982 0.4430 0.3775 0.4377 0.3580 0.4258 0.3344 0.4128 0.3154 0.4020 0.3034 0.3908 0.2929 0.3768 0.2816
 0.3629 0.2710 0.3498 0.2617 0.3378 0.2542 0.3240 0.2459 0.3132 0.2404 0.3030 0.2361 0.2936 0.2330 0.2808 0.2296
       ] def
       
%  1 40 02  2 VALUE2
/xyan2 [                                                              
 0.2803 0.2567 0.2712 0.2582 0.2638 0.2624 0.2592 0.2675 0.2558 0.2725 0.2545 0.2799 0.2559 0.2874 0.2578 0.2940
 0.2606 0.3010 0.2651 0.3098 0.2697 0.3175 0.2765 0.3271 0.2820 0.3341 0.2869 0.3400 0.2918 0.3450 0.2978 0.3507
 0.3069 0.3580 0.3165 0.3650 0.3309 0.3743 0.3421 0.3803 0.3556 0.3848 0.3660 0.3858 0.3757 0.3839 0.3825 0.3785
 0.3872 0.3688 0.3889 0.3590 0.3880 0.3476 0.3852 0.3365 0.3811 0.3274 0.3751 0.3181 0.3692 0.3111 0.3614 0.3033
 0.3532 0.2957 0.3459 0.2892 0.3383 0.2829 0.3279 0.2754 0.3161 0.2691 0.3071 0.2647 0.2984 0.2612 0.2892 0.2583
       ] def
       
%  1 40 05  3 VALUE5
/xyan5 [                                                              
 0.2959 0.2905 0.2918 0.2908 0.2882 0.2923 0.2847 0.2942 0.2821 0.2966 0.2803 0.3000 0.2794 0.3032 0.2791 0.3071
 0.2796 0.3111 0.2812 0.3161 0.2841 0.3210 0.2880 0.3270 0.2910 0.3310 0.2945 0.3355 0.2978 0.3392 0.3030 0.3445
 0.3110 0.3508 0.3188 0.3560 0.3289 0.3612 0.3352 0.3636 0.3422 0.3648 0.3470 0.3640 0.3500 0.3620 0.3534 0.3570
 0.3546 0.3514 0.3540 0.3445 0.3530 0.3395 0.3506 0.3337 0.3465 0.3278 0.3425 0.3229 0.3392 0.3192 0.3360 0.3158
 0.3332 0.3131 0.3296 0.3098 0.3256 0.3065 0.3199 0.3019 0.3148 0.2986 0.3103 0.2959 0.3045 0.2928 0.3000 0.2912
       ] def
       
%  1 40 08  4 VALUE8
/xyan8 [                                                              
 0.3027 0.3035 0.3003 0.3034 0.2974 0.3039 0.2957 0.3047 0.2935 0.3062 0.2922 0.3077 0.2908 0.3096 0.2897 0.3124
 0.2894 0.3152 0.2900 0.3183 0.2919 0.3228 0.2940 0.3268 0.2957 0.3293 0.2981 0.3326 0.3009 0.3359 0.3053 0.3404
 0.3121 0.3459 0.3194 0.3502 0.3284 0.3542 0.3327 0.3555 0.3359 0.3552 0.3379 0.3540 0.3394 0.3518 0.3406 0.3484
 0.3407 0.3434 0.3395 0.3379 0.3373 0.3330 0.3334 0.3276 0.3301 0.3237 0.3277 0.3211 0.3254 0.3186 0.3236 0.3169
 0.3218 0.3152 0.3200 0.3136 0.3180 0.3120 0.3154 0.3100 0.3131 0.3084 0.3107 0.3070 0.3065 0.3047 0.3048 0.3040
       ] def
       
%  1 40 09  5 VALUE9
/xyan9 [                                                              
 0.3038 0.3054 0.3015 0.3052 0.2991 0.3057 0.2975 0.3063 0.2949 0.3076 0.2937 0.3087 0.2919 0.3102 0.2909 0.3125
 0.2907 0.3159 0.2911 0.3188 0.2930 0.3232 0.2947 0.3267 0.2965 0.3293 0.2987 0.3323 0.3017 0.3357 0.3058 0.3400
 0.3124 0.3454 0.3198 0.3500 0.3284 0.3534 0.3321 0.3539 0.3349 0.3537 0.3365 0.3527 0.3378 0.3504 0.3390 0.3472
 0.3392 0.3430 0.3380 0.3377 0.3353 0.3325 0.3320 0.3273 0.3284 0.3233 0.3263 0.3210 0.3240 0.3188 0.3210 0.3168
 0.3205 0.3155 0.3190 0.3141 0.3172 0.3126 0.3149 0.3108 0.3128 0.3094 0.3107 0.3081 0.3067 0.3060 0.3050 0.3051
       ] def

/XrMCR1 41 array def
/YrMCR1 41 array def
/ZrMCR1 41 array def
/xanCR1 41 array def
/yanCR1 41 array def
/zanCR1 41 array def

/XrMCR5 41 array def
/YrMCR5 41 array def
/ZrMCR5 41 array def
/xanCR5 41 array def
/yanCR5 41 array def
/zanCR5 41 array def

/XrMCR9 41 array def
/YrMCR9 41 array def
/ZrMCR9 41 array def
/xanCR9 41 array def
/yanCR9 41 array def
/zanCR9 41 array def

/XrMCRX 41 array def
/YrMCRX 41 array def
/ZrMCRX 41 array def
/xanCRX 41 array def
/yanCRX 41 array def
/zanCRX 41 array def

0 1 39 {/i exch def %i=0,39
        YrMCR1 i Ypr 0 get put
        xanCR1 i xyan1 i 2 mul       get put
        yanCR1 i xyan1 i 2 mul 1 add get put
        zanCR1 i 1 xanCR1 i get sub yanCR1 i get sub put
        /SUM  Ypr 0 get yanCR1 i get div def
        XrMCR1 i xanCR1 i get SUM mul put
        ZrMCR1 i xanCR1 i get SUM mul put
      } for %i=0,39

0 1 39 {/i exch def %i=0,39
        YrMCR5 i Ypr 4 get put
        xanCR5 i xyan5 i 2 mul       get put
        yanCR5 i xyan5 i 2 mul 1 add get put
        zanCR5 i 1 xanCR5 i get sub yanCR5 i get sub put
        /SUM  Ypr 4 get yanCR1 i get div def
        XrMCR5 i xanCR5 i get SUM mul put
        ZrMCR5 i xanCR5 i get SUM mul put
      } for %i=0,39

0 1 39 {/i exch def %i=0,39
        YrMCR9 i Ypr 8 get put
        xanCR9 i xyan9 i 2 mul       get put
        yanCR9 i xyan9 i 2 mul 1 add get put
        zanCR9 i 1 xanCR9 i get sub yanCR9 i get sub put
        /SUM  Ypr 8 get yanCR9 i get div def
        ZrMCR9 i xanCR9 i get SUM mul put
      } for %i=0,39
      
72 90 translate

0.01 MM dup scale

/xchart 0 def

/xchartl 1 def

gsave

200 /Times-ISOL1 FS
0 setgray
25 setlinewidth
/xwidth 5400 def
/ywidth 4000 def

0 0 xwidth ywidth 1.0 1.0 1.0 rgbrecfi %Rechteck Mittelgrau

25 setlinewidth

0 0 xwidth ywidth 0.0 0.0 0.0 rgbrecst %Rahmen Schwarz

100 /Times-ISOL1 FS
100 -090 moveto 
(eed90-4a) show

gsave

/x700 400 def

0100 3850 moveto
TBIL
(Munsell (Renotation)) showen
(Munsell (Renotation)) showde
TBL ( Chroma) showen (\255Buntheit) showde
TBIL ( C) show
TBL ( = 2 and Value) showen ( = 2 und Helligkeit (Value)) showde
TBIL ( V) show
TBL ( = ) show
0 1 0 setrgbcolor
TBL (1) show
0 setgray
(, ) show
1 0 0 setrgbcolor
(5) show
0 setgray
( und ) showde
(, and ) showen
0 0 1 setrgbcolor
(9) show
0 setgray

xchartl 0 eq {%xchartl=0
0100 3670 moveto
TBL (in chromaticity diagram ) showen
    (in Farbartdiagramm ) showde
TBL (\050) show
TBIL (p) show
TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show 
TBL (, ) show
TBIL (q) show
TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show 
TBL (\051) show

1200 3430 moveto
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
             } if %xchartl=0
             
xchartl 1 eq {%xchartl=1
0100 3670 moveto
TBL (in chroma diagram ) showen
    (in Buntheitsdiagramm ) showde
TBL (\050) show
TBIL (p*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBL (, ) show
TBIL (q*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBV (\051) show

0300 3430 moveto
TBIL (q*) show
TBV -30 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 0 50 rmoveto
TBL ( [) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL ((M)) show
TBL (\051] = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 30 50 rmoveto
TBL ( ) show
TBIL (q) show TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show
             } if %xchartl=1

25 setlinewidth
%circle
0 setgray

%new shift in middle
xchartl 0 eq {2000 1800 translate /ydt 250 def} if
xchartl 1 eq {2000 1800 translate /ydt 150 def} if

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

xchartl 0 eq 
xchartl 1 eq or {%xchartl=0,1

%TBS 700 700 moveto (TESTN0/1) show

/xchart6 1 def %0: no (1,1) test, 1: with (1,1) test
/xchart7 1 def %0:U, 1:M
/xchart8 0 def %0: xc=0,00, 1: xc=0,11
/xchart9 1 def %0: Bc=1,0, 1: Bc=0,8

xchart8 0 eq {/xc 0.00 def} if
xchart8 1 eq {/xc 0.11 def} if
xchart9 0 eq {/Bc 1.0 def} if
xchart9 1 eq {/Bc 0.8 def} if

/Aij 10 array def
/Bij 10 array def
/bij 9 array def
/aij 9 array def
/Bij [ 0.0000  1.0000  0.0000  %Dissertation, page 81 and 82
      -0.4139  1.4571 -2.4046
       2.9797 -2.6662 -0.0960] def
/Aij [ 0.9093 -0.0133  0.3338
       1.0000  0.0000  0.0000
       0.4494 -0.4136 -0.0574] def
/aij [ 0.9093 -0.0133  0.3338 %equation 4.2;10
       1.0000  0.0000  0.0000
       2.3587 -0.4269  0.2754] def
%x = [a11 + a12 p2 + a13 p3] / [a31 + a32 p2 + a33 p3]
%y = [a21 + a22 p2 + a23 p3] / [a31 + a32 p2 + a33 p3]
/bij [ 0.0000  1.0000  0.0000 %equation 4.2;14-15
       1.9907  3.8617 -2.4046
       3.0757 -2.5702 -0.0960] def
%p2 = 1/y [ b21 x + b22 y + b23]
%p3 = 1/y [ b31 x + b32 y + b33]

/xan 10 array def
/yan 10 array def
/XrM 10 array def
/ZrM 10 array def

0 1 9 {/j exch def %j=0,9; 9=surround
       xan j aij 0 get
             aij 1 get q2M j get mul add
             aij 2 get p2M j get mul add
             aij 6 get
             aij 7 get q2M j get mul add
             aij 8 get p2M j get mul add div
             put
       yan j aij 3 get
             aij 4 get q2M j get mul add
             aij 5 get p2M j get mul add
             aij 6 get
             aij 7 get q2M j get mul add
             aij 8 get p2M j get mul add div
             put

       /SUM  Ypr j get yan j get div def
       XrM j xan j get SUM mul put
       ZrM j 1 xan j get sub yan j get sub SUM mul put
      } for %j=0,9

1200 1900 moveto
TIL (p) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (=) show p20 cvsshow4 TL (, ) show
TIL (q) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (=) show q20 cvsshow4

1200 1650 moveto
TIL (x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (=) show xc cvsshow2 TL (, ) show
TIL (B) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (=) show Bc cvsshow2

xchartl 1 eq {%xchartl=1
TL (, ) show
TIL (c) show TV 0 -50 rmoveto (Y) show 0 50 rmoveto
TL (=0,91) show
TIL ( Y) show TV 50 50 rmoveto n cvsshow3 0 -50 rmoveto
} if %xchartl=1

0450 1400 moveto
TIL (p) show
TV 0 -50 rmoveto (2) show 0 50 rmoveto
TL (=p) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL (B) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL ([3,0757) show
TIL (\050x-x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (\051-2,5702) show
TIL ( y) show
TL (-0,0960]/) show
TIL (y) show

0450 1150 moveto
TIL (q) show 
TV 0 -50 rmoveto (2) show 0 50 rmoveto
TL (=q) show
TV 0 -50 rmoveto (20) show 0 50 rmoveto
TL ([1,9907) show
TIL ( \050x-x) show
TV 0 -50 rmoveto (c) show 0 50 rmoveto
TL (\051+3,8617) show
TIL ( y) show
TL (-2,4046]/) show
TIL (y) show

newpath
-1900 -0950 ydt sub moveto
TIV (x) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 0,313) show

-1900 -1200 ydt sub moveto
TIV (y) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 0,324) show

-1900 -1450 ydt sub moveto
TIV (Y) show
TV 000 -050 rmoveto (M) show 0 050 rmoveto
TV ( = 25,30) show

xchartl 0 eq {%xchartl=0
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
1800 0120 moveto
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
} if %xchartl=0

xchartl 1 eq {%xchartl=1
1800 0400 moveto
TBIL (p*) show
TBV -40 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show
TBL ( = ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 30 50 rmoveto
TBIL (p) show TBV 0 -50 rmoveto (2) show 20 50 rmoveto
TBIL ((F,M)) show

1800 0150 moveto
TBL (= ) show
TBIL (c) show TBV 0 -50 rmoveto (Y) show 0 50 rmoveto
TBL ( [) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((F)) show
TBL (-) show
TBIL (p) show TBV 0 -50 rmoveto (2) show 0 50 rmoveto
TBIL ((M)) show
TBL (]) show
} if %xchartl=1

0 setgray
-1800 0 moveto 5100  0 rlineto stroke
0 -1700  moveto 0 3000 rlineto stroke
3300 100 sub 50 moveto 100 -50 rlineto
                      -100 -50 rlineto closepath fill
-000 50 sub 1300 100 sub moveto 50  100 rlineto
                             50 -100 rlineto closepath fill

%x-axis
TL
0 1 4 {/i exch def %i=0,4
        -2000   i 1000   mul add  -50 moveto 0 100 rlineto stroke
        -2150   i 1000   mul add -220   moveto
%        i 0 eq {(-0,50) show} if
        i 1 eq {(-2,00) show} if
        i 3 eq {( 2,00) show} if
%        i 4 eq {( 0,50) show} if
       } for %i=0,4

%y-axis
0 1 2 {/i exch def %i=0,2
       -75 -1000 i 1000 mul    add moveto 150 0 rlineto stroke
       100 -1050 i 1000 mul    add moveto
       i 0 eq {(-2,00) show} if
       i 2 eq {( 2,00) show} if
       } for %i=0,2

/fakt1 005 def
/fakts 100 def
/faktx fakt1 fakts mul def

%test
xchart6 1 eq {%xchart6=1
newpath
1 0 1 setrgbcolor
-2.00 faktx mul
 2.00 faktx mul
30 0 360 arc fill
-2.00 faktx mul 250 sub
 2.00 faktx mul 150 add moveto
TL (-2, 2) show
0 setgray
             } if %xchart6=1

0 1 9 {/j exch def %j=0,9
        q2M j bij 3 get xan j get xc sub mul
              bij 4 get yan j get mul add
              bij 5 get add yan j get div q20 mul put
        p2M j bij 6 get xan j get xc sub mul
              bij 7 get yan j get mul add
              bij 8 get add yan j get div p20 mul put
      } for %j=0,9

/yd 130 def
0 setgray
1900 -200 moveto TBIL (V) show
2200 150 sub -200 moveto 
TBIL xchartl 0 eq {(p) show}{(p*) show -40 0 rmoveto} ifelse
TBV 0 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show
2800 100 sub -200 moveto 
TBIL xchartl 0 eq {(q) show}{(q*) show -40 0 rmoveto} ifelse
TBV 0 -60 rmoveto (2) show 0 60 rmoveto
TBIL ((F,M)) show

TV %Tabelle
0 1 9 {/j exch def %j=0,9
       1900 -390 yd j mul neg add moveto
       j 8 le {j 1 add cvishow} {(M) show} ifelse
       2200 -390 yd j mul neg add moveto
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if cvsshow3
       2800 -390 yd j mul neg add moveto
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if Bc mul cvsshow3
      } for %j=0,9

%chroma cero patches
newpath %9 shifts with faktx mul and arc
0 1 8 {/j exch def %j=0,8
       0 setgray
       j 0 eq {0 1 0 setrgbcolor} if
       j 4 eq {1 0 0 setrgbcolor} if
       j 8 eq {0 0 1 setrgbcolor} if
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if
                 faktx mul
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if
                 Bc mul faktx mul
       40 0 360 arc fill
      } for %j=0,8

newpath
0 setgray
0 4 8 {/j exch def %j=0,4,8
       j 0 eq {0 1 0 setrgbcolor} if
       j 4 eq {1 0 0 setrgbcolor} if
       j 8 eq {0 0 1 setrgbcolor} if
       p2M j get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if 
                 faktx mul 040 add j 8 eq {130 sub} if
       q2M j get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                 xchartl 1 eq {cYr j get mul} if 
                 Bc mul faktx mul 030 add j 8 eq {060 add} if
       moveto TV (V=) show j 1 add cvishow
      } for %j=0,4,8

/p2_CRX 41 array def
/q2_CRX 41 array def

0 setgray
newpath
%chroma circles
0 4 8  {/j exch def %j=0,4,8
        0 1 39 {/i exch def %i=0,39
        j 0 eq {%j=0
        q2_CRX i bij 3 get xanCR1 i get xc sub mul
                 bij 4 get yanCR1 i get mul add
                 bij 5 get add yanCR1 i get div q20 mul put
        p2_CRX i bij 6 get xanCR1 i get xc sub mul
                 bij 7 get yanCR1 i get mul add
                 bij 8 get add yanCR1 i get div p20 mul put} if %j=0
        j 4 eq {%j=4
        q2_CRX i bij 3 get xanCR5 i get xc sub mul
                 bij 4 get yanCR5 i get mul add
                 bij 5 get add yanCR5 i get div q20 mul put
        p2_CRX i bij 6 get xanCR5 i get xc sub mul
                 bij 7 get yanCR5 i get mul add
                 bij 8 get add yanCR5 i get div p20 mul put} if %j=4
        j 8 eq {%j=8
        q2_CRX i bij 3 get xanCR9 i get xc sub mul
                 bij 4 get yanCR9 i get mul add
                 bij 5 get add yanCR9 i get div q20 mul put
        p2_CRX i bij 6 get xanCR9 i get xc sub mul
                 bij 7 get yanCR9 i get mul add
                 bij 8 get add yanCR9 i get div p20 mul put} if %j=8
        } for %i=0,39

j 0 eq {0 1 0 setrgbcolor} if
j 4 eq {1 0 0 setrgbcolor} if
j 8 eq {0 0 1 setrgbcolor} if

0 1 39 {/i exch def %i=0,39
        p2_CRX i get xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse 
                     xchartl 1 eq {cYr j get mul} if faktx mul
        q2_CRX i get xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
                     xchartl 1 eq {cYr j get mul} if Bc mul faktx mul
        30 0 360 arc fill
       } for %i=0,39

0 1 39 {/i exch def %i=0,39
i 38 le {p2_CRX i get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX i get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if 
         Bc mul faktx mul moveto

         p2_CRX i 1 add get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX i 1 add get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul lineto stroke}

        {p2_CRX 39 get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX 39 get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul moveto

         p2_CRX 0 get
         xchart7 0 eq {p2M 9 get sub}{p2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         faktx mul

         q2_CRX 0 get
         xchart7 0 eq {q2M 9 get sub}{q2M j get sub} ifelse
         xchartl 1 eq {cYr j get mul} if
         Bc mul faktx mul lineto stroke} ifelse

       } for %i=0,39

        0 setgray

       } for %j=0,4,8


} if %xchartl=0,1


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

xchartl 0 eq {2000 neg 1800 neg translate} if
xchartl 1 eq {2000 neg 1800 neg translate} if

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%%EndDocument
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