%!PS-Adobe-3.0 EPSF-3.0 AG821-3A %%BoundingBox: 70 80 380 320 %START PDFDE011.EPS /pdfmark13 where {pop} {userdict /pdfmark13 /cleartomark load put} ifelse /languagelevel where {pop languagelevel} {1} ifelse 2 lt { userdict (<<) cvn ([) cvn load put userdict (>>) cvn (]) cvn load put} if [ /Title (PostScript pictures: http://farbe.li.tu-berlin.de/AG82/AG82.HTM) /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1) /Subject (goto: http://www.ps.bam.de or http://130.149.60.45/~farbmetrik) /Keywords (image reproduction, colour devices) /Creator (klaus.richter@mac.com) /CreationDate (D:2016060112000) /ModDate (D:20160601112000) /DOCINFO pdfmark13 [ /View [ /FitB ] /DOCVIEW pdfmark13 %END PDFDE011 %%Creator: K. Richter, BAM und TU Berlin, 2000.06.16 %%+Copyright (c) 1996 VDE-Verlag Berlin Offenbach /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def /str {8 string } bind def /languagelevel where {pop languagelevel} {1} ifelse /PSL12 exch def /dictende {counttomark 2 idiv dup dict begin {def} repeat pop currentdict end} bind def /Times-Roman findfont dup length dict begin {1 index /FID ne {def} {pop pop} ifelse }forall /Encoding ISOLatin1Encoding def currentdict end /Times-ISOL1 exch definefont pop /Times-Italic findfont dup length dict begin {1 index /FID ne {def} {pop pop} ifelse }forall /Encoding ISOLatin1Encoding def currentdict end /TimesI-ISOL1 exch definefont pop /Times-Bold findfont dup length dict begin {1 index /FID ne {def} {pop pop} ifelse }forall /Encoding ISOLatin1Encoding def currentdict end /TimesB-ISOL1 exch definefont pop /Times-BoldItalic findfont dup length dict begin {1 index /FID ne {def} {pop pop} ifelse }forall /Encoding ISOLatin1Encoding def currentdict end /TimesBI-ISOL1 exch definefont pop /rec %x, y width heigth {/heigth exch def /width exch def moveto width 0 rlineto 0 heigth rlineto width neg 0 rlineto closepath } bind def /TM {100 /Times-ISOL1 FS} bind def /TK {080 /Times-ISOL1 FS} bind def /inputS2L 17 array def /inputS2L %8-bit+1 equidistant units (default data) % 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 [000 016 032 048 064 080 096 112 128 144 160 176 192 208 224 240 256] bind def /CFileS2L %Start output Step S2 (www.ps.bam.de/Dg11/10L/L11g00NP.PDF) def %File name measured in step S2 /CDeviS2L (XrgbNP_D65_L) def %Local (L) Device name /CMeasS2L (L11g00NP.PDF) def %File measured /CDateS2L (20070202) def %Date of calculation/measurement /ouputS2AL 1224 array def %24x17x3=408*3=1224 /ouputS2AL [ %real adapted CIELAB output data L*a, a*a, b*a %Dg11_L070202XrNP.TXT %LABa*Lab %nr. r g b # 46.31 60.0 40.4 %a0 0 0 #O-W 46.32 60.2 39.3 %a1 0 1 # 46.18 60.6 37.3 %a2 0 2 # 47.07 60.0 34.0 %a3 0 3 # 48.61 58.4 30.4 %a4 0 4 # 50.73 55.6 26.0 %a5 0 5 # 53.31 51.8 22.8 %a6 0 6 # 56.86 46.7 20.7 %a7 0 7 # 60.66 41.1 18.9 %a8 0 8 # 64.94 34.8 17.4 %a9 0 9 # 70.57 27.0 14.4 %a10 0 10 # 75.58 21.2 10.6 %a11 0 11 # 80.14 15.9 8.3 %a12 0 12 # 84.12 11.4 6.3 %a13 0 13 # 88.35 6.7 4.0 %a14 0 14 # 89.98 3.2 1.9 %a15 0 15 # 95.41 0.0 0.0 %a16 0 16 # 90.9 -17.0 112.4 %a17 0 0 #Y-W 90.84 -17.0 112.7 %a18 0 1 # 90.76 -16.9 112.6 %a19 0 2 # 90.89 -16.9 111.9 %a20 0 3 # 90.98 -17.1 108.7 %a21 0 4 # 91.08 -17.2 105.1 %a22 0 5 # 91.13 -17.3 99.2 %a23 0 6 # 91.54 -17.0 89.7 %a24 0 7 # 91.93 -16.1 75.8 %a25 0 8 # 92.32 -15.2 66.4 %a26 0 9 # 92.64 -14.0 57.1 %a27 0 10 # 93.02 -12.8 48.1 %a28 0 11 # 93.34 -11.6 41.2 %a29 0 12 # 93.88 -9.0 29.4 %a30 0 13 # 94.37 -6.3 19.0 %a31 0 14 # 94.95 -3.3 9.0 %a32 0 15 # 95.43 -0.1 0.0 %a33 0 16 # 45.71 -67.5 36.2 %a34 0 0 #L-W 45.33 -66.8 36.0 %a35 0 1 # 45.49 -66.6 36.6 %a36 0 2 # 45.56 -66.2 36.6 %a37 0 3 # 45.84 -65.1 37.3 %a38 0 4 # 45.74 -65.4 37.2 %a39 0 5 # 47.36 -63.5 38.4 %a40 0 6 # 49.94 -60.1 38.8 %a41 0 7 # 53.03 -55.9 36.0 %a42 0 8 # 57.18 -50.0 28.9 %a43 0 9 # 62.11 -42.1 22.3 %a44 0 10 # 67.57 -35.3 20.9 %a45 0 11 # 74.04 -27.7 20.2 %a46 0 12 # 80.4 -21.1 19.7 %a47 0 13 # 85.76 -14.2 12.7 %a48 0 14 # 90.63 -7.2 5.2 %a49 0 15 # 95.52 0.0 0.1 %a50 0 16 # 51.16 -15.8 -52.6 %a51 0 0 #C-W 51.01 -15.6 -52.9 %a52 0 1 # 50.76 -15.3 -52.9 %a53 0 2 # 51.06 -15.4 -52.8 %a54 0 3 # 51.68 -15.7 -52.5 %a55 0 4 # 52.68 -16.3 -51.4 %a56 0 5 # 55.1 -16.3 -49.0 %a57 0 6 # 57.03 -16.4 -45.5 %a58 0 7 # 58.58 -15.9 -41.0 %a59 0 8 # 60.94 -15.5 -36.8 %a60 0 9 # 64.91 -13.9 -31.0 %a61 0 10 # 68.6 -12.2 -26.4 %a62 0 11 # 74.29 -10.4 -21.3 %a63 0 12 # 81.02 -8.4 -15.5 %a64 0 13 # 87.02 -5.9 -10.0 %a65 0 14 # 91.06 -3.3 -5.6 %a66 0 15 # 95.39 0.0 -0.1 %a67 0 16 # 38.21 2.0 -49.1 %a68 0 0 #V-W 36.95 3.3 -49.0 %a69 0 1 # 36.89 3.6 -49.0 %a70 0 2 # 37.16 3.5 -48.8 %a71 0 3 # 38.96 2.3 -48.5 %a72 0 4 # 42.92 1.1 -46.4 %a73 0 5 # 47.36 1.0 -43.2 %a74 0 6 # 52.27 0.0 -40.1 %a75 0 7 # 58.16 0.0 -35.5 %a76 0 8 # 63.85 -0.2 -31.0 %a77 0 9 # 69.86 -0.1 -25.4 %a78 0 10 # 74.85 -1.1 -21.2 %a79 0 11 # 79.85 -0.2 -16.7 %a80 0 12 # 83.2 0.3 -13.0 %a81 1 13 # 86.45 1.4 -9.5 %a82 1 14 # 88.41 2.0 -7.0 %a83 1 15 # 95.54 -0.1 0.2 %a84 1 16 # 46.14 71.3 -6.4 %a85 1 0 #M-W 46.32 71.4 -6.6 %a86 1 1 # 46.7 70.9 -6.8 %a87 1 2 # 47.0 70.4 -7.2 %a88 1 3 # 47.36 68.7 -8.7 %a89 1 4 # 48.8 65.4 -10.7 %a90 1 5 # 51.12 61.0 -10.9 %a91 1 6 # 55.15 55.1 -11.7 %a92 1 7 # 58.77 50.7 -11.2 %a93 1 8 # 63.9 43.8 -10.7 %a94 1 9 # 69.2 35.8 -9.4 %a95 1 10 # 74.29 27.2 -8.8 %a96 1 11 # 78.13 20.2 -8.5 %a97 1 12 # 81.99 14.0 -7.9 %a98 1 13 # 86.39 7.7 -6.6 %a99 1 14 # 89.94 4.5 -4.4 %a100 1 15 # 95.45 0.0 0.0 %a101 1 16 # 21.66 0.0 0.0 %a102 1 0 #N-W (rgb) 22.63 0.0 0.0 %a103 1 1 # 24.84 0.0 0.1 %a104 1 2 # 29.1 0.0 0.0 %a105 1 3 # 34.68 0.0 0.0 %a106 1 4 # 40.83 0.0 0.0 %a107 1 5 # 45.62 0.0 0.2 %a108 1 6 # 52.51 0.0 0.1 %a109 1 7 # 58.69 0.0 0.2 %a110 1 8 # 64.46 0.0 0.2 %a111 1 9 # 69.36 0.0 0.2 %a112 1 10 # 74.31 0.0 0.2 %a113 1 11 # 79.14 0.0 0.1 %a114 1 12 # 82.99 0.0 0.0 %a115 1 13 # 86.43 0.0 0.1 %a116 1 14 # 89.67 0.0 0.2 %a117 1 15 # 95.46 0.0 0.0 %a118 1 16 # 22.02 0.0 0.0 %a119 1 0 #O-N 21.55 2.1 -0.5 %a120 1 1 # 21.64 4.8 0.7 %a121 1 2 # 23.55 8.5 4.2 %a122 1 3 # 26.41 13.3 9.9 %a123 1 4 # 30.44 16.7 18.0 %a124 1 5 # 33.05 22.8 23.4 %a125 1 6 # 34.65 28.2 27.1 %a126 1 7 # 36.38 33.4 29.7 %a127 1 8 # 37.48 37.3 32.0 %a128 1 9 # 38.73 41.6 34.0 %a129 1 10 # 39.93 44.7 35.5 %a130 1 11 # 41.41 48.6 36.7 %a131 1 12 # 42.94 52.1 38.2 %a132 1 13 # 44.3 54.9 38.0 %a133 1 14 # 45.58 58.3 38.1 %a134 1 15 # 46.32 60.5 37.8 %a135 1 16 # 21.96 0.0 0.0 %a136 1 0 #Y-N 22.18 -0.8 2.4 %a137 1 1 # 26.17 -3.5 11.0 %a138 1 2 # 32.4 -5.2 22.2 %a139 1 3 # 37.96 -7.0 31.3 %a140 1 4 # 43.35 -8.7 40.5 %a141 1 5 # 48.36 -9.7 48.8 %a142 1 6 # 53.26 -10.6 55.6 %a143 1 7 # 58.67 -11.7 63.9 %a144 1 8 # 62.56 -12.4 69.9 %a145 1 9 # 66.46 -13.0 75.7 %a146 1 10 # 69.58 -14.1 80.1 %a147 1 11 # 73.19 -14.3 85.4 %a148 1 12 # 76.22 -14.8 89.6 %a149 1 13 # 79.01 -15.5 93.5 %a150 1 14 # 82.67 -15.8 99.2 %a151 1 15 # 90.87 -17.2 111.7 %a152 1 16 # 21.91 0.0 0.0 %a153 1 0 #L-N 21.32 -0.9 -0.3 %a154 1 1 # 22.11 -3.5 0.6 %a155 1 2 # 24.82 -8.6 5.3 %a156 1 3 # 28.72 -17.3 12.3 %a157 1 4 # 31.48 -28.4 18.1 %a158 1 5 # 34.58 -38.0 22.3 %a159 1 6 # 36.11 -45.2 24.2 %a160 1 7 # 38.21 -49.9 26.2 %a161 1 8 # 40.07 -54.7 28.5 %a162 2 9 # 41.79 -59.1 30.7 %a163 2 10 # 42.62 -62.9 31.8 %a164 2 11 # 43.38 -65.0 32.9 %a165 2 12 # 43.99 -66.6 33.1 %a166 2 13 # 44.32 -67.1 33.8 %a167 2 14 # 45.1 -67.2 34.4 %a168 2 15 # 46.01 -67.2 36.0 %a169 2 16 # 20.66 -0.1 -0.3 %a170 2 0 #C-N 20.25 -1.2 -4.4 %a171 2 1 # 20.56 -1.9 -7.8 %a172 2 2 # 22.72 -3.9 -13.0 %a173 2 3 # 25.97 -6.9 -16.4 %a174 2 4 # 27.83 -11.0 -18.2 %a175 2 5 # 30.08 -15.1 -19.2 %a176 2 6 # 32.72 -17.2 -22.5 %a177 2 7 # 36.46 -19.9 -26.2 %a178 2 8 # 39.63 -21.9 -29.4 %a179 2 9 # 42.62 -23.0 -33.1 %a180 2 10 # 45.39 -24.5 -35.8 %a181 2 11 # 46.85 -24.7 -38.6 %a182 2 12 # 48.32 -24.8 -40.4 %a183 2 13 # 48.27 -23.7 -41.5 %a184 2 14 # 49.34 -22.9 -43.4 %a185 2 15 # 50.86 -15.1 -53.0 %a186 2 16 # 20.35 -0.1 -0.3 %a187 2 0 #V-N 19.47 -0.5 -4.7 %a188 2 1 # 19.25 -0.5 -7.9 %a189 2 2 # 20.1 -0.9 -11.8 %a190 2 3 # 22.05 -1.2 -17.4 %a191 2 4 # 24.33 -0.8 -22.9 %a192 2 5 # 25.71 0.2 -26.9 %a193 2 6 # 26.95 0.9 -30.0 %a194 2 7 # 27.94 1.8 -33.1 %a195 2 8 # 29.16 2.7 -36.0 %a196 2 9 # 30.99 3.8 -39.8 %a197 2 10 # 32.66 4.4 -43.0 %a198 2 11 # 33.81 5.2 -45.5 %a199 2 12 # 35.01 5.3 -47.4 %a200 2 13 # 36.61 4.2 -49.0 %a201 2 14 # 37.17 3.3 -49.2 %a202 2 15 # 38.83 1.2 -49.3 %a203 2 16 # 20.76 -0.1 -0.3 %a204 2 0 #M-N 19.49 2.0 -4.2 %a205 2 1 # 19.9 6.6 -6.0 %a206 2 2 # 21.82 15.4 -10.1 %a207 2 3 # 23.7 22.3 -13.7 %a208 2 4 # 25.24 28.4 -16.8 %a209 2 5 # 26.95 32.9 -18.3 %a210 2 6 # 29.23 37.5 -19.4 %a211 2 7 # 30.74 41.7 -19.3 %a212 2 8 # 32.63 45.5 -18.6 %a213 2 9 # 34.82 49.9 -16.8 %a214 2 10 # 37.08 54.5 -15.8 %a215 2 11 # 39.32 58.9 -12.9 %a216 2 12 # 41.71 63.0 -11.7 %a217 2 13 # 43.59 66.7 -10.2 %a218 2 14 # 44.4 68.1 -9.2 %a219 2 15 # 46.19 71.3 -6.3 %a220 2 16 # 21.27 -0.1 -0.2 %a221 2 0 #N-W (setgray) 24.0 0.0 -0.1 %a222 2 1 # 26.6 0.0 0.0 %a223 2 2 # 32.11 0.0 0.0 %a224 2 3 # 36.76 0.0 0.1 %a225 2 4 # 42.56 0.0 -0.1 %a226 2 5 # 47.22 0.0 0.0 %a227 2 6 # 51.9 0.0 0.1 %a228 2 7 # 56.81 -0.1 0.3 %a229 2 8 # 63.18 -0.1 0.0 %a230 2 9 # 67.38 0.0 0.0 %a231 2 10 # 71.71 0.0 0.3 %a232 2 11 # 75.93 0.0 0.1 %a233 2 12 # 81.11 0.0 0.1 %a234 2 13 # 85.09 0.0 0.1 %a235 2 14 # 89.11 0.0 0.0 %a236 2 15 # 95.51 -0.1 0.0 %a237 2 16 # 46.33 60.2 39.9 %a238 2 0 #O-C 45.79 58.4 36.2 %a239 2 1 # 44.28 55.0 31.1 %a240 2 2 # 43.58 50.4 23.8 %a241 2 3 # 44.62 43.7 18.6 %a242 2 4 # 46.11 32.9 13.8 %a243 3 5 # 49.61 19.9 9.5 %a244 3 6 # 55.4 7.8 2.8 %a245 3 7 # 58.35 0.0 0.1 %a246 3 8 # 57.33 -8.3 -8.1 %a247 3 9 # 50.67 -15.4 -18.0 %a248 3 10 # 47.25 -20.0 -26.6 %a249 3 11 # 46.52 -22.1 -35.1 %a250 3 12 # 48.01 -23.5 -40.2 %a251 3 13 # 47.36 -20.6 -43.5 %a252 3 14 # 47.94 -20.2 -45.1 %a253 3 15 # 49.63 -14.1 -53.5 %a254 3 16 # 90.81 -17.0 112.2 %a255 3 0 #Y-V 84.31 -15.3 101.7 %a256 3 1 # 81.15 -15.3 94.4 %a257 3 2 # 78.35 -14.7 84.6 %a258 3 3 # 75.0 -13.8 70.5 %a259 3 4 # 72.2 -11.8 52.0 %a260 3 5 # 68.08 -9.3 34.7 %a261 3 6 # 65.12 -5.7 18.7 %a262 3 7 # 57.56 0.0 0.0 %a263 3 8 # 53.9 -0.2 -13.3 %a264 3 9 # 49.23 -1.7 -23.6 %a265 3 10 # 42.61 -0.3 -33.6 %a266 3 11 # 36.79 2.9 -41.5 %a267 3 12 # 34.47 5.3 -45.9 %a268 3 13 # 35.17 5.7 -48.3 %a269 3 14 # 36.47 4.2 -48.8 %a270 3 15 # 38.23 1.6 -49.6 %a271 3 16 # 47.49 -66.7 39.0 %a272 3 0 #L-M 47.77 -65.6 38.7 %a273 3 1 # 47.48 -66.2 38.0 %a274 3 2 # 47.98 -65.9 38.5 %a275 3 3 # 48.93 -58.9 35.8 %a276 3 4 # 50.66 -47.2 27.3 %a277 3 5 # 53.87 -31.6 18.3 %a278 3 6 # 58.03 -15.2 13.8 %a279 3 7 # 57.92 0.0 0.1 %a280 3 8 # 51.85 9.7 -10.7 %a281 3 9 # 45.66 24.8 -17.2 %a282 3 10 # 42.69 37.7 -19.2 %a283 3 11 # 40.98 50.6 -17.4 %a284 3 12 # 41.4 59.2 -14.1 %a285 3 13 # 43.68 66.0 -11.4 %a286 3 14 # 44.0 68.3 -8.6 %a287 3 15 # 45.88 71.5 -5.8 %a288 3 16 # 46.15 60.2 39.2 %a289 3 0 #R-J-G-B-R 46.99 58.3 45.9 %a290 3 1 # 56.35 41.7 62.8 %a291 3 2 # 75.9 7.2 90.6 %a292 3 3 # 90.76 -16.9 112.4 %a293 3 4 # 76.62 -31.5 88.0 %a294 3 5 # 55.6 -54.5 52.3 %a295 3 6 # 48.64 -63.4 41.1 %a296 3 7 # 47.34 -65.1 38.4 %a297 3 8 # 48.22 -64.5 35.9 %a298 3 9 # 52.07 -16.4 -52.4 %a299 3 10 # 45.98 -7.2 -50.2 %a300 3 11 # 39.15 1.1 -49.3 %a301 3 12 # 33.5 19.1 -43.4 %a302 3 13 # 46.15 71.5 -6.2 %a303 3 14 # 46.03 67.5 7.0 %a304 3 15 # 46.19 60.8 36.4 %a305 3 16 # 35.82 34.4 29.4 %a306 3 0 #R-J-G-B-Rn 36.91 30.7 31.1 %a307 3 1 # 41.28 20.1 38.2 %a308 3 2 # 51.66 0.1 54.2 %a309 3 3 # 59.63 -12.0 66.0 %a310 3 4 # 54.99 -21.4 57.0 %a311 3 5 # 45.58 -37.8 39.7 %a312 3 6 # 40.66 -47.3 30.7 %a313 3 7 # 38.47 -50.0 26.9 %a314 3 8 # 33.78 -38.1 16.0 %a315 3 9 # 36.96 -19.9 -26.8 %a316 3 10 # 32.15 -4.1 -35.4 %a317 3 11 # 28.39 1.4 -34.2 %a318 3 12 # 26.01 15.0 -40.1 %a319 3 13 # 30.35 41.8 -20.7 %a320 3 14 # 31.78 40.2 1.2 %a321 3 15 # 36.13 34.0 29.6 %a322 3 16 # 61.65 40.1 18.3 %a323 3 0 #R-J-G-B-Rw 70.51 23.3 29.4 %a324 4 1 # 77.97 9.4 42.3 %a325 4 2 # 86.59 -4.8 54.9 %a326 4 3 # 92.13 -16.2 74.7 %a327 4 4 # 84.8 -23.5 64.8 %a328 4 5 # 72.74 -34.3 52.4 %a329 4 6 # 61.69 -46.2 41.5 %a330 4 7 # 56.1 -53.4 38.6 %a331 4 8 # 59.52 -43.5 12.4 %a332 4 9 # 60.8 -15.8 -39.0 %a333 4 10 # 62.92 -8.3 -28.7 %a334 4 11 # 58.81 -0.3 -35.5 %a335 4 12 # 54.78 23.8 -26.5 %a336 4 13 # 61.04 47.4 -11.7 %a337 4 14 # 58.96 43.8 -3.8 %a338 4 15 # 62.95 38.0 17.6 %a339 4 16 # %Copied from AG821-7A and AG821-7A 22.63 0.2 7.1 %a221 2 0 #N-W (000n*) 25.07 0.3 7.2 %a222 2 1 # 28.14 0.3 6.9 %a223 2 2 # 33.32 0.2 6.3 %a224 2 3 # 37.89 0.2 5.9 %a225 2 4 # 43.24 0.1 5.3 %a226 2 5 # 47.24 0.1 4.8 %a227 2 6 # 52.56 0.1 4.4 %a228 2 7 # 58.4 0.0 3.9 %a229 2 8 # 63.43 0.1 3.2 %a230 2 9 # 68.78 0.0 2.7 %a231 2 10 # 73.49 0.0 2.5 %a232 2 11 # 76.85 0.1 1.9 %a233 2 12 # 81.69 0.0 1.6 %a234 2 13 # 85.35 0.0 1.0 %a235 2 14 # 88.92 0.0 0.7 %a236 2 15 # 95.42 0.0 0.2 %a237 2 16 # 21.27 -0.1 -0.2 %a221 2 0 #N-W (setgray) 24.0 0.0 -0.1 %a222 2 1 # 26.6 0.0 0.0 %a223 2 2 # 32.11 0.0 0.0 %a224 2 3 # 36.76 0.0 0.1 %a225 2 4 # 42.56 0.0 -0.1 %a226 2 5 # 47.22 0.0 0.0 %a227 2 6 # 51.9 0.0 0.1 %a228 2 7 # 56.81 -0.1 0.3 %a229 2 8 # 63.18 -0.1 0.0 %a230 2 9 # 67.38 0.0 0.0 %a231 2 10 # 71.71 0.0 0.3 %a232 2 11 # 75.93 0.0 0.1 %a233 2 12 # 81.11 0.0 0.1 %a234 2 13 # 85.09 0.0 0.1 %a235 2 14 # 89.11 0.0 0.0 %a236 2 15 # 95.51 -0.1 0.0 %a237 2 16 # 26.94 0.0 0.0 %a102 1 0 #N-W (cmy) 29.22 -0.7 1.1 %a103 1 1 # 31.43 -1.6 1.0 %a104 1 2 # 34.09 -1.8 0.5 %a105 1 3 # 36.24 -2.0 2.0 %a106 1 4 # 38.84 -1.8 2.1 %a107 1 5 # 42.58 -1.4 3.0 %a108 1 6 # 47.28 -2.6 4.6 %a109 1 7 # 51.87 -1.8 6.1 %a110 1 8 # 56.74 -1.4 7.2 %a111 1 9 # 61.3 -0.8 7.2 %a112 1 10 # 65.35 -0.9 6.5 %a113 1 11 # 70.02 -0.4 6.3 %a114 1 12 # 75.3 -0.2 5.9 %a115 1 13 # 80.75 -1.3 5.2 %a116 1 14 # 85.12 0.3 1.9 %a117 1 15 # 95.41 0.0 0.0 %a118 1 16 # 21.66 0.0 0.0 %a102 1 0 #N-W (rgb) 22.63 0.0 0.0 %a103 1 1 # 24.84 0.0 0.1 %a104 1 2 # 29.1 0.0 0.0 %a105 1 3 # 34.68 0.0 0.0 %a106 1 4 # 40.83 0.0 0.0 %a107 1 5 # 45.62 0.0 0.2 %a108 1 6 # 52.51 0.0 0.1 %a109 1 7 # 58.69 0.0 0.2 %a110 1 8 # 64.46 0.0 0.2 %a111 1 9 # 69.36 0.0 0.2 %a112 1 10 # 74.31 0.0 0.2 %a113 1 11 # 79.14 0.0 0.1 %a114 1 12 # 82.99 0.0 0.0 %a115 1 13 # 86.43 0.0 0.1 %a116 1 14 # 89.67 0.0 0.2 %a117 1 15 # 95.46 0.0 0.0 %a118 1 16 # ] def %eigth device dependent colours adapted /LAB*ad 24 array def %device data adapted /LAB*Hd 08 array def %device hue data adapted /xchartX [(O) (Y) (L) (C) (V) (M) (N) (N) (N) (N) (N) (N) (N) (N) (O) (Y) (L) (R) (Rn) (Rw) (N) (N) (N) (N)] def /xchartW [(W) (W) (W) (W) (W) (W) (W) (O) (Y) (L) (C) (V) (M) (W) (C) (V) (M) (R) (Rn) (Rw) (W) (W) (W) (W)] def /ouputSA 17 array def /ouputS2A 1224 array def /ouputS2 51 array def %relative equidistand CIELAB units (default data) /LAB*17w_LAB*LCHAB-M {%BEG Procedure LAB*17w_LAB*LCHAB-M %for exmample to calculate 51 data LAB*51 for 17 hue elementary angles LAB*17w %input lab*h-M = LAB*H-M /360 = LAB*17w %required data: LAB*ad-M, LAB*Hd-M %output LAB*LCHAB-M %maximal device colour for input hue angle /lab*hMq exch def /col_AnMq lab*hMq 360 mul def /i*paMq 0 def /IEND 0 def col_AnMq 0 ge col_AnMq LAB*Hd 0 get lt and {/col_AnMq col_AnMq 360 add def} if 0 1 5 {/jH exch def %jH=0,5 col_AnMq LAB*Hd jH get ge col_AnMq LAB*Hd jH 1 add get lt and IEND 0 eq and {/i*paMq jH def /A*AnMq LAB*Hd jH get def /B*AnMq LAB*Hd jH 1 add get def /IEND 1 def exit} if } for %jH=0,5 %IEND 0 eq { 350 /TimesB-ISOL1 FS 500 1000 moveto lab*hMq cvsshow2 %(; IEND=0 Failure) show} if /i*paMq1 i*paMq 3 mul def /i*paMq2 i*paMq 4 le {i*paMq1 3 add} {0} ifelse def /LAB*Rs 77.40 def %default SRS28 /LAB*Ls 56.71 def %default SRS28 /LAB*As {LAB*Rs col_AnMq cos mul} bind def /LAB*Bs {LAB*Rs col_AnMq sin mul} bind def %used LAB*LABs %default 100 %to calculate LAB*LCHABMq (M=Maximalfarbe) /LAB*L1 {LAB*ad i*paMq1 0 add get} bind def /LAB*A1 {LAB*ad i*paMq1 1 add get} bind def /LAB*B1 {LAB*ad i*paMq1 2 add get} bind def /LAB*L2 {LAB*ad i*paMq2 0 add get} bind def /LAB*A2 {LAB*ad i*paMq2 1 add get} bind def /LAB*B2 {LAB*ad i*paMq2 2 add get} bind def %LAB*Awnad=LAB*ad 22 get LAB*ad 19 get sub=0 and similar for LAB*Bwnad=0 /UXF1a 0 def /UXF2a {LAB*ad 21 get LAB*ad 18 get sub LAB*Bs mul neg} bind def /UXF3a {LAB*ad 21 get LAB*ad 18 get sub LAB*As mul} bind def %/NENNER LAB*L2 LAB*L1 sub UXF1a mul = 0 /NENNER { LAB*A2 LAB*A1 sub UXF2a mul LAB*B2 LAB*B1 sub UXF3a mul add} bind def %/ZAEHLE LAB*L2 UXF1a mul = 0 /ZAEHLE { LAB*A2 UXF2a mul LAB*B2 UXF3a mul add} bind def NENNER 0 ne {/alphav {ZAEHLE NENNER div} bind def} {/alphav 99999 def STOP Fehler alphav} ifelse /betav {1 alphav sub} bind def /LAB*LMq {alphav LAB*L1 mul betav LAB*L2 mul add} bind def /LAB*AMq {alphav LAB*A1 mul betav LAB*A2 mul add} bind def /LAB*BMq {alphav LAB*B1 mul betav LAB*B2 mul add} bind def /LAB*CMq {LAB*AMq dup mul LAB*BMq dup mul add 0.000001 add sqrt} bind def /LAB*HMq {LAB*BMq LAB*AMq 0.000001 add atan} bind def } def %END Procedure LAB*17w_LAB*LCHAB-M /cvishow {0.5 add cvi %new980310 dup 0 ge {( ) show} if dup abs 10 lt {( ) show} if 7 string cvs show} def /cvsshow0 {10 mul 0.5 add cvi 0.1 mul 7 string cvs show} def /cvsshow1 {10 mul 0.5 add cvi 0.1 mul %new980310 dup 0 ge {( ) show} if dup abs 10 lt {( ) show} if 7 string cvs show} def /cvsshow2 {100 mul 0.5 add cvi 0.01 mul %new980310 dup 0 ge {( ) show} if dup abs 10 lt {( ) show} if 7 string cvs show} def /cvsshow3 {1000 mul 0.5 add cvi 0.001 mul 7 string cvs show} def /nshow {110 /Times-ISOL1 FS show} def /bshow {110 /TimesB-ISOL1 FS show} def /gshow {132 /TimesB-ISOL1 FS show} def /bishow {110 /TimesBI-ISOL1 FS show} def /ishow { 90 /TimesB-ISOL1 FS show} def /sshow {110 /Symbol FS show} def /lanind 1 def /lantex [(G) (E) (S) (F) (I) (J)] def /showde {0 lanind eq {show} {pop} ifelse} bind def /nshowde {0 lanind eq {nshow} {pop} ifelse} bind def /bshowde {0 lanind eq {bshow} {pop} ifelse} bind def /gshowde {0 lanind eq {gshow} {pop} ifelse} bind def /bishowde {0 lanind eq {bishow} {pop} ifelse} bind def /ishowde {0 lanind eq {ishow} {pop} ifelse} bind def /sshowde {0 lanind eq {sshow} {pop} ifelse} bind def /showen {1 lanind eq {show} {pop} ifelse} bind def /nshowen {1 lanind eq {nshow} {pop} ifelse} bind def /bshowen {1 lanind eq {bshow} {pop} ifelse} bind def /gshowen {1 lanind eq {gshow} {pop} ifelse} bind def /bishowen {1 lanind eq {bishow} {pop} ifelse} bind def /ishowen {1 lanind eq {ishow} {pop} ifelse} bind def /sshowen {1 lanind eq {sshow} {pop} ifelse} bind def %%EndProlog gsave /lanindf where {pop /lanind1 lanindf def /lanind2 lanindf def} {/lanind1 0 def /lanind2 0 def} ifelse /colormf where {pop /colorm1 colormf def /colorm2 colormf def} {/colorm1 0 def /colorm2 0 def} ifelse /xcolorf where {pop /xcolor1 xcolorf def /xcolor2 xcolorf def} {/xcolor1 0 def /xcolor2 0 def} ifelse /xchartf where {pop /xchart1 xchartf def /xchart2 xchartf def} {/xchart1 0 def /xchart2 0 def} ifelse /lanind lanind1 def %lanind1 1 lanind2 {/lanind exch def %output showpage /colorm colorm1 def %colorm1 1 colorm2 {/colorm exch def %output showpage /xcolor xcolor1 def %xcolor1 1 xcolor2 {/xcolor exch def %output showpage /xchart xchart1 def %xchart1 1 xchart2 {/xchart exch def %output showpage /inputS2G where {pop /inputS2 inputS2G def} {/inputS2 inputS2L def} ifelse /ouputS2AG where {pop /ouputS2A ouputS2AG def} {/ouputS2A ouputS2AL def} ifelse /CFileS2G where {pop /CFileS2 CFileS2G def} {/CFileS2 CFileS2L def} ifelse /CDeviS2G where {pop /CDeviS2 CDeviS2G def} {/CDeviS2 CDeviS2L def} ifelse /CMeasS2G where {pop /CMeasS2 CMeasS2G def} {/CMeasS2 CMeasS2L def} ifelse /CDateS2G where {pop /CDateS2 CDateS2G def} {/CDateS2 CDateS2L def} ifelse 72 90 translate 0.02 MM dup scale 00 1 23 {/xchart exch def %xchart=0,23 gsave 100 /Times-ISOL1 FS 25 -90 moveto (AG821-3A, ) show (Ger\344t: ) showde (; Device: ) showen CDeviS2 show (; Messung: ) showde (; Measurement: ) showen CMeasS2 show (; Datum: ) showde (; Date: ) showen CDateS2 show 15 setlinewidth 0 1 50 {/i exch def %i=0,50 ouputS2 i ouputS2A i xchart 51 mul add get put } for %i=0,50 xchart 13 le xchart 20 ge or {%xchart<=13 or xchart>=20 /delta_S ouputS2 48 get ouputS2 0 get sub dup mul ouputS2 49 get ouputS2 1 get sub dup mul add ouputS2 50 get ouputS2 2 get sub dup mul add sqrt def 0 1 16 {/i exch def %i=0,16 /delta_E ouputS2 i 3 mul get ouputS2 0 get sub dup mul ouputS2 i 3 mul 1 add get ouputS2 1 get sub dup mul add ouputS2 i 3 mul 2 add get ouputS2 2 get sub dup mul add sqrt def ouputSA i delta_E delta_S div put } for %i=0,16 } if %xchart<=13 or xchart>=20 xchart 14 ge xchart 16 le and {%14<=xchart<=16 /delta_SXZ ouputS2 24 get ouputS2 0 get sub dup mul ouputS2 25 get ouputS2 1 get sub dup mul add ouputS2 26 get ouputS2 2 get sub dup mul add sqrt def /delta_SZX ouputS2 48 get ouputS2 24 get sub dup mul ouputS2 49 get ouputS2 25 get sub dup mul add ouputS2 50 get ouputS2 26 get sub dup mul add sqrt def 0 1 09 {/i exch def %i=0,9 /delta_E ouputS2 i 3 mul get ouputS2 0 get sub dup mul ouputS2 i 3 mul 1 add get ouputS2 1 get sub dup mul add ouputS2 i 3 mul 2 add get ouputS2 2 get sub dup mul add sqrt def ouputSA i delta_E delta_SXZ div 0.5 mul put } for %i=0,9 9 1 16 {/i exch def %i=9,16 /delta_E ouputS2 i 3 mul get ouputS2 24 get sub dup mul ouputS2 i 3 mul 1 add get ouputS2 25 get sub dup mul add ouputS2 i 3 mul 2 add get ouputS2 26 get sub dup mul add sqrt def ouputSA i delta_E delta_SZX div 0.5 mul 0.5 add put } for %i=9,16 } if %14<=xchart<=16 xchart 17 ge xchart 19 le and {%17<=xchart<=19 /LAB*17w 17 array def /angRJGCBM [25 92 162 272 385] def %25,92,162,272 from CIE n. 8,9,10,11 for D65 0 1 03 {/sISO exch def %sISO=0,3 /i40 sISO 4 mul def 0 1 3 {/iw exch def %iw=0,3 LAB*17w i40 iw add angRJGCBM sISO get %25 sub angRJGCBM sISO 1 add get angRJGCBM sISO get sub iw 0.25 mul mul add put } for %iw=0,3 } for %sISO=0,3 LAB*17w 16 LAB*17w 0 get 360 add put 0 1 7 {/sISi exch def /i30 sISi 3 mul def /i31 i30 1 add def /i32 i30 2 add def /im0 i30 17 mul def /im1 im0 1 add def /im2 im0 2 add def sISi 7 eq {/im0 im0 3 sub def %white of row N-W /im1 im1 3 sub def /im2 im2 3 sub def} if LAB*ad i30 ouputS2A im0 get put LAB*ad i31 ouputS2A im1 get put LAB*ad i32 ouputS2A im2 get put LAB*Hd sISi LAB*ad i32 get LAB*ad i31 get 0.000001 add atan put } for LAB*Hd 06 LAB*Hd 00 get 360 add put /LAB*51 51 array def 0 1 16 {/sISi exch def /i30 sISi 3 mul def /i31 i30 1 add def /i32 i30 2 add def /lab*h LAB*17w sISi get 360 div def lab*h %BEG procedure LAB*17w_LAB*LCHAB-M %End Procedure xchart 17 eq {LAB*51 i30 LAB*LMq put LAB*51 i31 LAB*AMq put LAB*51 i32 LAB*BMq put} if xchart 18 eq {LAB*51 i30 LAB*ad 18 get LAB*LMq LAB*ad 18 get sub 0.5 mul add put LAB*51 i31 LAB*ad 19 get LAB*AMq LAB*ad 19 get sub 0.5 mul add put LAB*51 i32 LAB*ad 20 get LAB*BMq LAB*ad 20 get sub 0.5 mul add put} if xchart 19 eq {LAB*51 i30 LAB*LMq LAB*ad 21 get LAB*LMq sub 0.5 mul add put LAB*51 i31 LAB*AMq LAB*ad 22 get LAB*AMq sub 0.5 mul add put LAB*51 i32 LAB*BMq LAB*ad 23 get LAB*BMq sub 0.5 mul add put} if } for } if %17<=xchart<=19 xchart 16 le xchart 20 ge or {/difinp inputS2 16 get inputS2 0 get sub def /difout ouputSA 16 get ouputSA 0 get sub def} if /outL*var 0 def /LABREFA 4 array def /LABREFX [06 18.01 0.00 0.00] def %only L*N ISO 2846-1:1997, Table D.3 /LABREFW [07 95.41 0.00 0.00] def %only L*W ISO 2846-1:1997, Table D.3 /LABREFZ [10 57.20 0.00 0.00] def %mena grey LABREFX 1 ouputS2 00 get put LABREFW 1 ouputS2 48 get put LABREFZ 1 ouputS2 24 get put LABREFX 2 ouputS2 01 get put LABREFW 2 ouputS2 49 get put LABREFZ 2 ouputS2 25 get put LABREFX 3 ouputS2 02 get put LABREFW 3 ouputS2 50 get put LABREFZ 3 ouputS2 26 get put /LABO1NJ 1 def /LABOUT 88 array def %Mean Output (17 colours + 5 colours interpolated) 0 1 16 {/i exch def %i=0,16 /i40 i 4 mul def LABOUT i40 i put LABOUT i40 1 add ouputS2 i 3 mul 0 add get put LABOUT i40 2 add ouputS2 i 3 mul 1 add get put LABOUT i40 3 add ouputS2 i 3 mul 2 add get put } for %i=0,1,16 /LAB*refi 88 array def %aktuelle Referenzwerte (ref=Referenz) i. Ausgabe /LAB*ini 88 array def %Zielwerte (in=Input) i. Ausgabe /LAB*outi 88 array def %Messwerte (out=Output) i. Ausgabe /LAB*ouci 88 array def %Messwerte (ouc=Output centered) i. Ausgabe /tfn { } bind def /k5x 5 array def %N,C,M,Y, max. 5 Reihen, k=0, ..., 4 /k5w 5 array def %W /k5c 5 array def %c=colour /k5s 5 array def %Serien-/Einzel-Optimierung /kln 22 array def %LAB=0 for N /klw 22 array def %LAB=100 for W /km 1 def /k5x [ 0 17 0 0] def %hier 2 Reihen, k=0 und 1 /k5w [16 21 0 0] def /k5c [ 1 1 0 0] def %N=colour /k5s [ 1 1 0 0] def %Serien-/Einzel-Optimierung /kln [ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0] def %LAB=0 for N /klw [ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1] def %LAB=100 for W /i1316 16 def %13 oder 16 Buntstufen /i1417 17 def %14 oder 17 Buntstufen /isum i1417 5 add def /ikor 1 def 0 1 21 {/i exch def /i4 i 4 mul def %i=0,21 i 16 le {/imul i 16 div def} {/imul i 17 sub 4 div def} ifelse 0 1 3 {/j exch def /i4j i4 j add def LAB*refi i4j xchart 13 le xchart 20 ge or {%xchart<=13 or xchart>=20 LABREFX j get LABREFW j get LABREFX j get sub imul mul add put } if %xchart<=13 or xchart>=20 xchart 14 ge xchart 16 le and {%14<=xchart<=16 i 8 le {%i=0,8 LABREFX j get LABREFZ j get LABREFX j get sub imul mul 2 mul add put } if i 9 ge i 16 le and {%9<=i<=16 LABREFZ j get LABREFW j get LABREFZ j get sub i 8 sub 16 div mul 2 mul add put } if %9<=i<=16 i 17 eq {LAB*refi 0 4 mul j add get put} if i 18 eq {LAB*refi 4 4 mul j add get put} if i 19 eq {LAB*refi 8 4 mul j add get put} if i 20 eq {LAB*refi 12 4 mul j add get put} if i 21 eq {LAB*refi 16 4 mul j add get put} if } if %14<=xchart<=16 xchart 17 ge xchart 19 le and {%17<=xchart<=19 j 0 eq {i put} {/jm j 1 sub def i 16 le {LAB*51 i 3 mul jm add get put} if i 17 eq {LAB*refi 0 4 mul j add get put} if %R i 18 eq {LAB*refi 4 4 mul j add get put} if %J i 19 eq {LAB*refi 8 4 mul j add get put} if %G i 20 eq {LAB*refi 12 4 mul j add get put} if %B i 21 eq {LAB*refi 16 4 mul j add get put} if %R } ifelse %j=0,#0 } if %17<=xchart<=19 LAB*outi i4j i 16 le {LABOUT i4j get} if i 17 eq {LABOUT 0 4 mul j add get} if i 18 eq {LABOUT 4 4 mul j add get} if i 19 eq {LABOUT 8 4 mul j add get} if i 20 eq {LABOUT 12 4 mul j add get} if i 21 eq {LABOUT 16 4 mul j add get} if put %LAB*outi } for %j=0,3 } for %i=0,21 1 setgray 20 20 moveto 5400 0 rlineto 0 4000 rlineto %relatives Bildfeld 54 x 40mm -5400 0 rlineto closepath fill 0 setgray 20 20 moveto 5400 0 rlineto 0 4000 rlineto %relatives Bildfeld 54 x 40mm -5400 0 rlineto closepath stroke /x0 0 def /y0 3720 def /yd 165 def TM /xpos 17 array def /xtex 17 array def /xpos [ 150 300 550 800 %i, LAB*refi(ikor) 1300 1550 1800 %LAB*outi(ikor) 2300 2550 2800 %dLABTO(ikor,ikor), dE* 3250 3550 3900 % 4250 4550 4850 5150] def % xchart 16 le xchart 20 ge or {%xchart 16 le xchart 20 ge or /xtex [(i) (LAB*a,ref) ( ) ( ) (LAB*a,out) ( ) ( ) (LAB*a,out/c-ref) ( ) ( ) ( ) () ( ) ( ) ( ) ( ) ( )] def /col00 [(R) (Y) (G) (C) (B) (M) (N) (N) (N) (N) (N) (N) (N) (N) (R) (Y) (G) (R) (Rn) (Rw) (N) (N) (N) (N)] def /col08 [(Z) (Z) (Z) (Z) (Z) (Z) (Z) ( ) ( ) ( ) ( ) ( ) ( ) (Z) (Z) (Z) (Z) ( ) ( ) ( ) (Z) (Z) (Z) (Z)] def /col16 [(W) (W) (W) (W) (W) (W) (W) (R) (Y) (G) (C) (B) (M) (W) (C) (B) (M) (R) (Rn) (Rw) (W) (W) (W) (W)] def xpos 0 get 120 sub y0 yd 00 mul sub moveto col00 xchart get show TK 0 -20 rmoveto (d) show 0 20 rmoveto TM xpos 0 get 120 sub y0 yd 08 mul sub moveto col08 xchart get show TK 0 -20 rmoveto (d) show 0 20 rmoveto TM xpos 0 get 120 sub y0 yd 16 mul sub moveto col16 xchart get show TK 0 -20 rmoveto (d) show 0 20 rmoveto TM xpos 0 get 120 sub y0 yd 17 mul sub moveto col00 xchart get show TK 0 -20 rmoveto (d) show 0 20 rmoveto TM xpos 0 get 120 sub y0 yd 19 mul sub moveto col08 xchart get show TK 0 -20 rmoveto (d) show 0 20 rmoveto TM xpos 0 get 120 sub y0 yd 21 mul sub moveto col16 xchart get show TK 0 -20 rmoveto (d) show 0 20 rmoveto TM } %xchart 16 le xchart 20 ge or { %17<=xchart<=19 /xtex [(i) (LAB*a,ref) ( ) ( ) (LAB*a,out) ( ) ( ) (LAB*a,out-ref) () () () () ( ) ( ) ( ) ( ) ( )] def /coln [(R) ( ) ( ) ( ) (J) ( ) ( ) ( ) (G) ( ) (C') ( ) (B) ( ) (M') ( ) (R) (R) (J) (G) (B) (R)] def xpos 0 get 120 sub y0 yd add moveto (T) show 0 1 21 {/i exch def %i=0,20 xpos 0 get 70 sub y0 yd i mul sub moveto coln i get show } for %i=0,20 } ifelse %17<=xchart<=19 0 1 16 { /j exch def xpos j get x0 add 100 add y0 yd add moveto xtex j get show } for %j=0,1,...,16 xpos 3 get x0 add 250 add y0 yd add moveto 100 /Times-Roman FS (hab,ref) show xpos 6 get x0 add 250 add y0 yd add moveto 100 /Times-Roman FS (hab,out) show xpos 10 get x0 add 150 sub y0 yd add moveto 100 /Symbol FS (D) show 100 /Times-Roman FS (H* ) show 100 /Symbol FS (D) show 100 /Times-Roman FS (E*) show /sumdL* 0 def /sumda* 0 def /sumdb* 0 def /sumdE* 0 def /sumdH* 0 def /sumdNL* 0 def /sumdNa* 0 def /sumdNb* 0 def /sumdNE* 0 def /sumdNH* 0 def /sumdBL* 0 def /sumdBa* 0 def /sumdBb* 0 def /sumdBE* 0 def /sumdBH* 0 def /sumdRL* 0 def /sumdFL* 0 def 0 1 km {/k exch def %Anzahl Farbreihen, z.B. 16- und 5-stufig /k4 k 4 mul def /ix k5x k get def /iw k5w k get def /ic k5c k get def ix 1 iw {/i exch def /i4 i 4 mul def /i1 i4 1 add def /i2 i4 2 add def /i3 i4 3 add def /yposi {y0 yd i mul sub moveto} def ix 0 eq {% keine Zentrierung LAB*outi /ix1 ix 4 mul 1 add def /iw1 iw 4 mul 1 add def 0 1 16 {/n exch def /n4 n 4 mul def /n1 n4 1 add def %n LAB*ouci n1 LAB*outi n1 get put } for %n } if %Zentrierung ix 17 eq {% Zentrierung LAB*outi /ix1 ix 4 mul 1 add def /iw1 iw 4 mul 1 add def /ZENT LAB*outi ix1 get LAB*refi ix1 get sub LAB*refi iw1 get LAB*outi iw1 get sub sub 0.5 mul def 17 1 21 {/n exch def /n4 n 4 mul def /n1 n4 1 add def %n LAB*ouci n1 LAB*outi n1 get ZENT sub put } for %n } if %Zentrierung 0 1 11 {/j exch def %17 Positionen x0 xpos j get add yposi j 0 eq {i 1 add cvishow } if LABO1NJ 1 eq { %Differenzen oder Messwerte falls vorh. xchart 16 le xchart 20 ge or {%xchart 16 le xchart 20 ge or j 1 eq {LAB*refi i1 get cvsshow1} if j 2 eq {LAB*refi i2 get cvsshow1} if j 3 eq {LAB*refi i3 get cvsshow1} if j 4 eq {LAB*outi i1 get cvsshow1} if j 5 eq {LAB*outi i2 get cvsshow1} if j 6 eq {LAB*outi i3 get cvsshow1} if j 7 eq {LAB*ouci i1 get LAB*refi i1 get sub dup cvsshow1 abs /sumdL* exch sumdL* add def} if %j=7 j 8 eq {LAB*outi i2 get LAB*refi i2 get sub dup cvsshow1 abs /sumda* exch sumda* add def} if %j=8 j 9 eq {LAB*outi i3 get LAB*refi i3 get sub dup cvsshow1 abs /sumdb* exch sumdb* add def} if %j=9 j 10 eq {LAB*ouci i1 get LAB*refi i1 get sub dup mul LAB*outi i2 get LAB*refi i2 get sub dup mul add LAB*outi i3 get LAB*refi i3 get sub dup mul add 0.000001 add sqrt dup cvsshow1 /sumdE* exch sumdE* add def} if %j=10 j 7 eq {x0 xpos 3 get add 250 add yposi LAB*refi i3 get LAB*refi i2 get 0.000001 add atan cvishow} if %j=7 j 8 eq {x0 xpos 6 get add 250 add yposi LAB*outi i3 get LAB*outi i2 get 0.000001 add atan cvishow} if %j=8 j 10 eq {x0 xpos 10 get add 200 sub yposi LAB*outi i2 get LAB*refi i2 get sub dup mul LAB*outi i3 get LAB*refi i3 get sub dup mul add 0.000001 add sqrt dup cvsshow1 /sumdH* exch sumdH* add def} if %j=10 j 10 eq { %j=10 Regularity i 17 eq {/L1 LAB*ouci i1 get def} if %i=17 i 18 eq {/L2 LAB*ouci i1 get def} if %i=18 i 19 eq {/L3 LAB*ouci i1 get def} if %i=19 i 20 eq {/L4 LAB*ouci i1 get def} if %i=20 i 21 eq {/L5 LAB*ouci i1 get def} if %i=21 } if %j=10 Regularity } if %xchart 16 le xchart 20 ge or xchart 17 ge xchart 19 le and {%17<=xchart<=19 j 1 eq {LAB*refi i1 get cvsshow1} if j 2 eq {LAB*refi i2 get cvsshow1} if j 3 eq {LAB*refi i3 get cvsshow1} if j 4 eq {LAB*outi i1 get cvsshow1} if j 5 eq {LAB*outi i2 get cvsshow1} if j 6 eq {LAB*outi i3 get cvsshow1} if j 7 eq {LAB*outi i1 get LAB*refi i1 get sub dup cvsshow1 abs /sumdL* exch sumdL* add def} if %j=7 j 8 eq {LAB*outi i2 get LAB*refi i2 get sub dup cvsshow1 abs /sumda* exch sumda* add def} if %j=8 j 9 eq {LAB*outi i3 get LAB*refi i3 get sub dup cvsshow1 abs /sumdb* exch sumdb* add def} if %j=9 j 10 eq {LAB*outi i1 get LAB*refi i1 get sub dup mul LAB*outi i2 get LAB*refi i2 get sub dup mul add LAB*outi i3 get LAB*refi i3 get sub dup mul add 0.000001 add sqrt dup cvsshow1 /sumdE* exch sumdE* add def} if %j=10 j 7 eq {x0 xpos 3 get add 250 add yposi LAB*refi i3 get LAB*refi i2 get 0.000001 add atan cvishow} if %j=7 j 8 eq {x0 xpos 6 get add 250 add yposi LAB*outi i3 get LAB*outi i2 get 0.000001 add atan cvishow} if %j=8 j 10 eq {x0 xpos 10 get add 200 sub yposi LAB*outi i2 get LAB*refi i2 get sub dup mul LAB*outi i3 get LAB*refi i3 get sub dup mul add 0.000001 add sqrt dup cvsshow1 /sumdH* exch sumdH* add def} if %j=10 % j 10 eq {x0 xpos 10 get add 200 sub yposi % LAB*outi i3 get LAB*outi i2 get 0.000001 add atan % i 13 ge i 16 le and {dup 100 le {360 add} if } if % LAB*refi i3 get LAB*refi i2 get 0.000001 add atan % i 13 ge i 16 le and {dup 100 le {360 add} if } if % sub dup % cvishow abs /sumdH* exch sumdH* add def} if %j=10 % i i1417 lt {%14 oder 17 Stufen % j 10 eq {LAB*outi i3 get LAB*outi i2 get % 0.000001 add atan % i 13 ge i 16 le and {dup 100 le {360 add} if } if % LAB*refi i3 get LAB*refi i2 get % 0.000001 add atan % i 13 ge i 16 le and {dup 100 le {360 add} if } if % sub abs % /sumdBE* exch sumdBE* add def} if %j=10 % } if %14 oder 17 Stufen % i 17 ge {%5 Unbunt=Noir % j 10 eq {LAB*outi i3 get LAB*outi i2 get % 0.000001 add atan % LAB*refi i3 get LAB*refi i2 get % 0.000001 add atan sub abs % /sumdNE* exch sumdNE* add def} if %j=10 % } if %5 Unbunt=Noir } if %17<=xchart<=19 i i1417 lt {%14 oder 17 Stufen j 10 eq {LAB*ouci i1 get LAB*refi i1 get sub dup mul LAB*outi i2 get LAB*refi i2 get sub dup mul add LAB*outi i3 get LAB*refi i3 get sub dup mul add 0.000001 add sqrt /sumdBE* exch sumdBE* add def LAB*outi i2 get LAB*refi i2 get sub dup mul LAB*outi i3 get LAB*refi i3 get sub dup mul add 0.000001 add sqrt /sumdBH* exch sumdBH* add def } if %j=10 } if %14 oder 17 Stufen i 17 ge {%5 Unbunt=Noir j 10 eq {LAB*ouci i1 get LAB*refi i1 get sub dup mul LAB*outi i2 get LAB*refi i2 get sub dup mul add LAB*outi i3 get LAB*refi i3 get sub dup mul add 0.000001 add sqrt /sumdNE* exch sumdNE* add def LAB*outi i2 get LAB*refi i2 get sub dup mul LAB*outi i3 get LAB*refi i3 get sub dup mul add 0.000001 add sqrt /sumdNH* exch sumdNH* add def } if %j=10 } if %5 Unbunt=Noir } if %Differenzen oder Messwerte 110 /TimesB-ISOL1 FS LABO1NJ 1 eq 11 j eq and {%LABO1NJ=1 and j=11 i 00 eq { (Kennzeichnung nach) gshowde (Specification according to) gshowen x0 xpos j get add y0 yd add moveto (Start\255Ausgabe S1) gshowde (Start output S1) gshowen} if %i=0 i 01 eq {(ISO/IEC 15775:1999 Anhang G) gshowde (ISO/IEC 15775:1999 Annex G) gshowen} if %i=1 i 02 eq {(& DIN 33866\2551:2000 Anhang G) gshowde (and DIN 33866\2551:2000 Annex G) gshowen} if %i=2 xchart 13 le xchart 20 ge or {%xchart<=13 or xchart>=20 i 03 eq {(relative ) bshowde (relative ) bshowen (CIELAB ) bishow (Daten f\374r "aus") bshowde (data used for "out") bshowen} if %i=2 i 04 eq {(D) sshow (L*) bishow ( = ) bshow LABREFW 1 get cvsshow2 ( - ) show LABREFX 1 get cvsshow2 } if %i=2 i 08 eq {(Helligkeitsumfang relativ zu Offset) bshowde (Lightness gamut relative to offset) bshowen} if %i=8 } if %xchart<=13 xchart 16 le xchart 20 ge or {%xchart<=16 i 05 eq {(Gleichm\344\337igkeit) bshowde (Regularity) bshowen} if %i=5 } if %xchart 16 le xchart 20 ge or i 14 eq {(Mittlerer CIELAB\255Abstand (17 Stufen)) bshowde (Mean CIELAB difference (17 steps)) bshowen} if %i=14 i 15 eq {(D) sshow (H*) bishow 0 -20 rmoveto (CIELAB) ishow 0 20 rmoveto ( = ) bshow sumdBH* i1417 div cvsshow1} if %i=15 i 16 eq {(D) sshow (E*) bishow 0 -20 rmoveto (CIELAB) ishow 0 20 rmoveto ( = ) bshow sumdBE* i1417 div cvsshow1} if %i=16 i 19 eq {(Mittlerer CIELAB\255Abstand (5 Stufen)) bshowde (Mean CIELAB difference (5 steps)) bshowen} if i%=19 i 20 eq {(D) sshow (H*) bishow 0 -20 rmoveto (CIELAB) ishow 0 20 rmoveto ( = ) bshow sumdNH* 05 div cvsshow1} if %i=20 i 21 eq {(D) sshow (E*) bishow 0 -20 rmoveto (CIELAB) ishow 0 20 rmoveto ( = ) bshow sumdNE* 05 div cvsshow1} if %i=21 } if %LABO1NJ=1 and j=11 TM } for %j=0,11 } for %i=ix,iw } for %k=0,km LABO1NJ 1 eq xchart 16 le xchart 20 ge or and {%xchart 16 le xchart 20 ge or Summen Messwerte vorhanden 110 /Times-Bold FS xchart 13 le xchart 20 ge or {%xchart<=13 or xchart>=20 /j 1 def x0 xpos j get add 1500 add y0 yd 22 mul sub moveto (Mittlerer Farbwiedergabe\255Index:) bshowde (Mean colour reproduction index:) bshowen /j 11 def x0 xpos j get add y0 yd 22 mul sub moveto (R*) bishow 0 -20 rmoveto (ab,m) ishow 0 20 rmoveto ( = ) bshow 100 sumdBE* isum div sumdNE* isum div add 4.6 mul sub cvishow x0 xpos j get add y0 yd 09 mul sub moveto ( f* ) bishow (= ) bshow L5 L1 sub 77.40 div 100 mul cvsshow1 } if %xchart<=13 or xchart>=20 /j 11 def x0 xpos j get add y0 yd 06 mul sub moveto ( g* ) bishow (= ) bshow /DD1 L2 L1 sub abs def /DD2 L3 L2 sub abs def /DD3 L4 L3 sub abs def /DD4 L5 L4 sub abs def DD1 DD2 le {/DMIN1 DD1 def} {/DMIN1 DD2 def} ifelse DD3 DD4 le {/DMIN2 DD3 def} {/DMIN2 DD4 def} ifelse DMIN1 DMIN2 le {/DMIN DMIN1 def} {/DMIN DMIN2 def} ifelse DD1 DD2 ge {/DMAX1 DD1 def} {/DMAX1 DD2 def} ifelse DD3 DD4 ge {/DMAX2 DD3 def} {/DMAX2 DD4 def} ifelse DMAX1 DMAX2 ge {/DMAX DMAX1 def} {/DMAX DMAX2 def} ifelse DMIN DMAX div 100 mul cvsshow1 } if %xchart 16 le xchart 20 ge or Summen Messwerte vorhanden /texde [(Rot - Wei\337) (Gelb - Wei\337) (Gr\374n - Wei\337) (Cyan - Wei\337) (Blau - Wei\337) (Rot - Wei\337) (Schwarz - Wei\337) (Schwarz - Rot) (Schwarz - Gelb) (Schwarz - Gr\374n) (Schwarz - Cyan) (Schwarz - Blau) (Schwarz - Magenta) (Schwarz - Wei\337) (Rot - Cyan) (Gelb - Blau) (Gr\374n - Maganta) (Rot-Gelb-Gr\374n-Blau-Rot) ((Rot-Gelb-Gr\374n-Blau-R)n) ((Rot-Gelb-Gr\374n-Blau-R)w) (Schwarz - Wei\337) (Schwarz - Wei\337) (Schwarz - Wei\337) (Schwarz - Wei\337) ] def /texen [(Red - White) (Yellow - White) (Green - White) (Cyan - White) (Blue - White) (Magenta - White) (Black - White) (Black - Red) (Black - Yellow) (Black - Green) (Black - Cyan) (Black - Blue) (Black - Magenta) (Black - White) (Red - Cyan) (Yellow - Blue) (Green - Magenta) (Red-Yellow-Green-Blue) ((Red-Yellow-Green-Blue)n) ((Red-Yellow-Green-Blue)w) (Black - White) (Black - White) (Black - White) (Black - White) ] def 3550 1900 moveto texde xchart get gshowde texen xchart get gshowen /tergb [(rgb: (R - W)) (rgb: (Y - W)) (rgb: (G - W)) (rgb: (C - W)) (rgb: (B - W)) (rgb: (M - W)) (rgb: (N - W)) (rgb: (N - O)) (rgb: (N - Y)) (rgb: (N - L)) (rgb: (N - C)) (rgb: (N - V)) (rgb: (N - M)) (w: (N - W)) (rgb: (R - Z - C)) (rgb: (Y - Z - V)) (rgb: (G - Z - M)) (rgb: (R-J-G-B-R)) (rgb: ((R-J-G-B-R)n)) (rgb: ((R-J-G-B-R)w)) (000n: (N - W)) (w: (N - W)) (cmy0: (N - W)) (rgb: (N - W)) ] def /tecmy [(cmy0: (R - W)) (cmy0: (Y - W)) (cmy0: (G - W)) (cmy0: (C - W)) (cmy0: (B - W)) (cmy0: (M - W)) (cmy0: (N - W)) (cmy0: (N - O)) (cmy0: (N - Y)) (cmy0: (N - L)) (cmy0: (N - C)) (cmy0: (N - V)) (cmy0: (N - M)) (000n: (N - W)) (cmy0: (R - Z - C)) (cmy0: (Y - Z - V)) (cmy0: (G - Z - M)) (cmy0: (R-J-G-B-R)) (cmy0: ((R-J-G-B-R)n)) (cmy0: ((R-J-G-B-R)w)) (000n: (N - W)) (w: (N - W)) (cmy0: (N - W)) (rgb: (N - W)) ] def 3550 1700 moveto tergb xchart get gshow 0 -20 rmoveto (d) ishow 0 20 rmoveto showpage grestore } for %xchart=0,23 %%Trailer