%!PS-Adobe-3.0 EPSF-3.0 www.ps.bam.de/YE81/10L/L81E00XX.PS 20070501 %%BoundingBox: 00 00 414 292 /pdfmark where {pop} {userdict /pdfmark /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: www.ps.bam.de/YE81/YE81.HTM) /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1) /Subject (goto: www.ps.bam.de or http://o2.ps.bam.de) /Keywords (image reproduction, colour devices) /Creator (klaus.Richter@bam.de) /CreationDate (D:2007050112000) /ModDate (D:2007050112000) /DOCINFO pdfmark [ /View [ /Fit ] /DOCVIEW pdfmark %BEG YE81/10L/L81E00ZED NO Output Linearization LAB* -> cmyolvnw* 20061201 %BEG OUTLIN10.PS %FILE PREPARED FOR MIXED MODE, e. g. input ORS and output TLS /IMES 0 def %0=LAB* used, no reflection factor necessary %/IMES 1 def /Yre 2.52 def %1=XYZ measurement and standard device reflection %/i*ptrsc 0 def %LAB* setcolor to cmy0* / 000n* setcmykcolor /i*ptrsc 1 def %LAB* setcolor to olv* setrgbcolor / w* setgray %/i*ptrsc 2 def %LAB* setcolor to cmy0* / nnn0* setcmykcolor %/i*ptrsc 3 def %LAB* setcolor to olv* / www* setrgbcolor %/i*ptrsc 4 def %LAB* setcolor to lab* setcolor %/i*ptrsc 5 def %LAB* setcolor to LAB* setcolor %/i*ptrsc 6 def %LAB* setcolor to 000n* setcmykcolor %/i*ptrsc 7 def %LAB* 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MXYZ_to_LAB* 20060101 %END YE81/10L/OUTLIN1XNA.PS MXYZ_to_LAB* 20060101 /CFilenameS1g %START output of step S1g (www.ps.bam.de/YE81/10L/L81E00N) def %Link file name for data /CDateS1g (2006-01-01, Name) def %Date of calculation, Tester /CDeviceS1g (unknown ) def %Device name /CMeasS1g (YE81/10L/L81E00N) def %File name measured in step S1g %change scount2g from 2 to 10 for 10 series %change pcount2g from 8 to 240 for 240 pages of each series /scount1g 1 def /scount2g 1 def /scountg 1 def /pcount1g 1 def /pcount2g 1 def /pcountg 1 def %start=1, one more 9+1! /xchart1g 0 def /xchart2g 7 def /xchartg 0 def /BeginEPSF { % def % Prepare for EPS file /b4_Inc_state save def % Save state for cleanup /dict_count countdictstack def /op_count count 1 sub def % Count objects on op stack userdict begin % Make userdict current dict /showpage {} def 0 setgray 0 setlinecap 1 setlinewidth 0 setlinejoin 10 setmiterlimit [] 0 setdash newpath /languagelevel where % If level not equal to 1 then {pop 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0.267 0.200 0.132 0.067 0.000 1.000 0.750 0.500 0.250 0.000] def /tzay [1.000 0.933 0.867 0.800 0.733 0.667 0.600 0.533 0.467 0.400 0.333 0.267 0.200 0.132 0.067 0.000 1.000 0.750 0.500 0.250 0.000] def /tzan [1.000 0.933 0.867 0.800 0.733 0.667 0.600 0.533 0.467 0.400 0.333 0.267 0.200 0.132 0.067 0.000 1.000 0.750 0.500 0.250 0.000] def /tza0 [0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000] def /tza1 [1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000] def %ENDE CMYKD /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 /colrecfiLAB* %x y width heigth LAB* { setcolor rec fill} bind def /colrecstLAB* %x y width heigth LAB* { setcolor rec stroke} bind def /colrecficmyn* %x y width heigth cmy0* or 000n* { setcmykcolor rec fill} bind def /colrecstcmyn* %x y width heigth cmy0* or 000n* { setcmykcolor rec stroke} bind def /colrecfiw* %x y width heigth w* { setgray rec fill} bind def /colrecstw* %x y width heigth w* { setgray rec stroke} bind def /colrecfiolv* %x y width heigth olv* { setrgbcolor rec fill} bind def /colrecstolv* %x y width heigth olv* { setrgbcolor rec stroke} bind def /tzocmy0* {0.0 1.0 1.0 0.0} bind def %Reproduction colours /tzlcmy0* {1.0 0.0 1.0 0.0} bind def %cmyn* setcmykcolor /tzvcmy0* {1.0 1.0 0.0 0.0} bind def /tzccmy0* {1.0 0.0 0.0 0.0} bind def /tzmcmy0* {0.0 1.0 0.0 0.0} bind def /tzycmy0* {0.0 0.0 1.0 0.0} bind def /tzoolv* {1.0 0.0 0.0} bind def %Reproduction colours /tzlolv* {0.0 1.0 0.0} bind def %olv* setrgbcolor /tzvolv* {0.0 0.0 1.0} bind def /tzcolv* {0.0 1.0 1.0} bind def /tzmolv* {1.0 0.0 1.0} bind def /tzyolv* {1.0 1.0 0.0} bind def /tzoLAB* [53.34 72.46 50.66] def %Reproduction colours /tzlLAB* [84.93 -79.83 74.80] def %LAB* setcolor /tzvLAB* [32.20 24.88 -37.89] def /tzcLAB* [88.10 -44.88 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show (/) show %scount2g cvi 6 string cvs show (,) show 90 rotate %274 MM 55 MM moveto -90 rotate %lanindg 0 eq {(Seite: )}{(Page: )} ifelse show %pcountg xchartg xchart10 sub add cvi 6 string cvs show 90 rotate %274 MM 45 MM moveto %-90 rotate %lanindg 0 eq {(Seitenz\344hlung )}{(Page: count: )} ifelse show %scountg 1 sub pcount2g mul pcountg add %pcountg pcount2x eq {xchartg add pcount1g pcount2x ne {2 sub } if} if %cvi 6 string cvs show %90 rotate /GSS$ SS$ lanindg get def /GSC$ SC$ colormg get def /GSX$ SX$ xcolorg get def /GSY$ SY$ xchartg xchartg 32 idiv 32 mul sub get def %max=31 /GEX$ EX$ 0 get def /GEY$ EY$ 0 get def /xcha801 xchartg 8 mul 0 add def /xcha803 xchartg 8 mul 1 add def /xcha805 xchartg 8 mul 2 add def /xcha807 xchartg 8 mul 3 add def /xcha811 xchartg 8 mul 4 add def /xcha813 xchartg 8 mul 5 add def /xcha815 xchartg 8 mul 6 add def /xcha817 xchartg 8 mul 7 add def %gsave BeginEPSF 28 MM 197 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto 1 1 scale -77 -91 translate %%BeginDocument: Bild 10 %line 329 %%EndDocument EndEPSF grestore gsave BeginEPSF 28 MM 152 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto 1 1 scale -77 -91 translate %%BeginDocument: Bild 11 %line 339 %!PS-Adobe-3.0 EPSF-3.0 YE810-1, %%BoundingBox: 70 90 226 206 /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def %%EndProlog gsave 8 /Times-Roman FS 72 83 moveto %!2 (YE810-1,) show 72 90 translate %! 0.01 MM 0.01 MM scale %! 15 setlinewidth %! 0 0 moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto %! closepath stroke grestore showpage %%Trailer %%EndDocument EndEPSF grestore gsave BeginEPSF 86 MM 152 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 12 %line 349 %%EndDocument EndEPSF grestore gsave BeginEPSF 28 MM 108 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 13 %line 359 %!PS-Adobe-3.0 EPSF-3.0 YE810-3 %%BoundingBox: 70 90 226 206 /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def %%EndProlog gsave 8 /Times-Roman FS 72 83 moveto %!2 (YE810-3,) show 72 90 translate %! 0.01 MM 0.01 MM scale %! 15 setlinewidth %! 0 0 moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto %! closepath stroke grestore showpage %%Trailer %%EndDocument EndEPSF grestore gsave BeginEPSF 86 MM 108 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 14 %line 369 %%EndDocument EndEPSF grestore gsave BeginEPSF 28 MM 064 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 15 %line 379 %!PS-Adobe-3.0 EPSF-3.0 YE810-5, %%BoundingBox: 70 90 226 206 /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def %%EndProlog gsave 8 /Times-Roman FS 72 83 moveto %!2 (YE810-5,) show 72 90 translate %! 0.01 MM 0.01 MM scale %! 15 setlinewidth %! 0 0 moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto %! closepath stroke grestore showpage %%Trailer %%EndDocument EndEPSF grestore gsave BeginEPSF 86 MM 064 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 16 %line 389 %%EndDocument EndEPSF grestore gsave BeginEPSF 28 MM 3.5 MM sub 020 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 17 %line 399 %!PS-Adobe-3.0 EPSF-3.0 YE810-7N.EPS %%BoundingBox: 70 82 785 580 %START PDFDE011.EPS /pdfmark07 where {pop} {userdict /pdfmark07 /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: Image Technology) /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1) /Subject (goto: http://o2.ps.bam.de or http://www.ps.bam.de) /Keywords (image reproduction, colour devices) /Creator (klaus.richter@bam.de) /CreationDate (D:2007050112000) /ModDate (D:2007050112000) /DOCINFO pdfmark07 [ /View [ /FitB ] /DOCVIEW pdfmark07 %END PDFDE011 /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 /TK {250 /Times-ISOL1 FS} bind def /TM {300 /Times-ISOL1 FS} bind def /TG {350 /Times-ISOL1 FS} bind def /TIK {250 /TimesI-ISOL1 FS} bind def /TIM {300 /TimesI-ISOL1 FS} bind def /TIG {350 /TimesI-ISOL1 FS} bind def /TBK {250 /TimesB-ISOL1 FS} bind def /TBM {300 /TimesB-ISOL1 FS} bind def /TBG {350 /TimesB-ISOL1 FS} bind def /TBIK {250 /TimesBI-ISOL1 FS} bind def /TBIM {300 /TimesBI-ISOL1 FS} bind def /TBIG {350 /TimesBI-ISOL1 FS} bind def %*********************************************************** /ISRLx 0 def %default /ISYSx 6 def %default SYSTEM SRS18 %Table data /L*aMi 361 array def /A*aMi 361 array def /B*aMi 361 array def /C*aMi 361 array def /H*aMi 361 array def /o*3Mi 361 array def /l*3Mi 361 array def /v*3Mi 361 array def /H*adi 361 array def %device hue = H*adMi /H*asi 361 array def %standard hue = H*asMi /H*aei 361 array def %elementary hue = H*aeMi /H*aei_di 361 array def %table device hue to elementary hue /H*adi_si 361 array def %table device hue to standard hue /H*asi_di 361 array def %table standard hue to device hue /H*adi_ei 361 array def %table elementary hue to device hue /h*ei_d 361 array def %table device hue to elementary hue /h*di_s 361 array def %table device hue to standard hue /h*si_d 361 array def %table standard hue to device hue /h*di_e 361 array def %table elementary hue to device hue %Table data for x=input/output of colour M /LAB*X 36 array def %12x3=36: 8 device + 4 elementary colours /LAB*aX 36 array def /LAB*adX 21 array def %7x3=21: 6+1 device (d) colours /LAB*asX 21 array def %7x3=21: 6+1 device standard (s) colours /LAB*aeX 15 array def %5x3=15: 4+1 elementary (e) colours /L*adX 7 array def %6+1 device (d) colours: L*adX /A*adX 7 array def %6+1 device (d) colours: A*adX /B*adX 7 array def %6+1 device (d) colours: B*adX /C*adX 7 array def %6+1 device (d) colours: C*adX /H*adX 7 array def %6+1 device (d) colours: H*adX /L*asX 7 array def %6+1 device standard (s) colours: L*asX /A*asX 7 array def %6+1 device standard (s) colours: A*asX /B*asX 7 array def %6+1 device standard (s) colours: B*asX /C*asX 7 array def %6+1 device standard (s) colours: C*asX /H*asX 7 array def %6+1 device standard (s) colours: H*asX /H*asX [30. 90. 150. 210. 270. 330. 390.] def /L*aeX 7 array def %4+1 elementary (e) colours: L*aeX /A*aeX 7 array def %4+1 elementary (e) colours: A*aeX /B*aeX 7 array def %4+1 elementary (e) colours: B*aeX /C*aeX 7 array def %4+1 elementary (e) colours: C*aeX /H*aeX 7 array def %4+1 elementary (e) colours: H*aeX /LAB*00 24 array def /LAB*01 24 array def /LAB*02 24 array def /LAB*03 24 array def /LAB*04 24 array def /LAB*05 24 array def /LAB*06 24 array def /LAB*07 24 array def /TSYSx 24 array def /TSYSx [(ORS18) (TLS00) (FRS06) (TLS18) (NLS00) (NRS18) (SRS18) (TLS70) (TLS00) (TLS06) (TLS11) (TLS18) (TLS28) (TLS38) (TLS50) (TLS70) (OLS00) (OLS06) (OLS11) (OLS18) (OLS28) (OLS38) (OLS50) (OLS70)] def /olv*3dX [%x=any Device OYLCVMoNW, x=input/output 1 0 0 %O 1 1 0 %Y 0 1 0 %L 0 1 1 %C 0 0 1 %V 1 0 1 %M 1 0 0 %o 0 0 0 %N 1 1 1 %W ] def /LAB*eX 12 array def /LAB*eX [ 39.92 58.74 27.99 % R CIE No.09 elementary colours in LAB, D65 81.26 -2.89 71.56 % J CIE No.10 52.23 -42.42 13.60 % G CIE No.11 30.57 1.41 -46.47 % B CIE No.12 ] def %****************************************************************** /LAB*inoutxM {%BEG Procedure LAB*inoutM %arrays necessary /LAB*01_to_07 24 def % /LAB*X 36 array def % /LAB*aX 36 array def %input ISYSx=0_to_7, ISRLx=0_to_4 ISRLx 0 eq { %ISRL*xL=0 /LAB*00 [%D=Device OYLCVMO+NW %for Offset Reflective System (ORS18) 47.94 65.31 52.07 %O 0 90.37 -11.16 96.17 %Y 1 50.90 -62.97 36.71 %L 2 58.62 -30.63 -42.75 %C 3 %see TABle 1 of ISO/IEC 15775:1999-12 25.72 31.45 -44.36 %V 4 48.13 75.20 -6.80 %M 5 18.01 0.50 -0.47 %N 7 95.41 -0.99 4.76 %W 8 ] def %OYLCVMO+NW /LAB*01 [%D=Device OYLCVMO+NW %for Television Luminous System (TLS00) 50.50 76.92 64.55 %O 0 92.66 -20.70 90.75 %Y 1 83.63 -82.76 79.90 %L 2 86.88 -46.17 -13.56 %C 3 %see TABle 1 of ISO/IEC 15775:1999-12 30.39 76.06 -103.6 %V 4 corected 57.30 94.35 -58.42 %M 5 corected 00.01 0.00 0.00 %N 7 corected 95.41 0.00 0.00 %W 8 ] def %OYLCVMO+NW /LAB*02 [%D=Device OYLCVMO+NW %for Device Reflective System (FRS06. FUJI) 32.57 61.14 43.72 %8-0-0 O-W 0 olv* setrgbcolor 64 82.73 -3.51 109.24 %8-8-0 Y-W 1 olv* setrgbcolor 32 39.43 -62.87 42.80 %0-8-0 L-W 2 olv* setrgbcolor 80 47.86 -27.73 -37.62 %0-8-8 C-W 3 olv* setrgbcolor 0 actual printer 10.16 53.56 -62.92 %0-0-8 V-W 4 olv* setrgbcolor 96 34.50 79.53 -36.77 %8-0-8 M-W 5 olv* setrgbcolor 16 06.25 -1.63 -1.73 %0-0-0 N-W 6 olv* setrgbcolor 48 91.97 -0.18 -5.11 %8-8-8 A-W 7 olv* setrgbcolor ] def %OYLCVMO+NW /LAB*03 [%D=Device OYLCVMO+NW %for Television Luminous System (TLS18) 52.76 71.63 49.88 %O 0 92.74 -20.03 84.97 %Y 1 84.00 -78.99 73.94 %L 2 87.14 -44.42 -13.12 %C 3 %see TABle 1 of ISO/IEC 15775:1999-12 35.47 64.92 -95.07 %V 4 %see TABle X of ISO/IEC TR 24705:2005-10 59.01 89.33 -55.68 %M 5 %see Annex A, www.ps.bam.de/RLABE.PDF 18.01 0.00 0.00 %N 6 Yr=2.52 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW /LAB*04 [%Natural symmetric Luminous System OYLCVMO+NW (NLS00) 31.81 82.62 47.70 %O 0 95.40/2 = 47.70 63.61 00.00 95.40 %Y 1 C*ab = 95.40 31.81 -82.62 47.70 %L 2 0.866 C*ab = 0.866 * 95.40 = 82.62 63.61 -82.62 -47.70 %C 3 delta L*=25.8 31.81 00.00 -95.40 %V 4 43.81=00.01+31.80 63.61 82.62 -47.70 %M 5 69.61=00.01+2*31.80 00.01 0.00 0.00 %N 6 95.40/3 = 31.80 95.41 0.00 0.00 %W 7 95.40*(2/3) = 63.60 ] def %CVMOYLC+NW /LAB*05 [%Natural symmetric reflective System OYLCVMO+NW (NRS18) 56.71 69.87 33.29 %O 0 77.40/2 = 38.70 56.71 -3.11 77.34 %Y 1 C*ab = 77.40 56.71 -73.69 23.63 %L 2 0.866 C*ab = 67.03 56.71 -61.82 -46.55 %C 3 delta L*=25.8 56.71 2.35 -77.35 %V 4 43.81=18.01+25.80 56.71 66.07 -40.31 %M 5 69.61=18.01+2*25.80 18.01 0.00 0.00 %N 6 18.01+77.40/3 = 18.01+25.80=43.81 95.41 0.00 0.00 %W 7 18.01+77.40*(2/3) = 18.01+51.60=69.61 ] def %CVMOYLC+NW /LAB*06 [%Symmetric Reflective System OYLCVMO+NW (SRS18) 56.71 67.03 38.70 %O 0 18.01 + 77.40*0.5 = 18.01 + 38.70 = 56.71 56.71 00.00 77.40 %Y 1 C*ab = 77.40 56.71 -67.03 38.70 %L 2 0.866 C*ab = 67.03 56.71 -67.03 -38.70 %C 3 delta L*=25.8 56.71 00.00 -77.40 %V 4 43.81=18.01+25.80 56.71 67.03 -38.70 %M 5 69.61=18.01+2*25.80 18.01 0.00 0.00 %N 6 95.41 0.00 0.00 %W 7 95.41=18.01+3*25.80 ] def %CVMOYLC+NW /LAB*07 [%D=Device OYLCVMO+NW %for Television Luminous System (TLS70) 76.43 26.27 10.57 %O 0 93.93 -10.77 34.63 %Y 1 89.32 -35.81 27.64 %L 2 90.93 -21.96 -7.08 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 72.10 15.76 -35.64 %V 4 78.50 37.52 -25.24 %M 5 69.70 0.00 0.00 %N 6 Yr=40.32 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW } if %ISRLx=0 ISRLx 1 eq { %ISRLx=1 /LAB*00 [%D=Device CVMOYLC+NW %for Television Luminous System (TLS00) 50.50 76.91 64.55 %O 0 92.66 -20.68 90.75 %Y 1 83.62 -82.74 79.90 %L 2 86.88 -46.15 -13.54 %C 3 %see TABle 1 of ISO/IEC 15775:1999-12 30.39 76.06 -103.6 %V 4 %see TABle X of ISO/IEC TR 24705:2005-10 57.31 94.35 -58.40 %M 5 %see Annex A, www.ps.bam.de/RLABE.PDF 00.01 0.00 0.00 %N 6 Yr=0.00 95.41 0.00 0.00 %W 7 ] def %CVMOYLC+NW /LAB*01 [%D=Device CVMOYLC+NW %for Television Luminous System (TLS06) 51.08 75.54 59.69 %O 0 92.68 -20.51 89.24 %Y 1 83.72 -81.79 78.32 %L 2 86.94 -45.72 -13.43 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 31.77 72.91 -101.3 %V 4 57.74 93.06 -57.71 %M 5 05.69 0.00 0.00 %N 6 Yr=0.63 95.41 0.00 0.00 %W 7 ] def %CVMOYLC+NW /LAB*02 [%D=Device CVMOYLC+NW %for Television Luminous System (TLS11) 51.65 74.20 55.83 %O 0 92.70 -20.35 87.77 %Y 1 83.81 -80.85 76.81 %L 2 87.01 -45.28 -13.33 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 33.06 70.03 -99.09 %V 4 58.17 91.80 -57.03 %M 5 10.99 0.00 0.00 %N 6 Yr=1.26 95.41 0.00 0.00 %W 7 ] def %CVMOYLC+NW /LAB*03 [%D=Device CVMOYLC+NW %for Television Luminous System (TLS18) 52.76 71.63 49.88 %O 0 92.74 -20.03 84.97 %Y 1 84.00 -78.99 73.94 %L 2 87.14 -44.42 -13.12 %C 3 %see TABle 1 of ISO/IEC 15775:1999-12 35.47 64.92 -95.07 %V 4 %see TABle X of ISO/IEC TR 24705:2005-10 59.01 89.33 -55.68 %M 5 %see Annex A, www.ps.bam.de/RLABE.PDF 18.01 0.00 0.00 %N 6 Yr=2.52 95.41 0.00 0.00 %W 7 ] def %CVMOYLC+NW /LAB*04 [%D=Device CVMOYLC+NW %for Television Luminous System (TLS27) 54.88 66.84 41.69 %O 0 92.82 -19.39 79.81 %Y 1 84.37 -75.39 68.76 %L 2 87.40 -42.72 -12.70 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 39.70 56.66 -88.02 %V 4 60.64 84.61 -53.08 %M 5 26.85 0.00 0.00 %N 6 Yr=5.04 95.41 0.00 0.00 %W 7 ] def %CVMOYLC+NW /LAB*05 [%D=Device CVMOYLC+NW %for Television Luminous System (TLS38) 58.77 58.45 31.73 %O 0 92.98 -18.11 70.81 %Y 1 85.11 -68.58 60.02 %L 2 87.92 -39.42 -11.87 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 46.64 44.93 -76.56 %V 4 63.71 75.92 -48.22 %M 5 37.99 0.00 0.00 %N 6 Yr=10.08 95.41 0.00 0.00 %W 7 ] def %CVMOYLC+NW /LAB*06 [%D=Device CVMOYLC+NW %for Television Luminous System (TLS52) 65.53 45.06 20.98 %O 0 93.30 -15.61 56.27 %Y 1 86.55 -56.31 46.52 %L 2 88.94 -33.19 -10.24 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 57.17 30.66 -59.40 %V 4 69.22 60.95 -39.57 %M 5 52.02 0.00 0.00 %N 6 Yr=20.16 95.41 0.00 0.00 %W 7 ] def %CVMOYLC+NW /LAB*07 [%D=Device CVMOYLC+NW %for Television Luminous System (TLS70) 76.43 26.27 10.57 %O 0 93.93 -10.77 34.63 %Y 1 89.32 -35.81 27.64 %L 2 90.93 -21.96 -7.08 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 72.10 15.76 -35.64 %V 4 78.50 37.52 -25.24 %M 5 69.70 0.00 0.00 %N 6 Yr=40.32 95.41 0.00 0.00 %W 7 ] def %CVMOYLC+NW } if %ISRLx=1 ISRLx 2 eq { %ISRLx=2 /LAB*00 [%D=Device OYLCVMO+NW %for Offset Luminous System (OLS00) 45.14 71.37 75.54 %O 0 90.22 -10.60 99.51 %Y 1 48.45 -73.19 42.21 %L 2 56.88 -33.11 -47.41 %C 3 %see TABle 1 of ISO/IEC 15775:1999-12 16.48 45.84 -56.22 %V 4 %see TABle X of ISO/IEC TR 24705:2005-10 45.36 81.85 -9.29 %M 5 %see Annex A, www.ps.bam.de/RLABE.PDF 00.01 0.00 0.00 %N 6 Yr=0.00 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW /LAB*01 [%D=Device OYLCVMO+NW %for Offset Luminous System (OLS06) 45.87 69.79 66.99 %O 0 90.25 -10.51 97.42 %Y 1 49.08 -70.28 40.08 %L 2 57.33 -32.38 -46.80 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 19.26 40.73 -52.47 %V 4 46.07 80.12 -9.04 %M 5 05.69 0.00 0.00 %N 6 Yr=0.63 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW /LAB*02 [%D=Device OYLCVMO+NW %for Offset Luminous System (OLS11) 46.57 68.27 59.62 %O 0 90.29 -10.43 95.45 %Y 1 49.70 -67.60 38.19 %L 2 57.76 -31.68 -46.19 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 21.67 36.81 -49.37 %V 4 46.77 78.45 -8.80 %M 5 10.99 0.00 0.00 %N 6 Yr=1.26 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW /LAB*03 [%D=Device OYLCVMO+NW %for Offset Luminous System (OLS18) 47.94 65.39 50.52 %O 0 90.37 -10.26 91.75 %Y 1 50.90 -62.83 34.96 %L 2 58.62 -30.34 -45.01 %C 3 %see TABle 1 of ISO/IEC 15775:1999-12 25.72 31.10 -44.40 %V 4 %see TABle X of ISO/IEC TR 24705:2005-10 48.13 75.28 -8.36 %M 5 %see Annex A, www.ps.bam.de/RLABE.PDF 18.01 0.00 0.00 %N 6 Yr=2.52 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW /LAB*04 [%D=Device OYLCVMO+NW %for Offset Luminous System (OLS27) 50.51 60.17 40.13 %O 0 90.52 -9.92 85.20 %Y 1 53.18 -55.04 30.00 %L 2 60.28 -27.91 -42.75 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 32.06 24.02 -37.32 %V 4 50.68 69.50 -7.57 %M 5 26.85 0.00 0.00 %N 6 Yr=5.04 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW /LAB*05 [%D=Device OYLCVMO+NW %for Offset Luminous System (OLS38) 55.13 51.42 29.16 %O 0 90.83 -9.25 74.37 %Y 1 57.35 -43.84 23.35 %L 2 63.39 -23.83 -38.56 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 41.26 16.67 -28.49 %V 4 55.27 59.74 -6.32 %M 5 37.99 0.00 0.00 %N 6 Yr=10.08 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW /LAB*06 [%D=Device OYLCVMO+NW %for Offset Luminous System (OLS52) 62.90 38.38 18.55 %O 0 91.44 -7.95 57.91 %Y 1 64.49 -30.06 15.67 %L 2 68.98 -17.74 -31.24 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 53.87 10.09 -18.84 %V 4 63.00 44.96 -4.56 %M 5 52.02 0.00 0.00 %N 6 Yr=20.16 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW /LAB*07 [%D=Device OYLCVMO+NW %for Offset Luminous System (OLS70) 75.01 21.53 9.07 %O 0 92.64 -5.45 34.85 %Y 1 75.86 -15.50 7.96 %L 2 78.37 -9.90 -19.51 %C 3 %see Annex A, www.ps.bam.de/RLABE.PDF 70.54 4.74 -9.47 %V 4 75.07 25.47 -2.46 %M 5 69.70 0.00 0.00 %N 6 Yr=40.32 95.41 0.00 0.00 %W 7 ] def %OYLCVMO+NW } if %ISRLx=2 %BEG for in/output using ISYSx (input/output) 0 1 11 {/sISO exch def /i30 sISO 3 mul def /i31 i30 1 add def /i32 i30 2 add def sISO 7 le { %sISO=0,7 ISYSx 0 eq { %ORS18/TLS00/OLS00 LAB*X i30 LAB*00 i30 get put LAB*X i31 LAB*00 i31 get put LAB*X i32 LAB*00 i32 get put } if ISYSx 1 eq { %TLS00/TLS06/OLS06 LAB*X i30 LAB*01 i30 get put LAB*X i31 LAB*01 i31 get put LAB*X i32 LAB*01 i32 get put } if ISYSx 2 eq { %FRS06/TLS11/OLS11 LAB*X i30 LAB*02 i30 get put LAB*X i31 LAB*02 i31 get put LAB*X i32 LAB*02 i32 get put } if ISYSx 3 eq { %TLS18/TLS18/OLS18 LAB*X i30 LAB*03 i30 get put LAB*X i31 LAB*03 i31 get put LAB*X i32 LAB*03 i32 get put } if ISYSx 4 eq { %NLS00/TSL28/OLS28 LAB*X i30 LAB*04 i30 get put LAB*X i31 LAB*04 i31 get put LAB*X i32 LAB*04 i32 get put } if ISYSx 5 eq { %NRS18/TLS38/OLS38 LAB*X i30 LAB*05 i30 get put LAB*X i31 LAB*05 i31 get put LAB*X i32 LAB*05 i32 get put /} if ISYSx 6 eq { %SRS18/TLS50/OLS50 LAB*X i30 LAB*06 i30 get put LAB*X i31 LAB*06 i31 get put LAB*X i32 LAB*06 i32 get put } if ISYSx 7 eq { %TLS70/TLS70/OLS70 LAB*X i30 LAB*07 i30 get put LAB*X i31 LAB*07 i31 get put LAB*X i32 LAB*07 i32 get put } if } %sISO=0,7 { %sISO=8,11 /jISO sISO 8 sub def /j30 jISO 3 mul def /j31 j30 1 add def /j32 j30 2 add def LAB*X i30 LAB*eX j30 get put LAB*X i31 LAB*eX j31 get put LAB*X i32 LAB*eX j32 get put } ifelse %sISO=0,7 and 8,11 } for 0 1 11 {/sISi exch def /i30 sISi 3 mul def /i31 i30 1 add def /i32 i30 2 add def LAB*aX i30 LAB*X i30 get put /l*CIE LAB*X i30 get LAB*X 18 get sub LAB*X 21 get LAB*X 18 get sub div def %rel. lightn. /a*s LAB*X 22 get LAB*X 19 get sub l*CIE mul def /b*s LAB*X 23 get LAB*X 20 get sub l*CIE mul def LAB*aX i31 LAB*X i31 get LAB*X 19 get sub a*s sub put LAB*aX i32 LAB*X i32 get LAB*X 20 get sub b*s sub put } for 0 1 6 {/sISi exch def %d=device colours /i30 sISi 3 mul def /i31 i30 1 add def /i32 i30 2 add def sISi 6 lt {%sISi<6 L*adX sISi LAB*aX i30 get put A*adX sISi LAB*aX i31 get put B*adX sISi LAB*aX i32 get put C*adX sISi A*adX sISi get dup mul B*adX sISi get dup mul add 0.000001 add sqrt put H*adX sISi B*adX sISi get A*adX sISi get 0.000001 add atan put } {%sISi=6 L*adX 6 L*adX 0 get put A*adX 6 A*adX 0 get put B*adX 6 B*adX 0 get put C*adX 6 C*adX 0 get put H*adX 6 H*adX 0 get 360 add put %for interpolation } ifelse } for %achmromatic colours /L*adN LAB*aX 18 get def /A*adN LAB*aX 19 get def /B*adN LAB*aX 20 get def /C*adN 0.0 def /H*adN 0.0 def /L*adW LAB*aX 21 get def /A*adW LAB*aX 22 get def /B*adW LAB*aX 23 get def /C*adW 0.0 def /H*adW 0.0 def 0 1 4 {/sISi exch def %e=elementary colours /i30 sISi 8 add 3 mul def /i31 i30 1 add def /i32 i30 2 add def sISi 4 lt {%sISi<4 L*aeX sISi LAB*aX i30 get put A*aeX sISi LAB*aX i31 get put B*aeX sISi LAB*aX i32 get put C*aeX sISi A*aeX sISi get dup mul B*aeX sISi get dup mul add 0.000001 add sqrt put H*aeX sISi B*aeX sISi get A*aeX sISi get 0.000001 add atan put } {%sISi=4 L*aeX 4 L*aeX 0 get put A*aeX 4 A*aeX 0 get put B*aeX 4 B*aeX 0 get put C*aeX 4 C*aeX 0 get put H*aeX 4 H*aeX 0 get 360 add put %for interpolation } ifelse } for %END for input using ISYSx (x=input/output) } def %END Procedure LAB*inoutxM %****************************************************************** /H*adi_olv*3M_LCHAB*aM_H*asi_Table {%BEG Procedure %for OYLCVMO (30,90,150,210,270,330,030 degree) %input olv*3dX, H*dM, LAB*aeX, LAB*adX von System: ORS18, TLS18, NRS18, SRS18 etc. %output LCHAB*aM 0 1 359 {/ih exch def %ih=0,359 H*adi ih ih put /IEND 0 def /iha ih def iha 0 ge iha H*adX 0 get lt and {/iha iha 360 add def} if 0 1 5 {/jh exch def %jh=0,6 iha H*adX jh get ge iha H*adX jh 1 add get lt and IEND 0 eq and {/j30 jh 3 mul def /j31 j30 1 add def /j32 j30 2 add def /H*aX0 H*adX jh get def /L*aX0 L*adX jh get def /A*aX0 A*adX jh get def /B*aX0 B*adX jh get def /o*3X0 olv*3dX j30 get def /l*3X0 olv*3dX j31 get def /v*3X0 olv*3dX j32 get def /H*aX1 H*adX jh 1 add get def /L*aX1 L*adX jh 1 add get def /A*aX1 A*adX jh 1 add get def /B*aX1 B*adX jh 1 add get def /o*3X1 olv*3dX j30 3 add get def /l*3X1 olv*3dX j31 3 add get def /v*3X1 olv*3dX j32 3 add get def /alpha iha H*adX jh get sub H*adX jh 1 add get H*adX jh get sub 0.000001 add div def /IEND 1 def exit } if } for %jh=0,5 IEND 0 eq {TBG 500 1000 moveto (IEND=0 Failure H*adi_olv*3M_LCHAB*aM_H*asi_Table) show} if iha 360 ge {/iha iha 360 sub def} if o*3Mi ih o*3X0 o*3X1 o*3X0 sub alpha mul add put l*3Mi ih l*3X0 l*3X1 l*3X0 sub alpha mul add put v*3Mi ih v*3X0 v*3X1 v*3X0 sub alpha mul add put /m01 H*aX1 sin H*aX0 sin sub H*aX1 cos H*aX0 cos sub 0.000001 add div def /tani ih sin ih cos 0.000001 add div def L*aMi ih L*aX0 L*aX1 L*aX0 sub alpha mul add put A*aMi ih B*aX0 A*aX0 m01 mul sub tani m01 sub 0.000001 add div put B*aMi ih A*aMi ih get tani mul put C*aMi ih A*aMi ih get dup mul B*aMi ih get dup mul add 0.000001 add sqrt put H*aMi ih B*aMi ih get A*aMi ih get 0.000001 add atan put %hypothetical angles 30, 90, ..., 330 for table transfer /xMT {o*3Mi ih get 030 cos mul l*3Mi ih get 150 cos mul add} bind def /yMT {o*3Mi ih get 030 sin mul l*3Mi ih get 150 sin mul add v*3Mi ih get 270 sin mul add} bind def H*asi ih yMT xMT 0.000001 add atan round cvi put } for %i=0,359 H*adi 360 H*adi 0 get put H*asi 360 H*asi 0 get put L*aMi 360 L*aMi 0 get put C*aMi 360 C*aMi 0 get put H*aMi 360 H*aMi 0 get put A*aMi 360 A*aMi 0 get put B*aMi 360 B*aMi 0 get put o*3Mi 360 o*3Mi 0 get put l*3Mi 360 l*3Mi 0 get put v*3Mi 360 v*3Mi 0 get put } bind def %END Procedure H*adi_olv*3M_LCHAB*aM_H*asi_Table %****************************************************************** /H*adi_to_H*aei { %BEG Procedure H*adi_to_H*aei %360 steps used in both cases for the range 0 <= H*ad, H*ae <= 1 %main equations %alphae = [col_angd - H*aeX(je)]/[H*aeX(je+1) - H*aeX(je)] %col_angd = alphae [H*aeX(je+1) - H*aeX(je)] + H*aeX(je) 0 1 359 {/id exch def %id=0,359 /col_angd id def col_angd 0 ge col_angd H*aeX 0 get lt and {/col_angd col_angd 360 add def} if /IEND 0 def 0 1 3 {/je exch def %je=0,3 col_angd H*aeX je get ge col_angd H*aeX je 1 add get lt and IEND 0 eq and {/alphae col_angd H*aeX je get sub H*aeX je 1 add get H*aeX je get sub div def je 0 eq {/col_ange 0.00 alphae add 90 mul def} if je 1 eq {/col_ange 1.00 alphae add 90 mul def} if je 2 eq {/col_ange 2.00 alphae add 90 mul def} if je 3 eq {/col_ange 3.00 alphae add 90 mul def} if /IEND 1 def exit } if } for %je=0,3 IEND 0 eq {TBG 500 1000 moveto (IEND=0 Failure H*aei_to_H*adi) show} if col_ange 360 ge {/col_ange col_ange 360 sub def} if h*di_e id col_ange 360 div put H*adi_ei id col_ange round cvi put } for %id=0,359 h*di_e 360 h*di_e 0 get put H*adi_ei 360 H*adi_ei 0 get put } bind def %END H*adi_to_H*aei %****************************************************************** /H*aei_to_H*adi { %BEG Procedure H*aei_to_H*adi %360 steps used for the range 0 <= H*ad, H*ae <= 360 %main equations: %alphae = [col_ange - H*aeX(je)]/[H*aeX(je+1) - H*aeX(je)] %col_ange = alphae [H*aeX(je+1) - H*aeX(je)] + H*aeX(je) 0 1 359 {/ie exch def %ie=0,359 ie 000 ge ie 089 le and {/je 0 def /alphae ie 90 div 0 sub def} if ie 090 ge ie 179 le and {/je 1 def /alphae ie 90 div 1 sub def} if ie 180 ge ie 269 le and {/je 2 def /alphae ie 90 div 2 sub def} if ie 270 ge ie 359 le and {/je 3 def /alphae ie 90 div 3 sub def} if /col_ange {H*aeX je 1 add get H*aeX je get sub alphae mul H*aeX je get add} bind def col_ange 360 ge {/col_ange col_ange 360 sub def} if h*ei_d ie col_ange 360 div put H*aei_di ie col_ange round cvi put } for %ie=0,359 h*ei_d 360 h*ei_d 0 get put H*aei_di 360 H*aei_di 0 get put } bind def %END H*aei_to_H*adi %****************************************************************** /H*adi_to_H*asi { %BEG Procedure H*adi_to_H*asi %360 steps used in both cases for the range 0 <= H*ad, H*as <= 360 %main equations: %alphad = [col_angd - H*adX(n)]/[H*adX(n+1) - H*adX(n)] %col_angd = alphad [H*adX(n+1) - H*adX(n)] + H*adX(n) 0 1 359 {/id exch def %id=0,359 /col_angd id def /IEND 0 def col_angd 0 ge col_angd H*adX 0 get lt and {/col_angd col_angd 360 add def} if 0 1 5 {/jd exch def %jd=0,5 col_angd H*adX jd get ge col_angd H*adX jd 1 add get lt and IEND 0 eq and {/j*pad jd def /A*Angd H*adX jd get def /B*Angd H*adX jd 1 add get def /IEND 1 def exit} if } for %jd=0,5 IEND 0 eq {TBG 500 1000 moveto (IEND=0 Failure col_angh) show} if /alphad {col_angd A*Angd sub B*Angd A*Angd sub div} bind def /betad {1 alphad sub} bind def /j*pad1 j*pad def /j*pad2 j*pad 4 le {j*pad1 1 add} {0} ifelse def /col_angs H*asX j*pad2 get H*asX j*pad1 get sub alphad mul H*asX j*pad1 get add def col_angs 360 ge {/col_angs col_angs 360 sub def} if h*di_s id col_angs 360 div put H*adi_si id col_angs round cvi put } for %id=0,359 h*di_s 360 h*di_s 0 get put H*adi_si 360 H*adi_si 0 get put } bind def %END H*adi_to_H*asi %****************************************************************** /H*asi_to_H*adi { %BEG Procedure H*asi_to_H*adi %360 steps used in both cases for the range 0 <= H*ad, H*as <= 360 %main equations: %alphas = [col_angs - LAB*asX(h)]/[LAB*asX(n+1) - LAB*asX(n)] % = [col_angs - LAB*asX(h)]/60 %col_angd = alphas [LAB*adX(n+1) - LAB*adX(n)] + LAB*adX(n) 0 1 359 {/is exch def %is=0,359 /col_angs is def is 000 ge is 029 le and {/jpan0 5 def /jpan1 6 def /col_angs col_angs 360 add def} if is 030 ge is 089 le and {/jpan0 0 def /jpan1 1 def} if is 090 ge is 149 le and {/jpan0 1 def /jpan1 2 def} if is 150 ge is 209 le and {/jpan0 2 def /jpan1 3 def} if is 210 ge is 269 le and {/jpan0 3 def /jpan1 4 def} if is 270 ge is 359 le and {/jpan0 4 def /jpan1 5 def} if is 000 ge is 029 le and {/jpan0 5 def /jpan1 6 def} if /alphas {col_angs H*asX jpan0 get sub 60 div} bind def /col_angd {H*adX jpan1 get H*adX jpan0 get sub alphas mul H*adX jpan0 get add} bind def col_angd 360 ge {/col_angd col_angd 360 sub def} if h*si_d is col_angd 360 div put H*asi_di is col_angd round cvi put } for %is=0,359 h*si_d 360 h*si_d 0 get put H*asi_di 360 H*asi_di 0 get put } bind def %END H*asi_to_H*adi %****************************************************************** /LABCH*a_XYZxya_sRGB_AdobeRGB %input/output Fav {%BEG Procedure LABCH*a_XYZxya_sRGB_AdobeRGB /LAB*Hv exch def /LAB*Cv exch def /LAB*Lv exch def /LAB*Av {LAB*Cv LAB*Hv cos mul} bind def /LAB*Bv {LAB*Cv LAB*Hv sin mul} bind def /CIEF 1 88.60 div def /X* {LAB*Lv 16 add 116 div LAB*Av 500 div add } bind def /Y* {LAB*Lv 16 add 116 div } bind def /Z* {LAB*Lv 16 add 116 div LAB*Bv 200 div sub} bind def /DecodeXYZ* { dup 6 29 div ge { dup dup mul mul } { 4 29 div sub 108 841 div mul } ifelse } bind def /XCIEv {X* DecodeXYZ* 95.05 mul} bind def /YCIEv {Y* DecodeXYZ* 100.00 mul} bind def /ZCIEv {Z* DecodeXYZ* 108.90 mul} bind def /XYZSUM {XCIEv YCIEv add ZCIEv add} bind def /xCIEv {XCIEv XYZSUM 0.000001 add div} bind def /yCIEv {YCIEv XYZSUM 0.000001 add div} bind def /XRGBv {XCIEv CIEF mul} bind def /YRGBv {YCIEv CIEF mul} bind def /ZRGBv {ZCIEv CIEF mul} bind def %Transformation X Y Z to RsRGB, GsRGB, BsRGB /RsRGB XRGBv 3.2406 mul YRGBv -1.5372 mul add ZRGBv -0.4986 mul add def /GsRGB XRGBv -0.9686 mul YRGBv 1.8758 mul add ZRGBv 0.0415 mul add def /BsRGB XRGBv 0.0557 mul YRGBv -0.2040 mul add ZRGBv 1.0570 mul add def /Slope 1.0 2.4 div def RsRGB 0.00313008 le {/R'sRGBv RsRGB 12.92 mul def} {/R'sRGBv RsRGB Slope exp 1.055 mul 0.055 sub def} ifelse GsRGB 0.00313008 le {/G'sRGBv GsRGB 12.92 mul def} {/G'sRGBv GsRGB Slope exp 1.055 mul 0.055 sub def} ifelse BsRGB 0.00313008 le {/B'sRGBv BsRGB 12.92 mul def} {/B'sRGBv BsRGB Slope exp 1.055 mul 0.055 sub def} ifelse %Transformation X Y Z to RAdobeRGB, GAdobeRGB, BAdobeRGB /RAdobeRGB XRGBv 2.04159 mul YRGBv -0.56501 mul add ZRGBv -0.34473 mul add def /GAdobeRGB XRGBv -0.96924 mul YRGBv 1.87597 mul add ZRGBv 0.04156 mul add def /BAdobeRGB XRGBv 0.01344 mul YRGBv -0.11836 mul add ZRGBv 1.01517 mul add def /Slope 1.0 2.19921875 div def /R'AdobeRGBv RAdobeRGB 0.000001 add abs Slope exp RAdobeRGB 0 lt {neg} if def /G'AdobeRGBv GAdobeRGB 0.000001 add abs Slope exp GAdobeRGB 0 lt {neg} if def /B'AdobeRGBv BAdobeRGB 0.000001 add abs Slope exp BAdobeRGB 0 lt {neg} if def } bind def %END Procedure LABCH*a_XYZxya_sRGB_AdobeRGB %****************************************************************** /lab*olv*3_to_lab*tcn*_H*si {%BEG Procedure lab*olv*3_to_lab*tcn*_H*si %input/output Fau /lab*v*3u exch def /lab*l*3u exch def /lab*o*3u exch def %input: lab*olv3: lab*o*3u, lab*l*3u, lab*v*3u %output: lab*tch: lab*t*u, lab*c*u, lab*h*u %Min and max /minolv*3 lab*o*3u def lab*l*3u minolv*3 lt {/minolv*3 lab*l*3u def} if lab*v*3u minolv*3 lt {/minolv*3 lab*v*3u def} if /maxolv*3 lab*o*3u def lab*l*3u maxolv*3 gt {/maxolv*3 lab*l*3u def} if lab*v*3u maxolv*3 gt {/maxolv*3 lab*v*3u def} if /lab*c*u {maxolv*3 minolv*3 sub} bind def /lab*t*u {minolv*3 lab*c*u 0.5 mul add} bind def /lab*n*u {1 maxolv*3 sub} bind def /iachr 0 def lab*c*u 0.001 ge { %hypothetical angles 30, 90, ..., 330 /xFau {lab*o*3u 030 cos mul lab*l*3u 150 cos mul add} bind def /yFau {lab*o*3u 030 sin mul lab*l*3u 150 sin mul add lab*v*3u 270 sin mul add} bind def /H*si {yFau xFau 0.000001 add atan round cvi} def /iachr 0 def } { /H*si 0 def /iachr 1 def } ifelse } bind def %END Procedure lab*olv*3_to_lab*tcn*_H*si %*********************************************************** /nshow {300 /Times-ISOL1 FS show} bind def /kshow {300 /TimesI-ISOL1 FS show} bind def /bshow {300 /TimesB-ISOL1 FS show} bind def /jshow {300 /TimesBI-ISOL1 FS show} bind def /sshow {300 /Symbol FS show} bind def /ishow {220 /Times-ISOL1 FS -00 -50 rmoveto show 00 50 rmoveto} bind def /eshow {220 /Times-ISOL1 FS 0 100 rmoveto show 0 -100 rmoveto} bind def /cvishow {0.5 add cvi 6 string cvs show} def /cvsshow1 {0.05 add 10 mul cvi 0.1 mul 7 string cvs show} def /cvsshow2 {0.005 add 100 mul cvi 0.01 mul 7 string cvs show} def /cvsshow3 {0.0005 add 1000 mul cvi 0.001 mul 7 string cvs show} def %%EndProlog gsave /lanind 0 def /lantex [(G) (E) (S) (N) (I) (J) (M)] def /showde {0 lanind eq {show} {pop} ifelse} bind def /showen {1 lanind eq {show} {pop} ifelse} bind def /showes {2 lanind eq {show} {pop} ifelse} bind def /showfr {3 lanind eq {show} {pop} ifelse} bind def /showit {4 lanind eq {show} {pop} ifelse} bind def /showjp {5 lanind eq {show} {pop} ifelse} bind def /showm {6 lanind eq {show} {pop} ifelse} bind def /lanindg where {pop /lanind1 lanindg def /lanind2 lanindg def} {/lanind1 1 def /lanind2 1 def} ifelse /colormg where {pop /colorm1 colormg def /colorm2 colormg def} {/colorm1 0 def /colorm2 0 def} ifelse /xcolorg where {pop /xcolor1 xcolorg def /xcolor2 xcolorg def} {/xcolor1 0 def /xcolor2 0 def} ifelse /xchartg where {pop /xchart1 xchartg def /xchart2 xchartg 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 /GSS$ where {pop /LSS$ GSS$ def} {/LSS$ (1) def} ifelse /GSC$ where {pop /LSC$ GSC$ def} {/LSC$ (N) def} ifelse /GSX$ where {pop /LSX$ GSX$ def} {/LSX$ (0) def} ifelse /GSY$ where {pop /LSY$ GSY$ def} {/LSY$ (0) def} ifelse /GEX$ where {pop /LEX$ GEX$ def} {/LEX$ (P.PS./PDF) def} ifelse /GEY$ where {pop /LEY$ GEY$ def} {/LEY$ (P.DAT) def} ifelse /IMES where {pop %/IMES IMES def } {/IMES 0 def} ifelse /nr1 [(01) (02) (03) (04) (05) (06) (07) (08) (09) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20)] def /tx1 [(A) (B) (C) (D) (E) (F) (G) (H) (I) (J) (K) (L) (M) (N) (O) (P) (Q) (R) (S) (T) (U) (V) (W) (X) (Y) (Z)] def /txc [(a) (b) (c) (d) (e) (f) (g) (h) (i) (j) (k) (l) (m) (n) (o) (p) (q) (r) (s) (t) (u) (v) (w) (x) (y) (z)] def /xchartg where {pop /xchart xchartg def} {/xchart 0 def} ifelse /xcolorg where {pop /xcolor xcolorg def} {/xcolor 0 def} ifelse 72 90 translate 0.01 MM dup scale gsave %00 1 191 {/xchart exch def %xchart=00,191 %for 00<=xchart<=07 ORS18, . %for 08<=xchart<=15 TLS00, . %for 16<=xchart<=23 FRS06, . %... %for 48<=xchart<=55 SRS18, . %for 56<=xchart<=63 TLS70, . /xcolor xchart 64 idiv def %0,1,2 /xcharx xchart xchart 64 idiv 64 mul sub def %0..63 /xchary xcharx 8 idiv def %0..7 /ISRLx xcolor def %three standard series ORS18,..TLS00,..OLS00,.. /ISYS0 xchary def %0..7 /ISYSx ISYS0 def %0..7 /TSYSIO TSYSx ISRLx 8 mul ISYSx add get def %not possible for files with 00 1 191 for xchartg %xchart xchart 8 idiv 8 mul sub 0 eq { %only for xchart=00,08,16,...186 LAB*inoutxM %Create tables for 360 elementary hues for both input and output H*aei_to_H*adi H*adi_to_H*aei H*adi_to_H*asi H*asi_to_H*adi %Create tables for 360 hues for both input and output H*adi_olv*3M_LCHAB*aM_H*asi_Table /T360m {TBK -00 -80 rmoveto (360) show 00 80 rmoveto TBIK} bind def /T*Mm {TBK -30 -80 rmoveto (M) show 30 80 rmoveto TBIK} bind def /T*di {TBK -30 -80 rmoveto (di) show 30 80 rmoveto TBIK} bind def /T*ei {TBK -30 -80 rmoveto (ei) show 30 80 rmoveto TBIK} bind def /T*si {TBK -30 -80 rmoveto (si) show 30 80 rmoveto TBIK} bind def /T*d {TBK -30 -80 rmoveto (d) show 30 80 rmoveto TBIK} bind def /T*e {TBK -30 -80 rmoveto (e) show 30 80 rmoveto TBIK} bind def /T*s {TBK -30 -80 rmoveto (s) show 30 80 rmoveto TBIK} bind def /T*3 {TBK -30 -80 rmoveto (3) show 30 80 rmoveto TBIK} bind def /T*3F {TBK -30 -80 rmoveto (3,F) show 30 80 rmoveto TBIK} bind def /T*F {TBK -30 -80 rmoveto (F) show 30 80 rmoveto TBIK} bind def /T*aF {TBK -30 -80 rmoveto (a,F) show 30 80 rmoveto TBIK} bind def /T*3M {TBK -30 -80 rmoveto (3,M) show 30 80 rmoveto TBIK} bind def /T*M {TBK -30 -80 rmoveto (M) show 30 80 rmoveto TBIK} bind def /T*aM {TBK -30 -80 rmoveto (a,M) show 30 80 rmoveto TBIK} bind def /T*sdeiF+M {TBK -30 -80 rmoveto (edsi,F+M) show 30 80 rmoveto TBIK} bind def /T*dseiM {TBK -30 -80 rmoveto (dsei,M) show 30 80 rmoveto TBIK} bind def /T*CIEaF {TBK -30 -80 rmoveto (CIE,a,F) show 30 80 rmoveto TBIK} bind def /TCIEaF {TBK -00 -80 rmoveto (CIE,a,F) show 00 80 rmoveto TBIK} bind def /TRGBF {TBK -00 -80 rmoveto (RGB,F) show 00 80 rmoveto TBIK} bind def /TsRGBF {TBK -00 -80 rmoveto (sRGB,F) show 00 80 rmoveto TBIK} bind def /TAdobeRGBF {TBK -00 -80 rmoveto (AdobeRGB,F) show 00 80 rmoveto TBIK} bind def /T*CIEaM {TBK -30 -80 rmoveto (CIE,a,M) show 30 80 rmoveto TBIK} bind def /TCIEaM {TBK -00 -80 rmoveto (CIE,a,M) show 00 80 rmoveto TBIK} bind def /TRGBM {TBK -00 -80 rmoveto (RGB,M) show 00 80 rmoveto TBIK} bind def /TsRGBM {TBK -00 -80 rmoveto (sRGB,M) show 00 80 rmoveto TBIK} bind def /TAdobeRGBM {TBK -00 -80 rmoveto (AdobeRGB,M) show 00 80 rmoveto TBIK} bind def %} if %only for xchart=0,8,16,...,186 /ijk xcharx xcharx 8 idiv 8 mul sub def %=0,1,..,7 gsave 1.0 setgray 0 0 moveto 25000 0 rlineto 0 17000 rlineto -25000 0 rlineto closepath fill 0.0 setgray 0 0 moveto 25000 0 rlineto 0 17000 rlineto -25000 0 rlineto closepath stroke 0 -240 moveto (YE810-7, ) nshow (Tables 360 colours) showen (Tabellen 360 Farben) showde (, page ) showen (, Seite ) showde xchart 1 add cvishow (/192) show TBK /xi 000 def xi 100 add 16700 moveto (Colorimetric data of Maximal colours M for system ) showen (Farbmetrischen Daten von Maximalfarben M f\374r System ) showde TSYSIO show (; input of) showen (; Eingabe von) showde TBIK ( nc*) show T*F (=(0 1);) show %( and output of ) showen ( und Ausgabe von ) showde %TBIK %xcolor 0 eq {( olv*) show T*3F} if %xcolor 1 eq {( cne*) show T*F} if %xcolor 2 eq {( LCH*) show T*aF} if %(;) show ( Six hue angles of the colour device:) showen ( Sechs Bunttonwinkel des Farbger\344tes:) showde ( \050) show H*adX 0 get cvsshow1 (, ) show H*adX 1 get cvsshow1 (, ) show H*adX 2 get cvsshow1 (, ) show H*adX 3 get cvsshow1 (, ) show H*adX 4 get cvsshow1 (, ) show H*adX 5 get cvsshow1 (\051; ) show (Four hue angles of the elementary colours:) showen (Vier Bunttonwinkel der Elementarfarben:) showde ( \050) show H*aeX 0 get cvsshow1 (, ) show H*aeX 1 get cvsshow1 (, ) show H*aeX 2 get cvsshow1 (, ) show H*aeX 3 get cvsshow1 (\051) show TBIK /ymax 16200 def %00100 in olv*3 values, delta=800 %02200 numbers and Systems, delta 600, 300, 600+200 %04000 olv*3F values, delta=700(3x),+200 %06400 ltncu*F values, delta=700(5x),+200 %10800 LCHAB*F values, delta=800(5x),+200 %15000 olv*3M values, delta=700 %17400 H*eds values, delta=600 %19400 LCH*M values, delta=800 /xd 2100 def %xi 02200 add xd sub 100 add ymax moveto (j) show %xi 02800 add xd sub ymax moveto (no.) showen (Nr.) showde %xi 03200 add xd sub ymax moveto (System) show xi 2200 add xd sub ymax moveto (H*) show T*dseiM xi 04200 add xd sub ymax moveto (olv*) show T*3M xi 06600 add xd sub ymax moveto (ltnceu*) show T*M xi 11000 add xd sub ymax moveto (LCHAB*) show T*aM %xi 15200 add xd sub ymax moveto (H*) show T*sdeiF+M %xi 17200 add ymax moveto (olv*) show T*3M %xi 19600 add ymax moveto (LCHAB*) show T*aM xi 15200 add xd sub ymax moveto (XYZxy) show TCIEaM xi 19200 add xd sub ymax moveto (XYZ) show TRGBM xi 21600 add xd sub ymax moveto (RGB') show TsRGBM xi 24000 add xd sub ymax moveto (RGB') show TAdobeRGBM TK /ymax 15500 def /ydel 340 def 0 1 45 {/i exch def %j=0,45 /ik45 ijk 45 mul i add def /yi {ymax i ydel mul sub} bind def xi 0100 add yi moveto ik45 cvishow % /ik45 H*asi_di i get def TK %in olv*3 values, delta=800 /lab*o*3u o*3Mi ik45 get def /lab*l*3u l*3Mi ik45 get def /lab*v*3u v*3Mi ik45 get def /lab*n*u 0.0 def /lab*c*u 1.0 def /lab*l*u 1.0 def /lab*t*u 0.5 def /iachr 0 def /LAB*L*aM iachr 0 eq {L*aMi ik45 get}{L*adW} ifelse def /LAB*C*aM iachr 0 eq {C*aMi ik45 get}{0.0} ifelse def /LAB*H*aM iachr 0 eq {H*aMi ik45 get}{0.0} ifelse def /LAB*A*aM iachr 0 eq {A*aMi ik45 get}{A*adW} ifelse def /LAB*B*aM iachr 0 eq {B*aMi ik45 get}{B*adW} ifelse def %c* = C*ab,a / C*ab,a,M %l* = [ L* - L*N] / [ L* W - L*N ] %t* = l* - c* { [ L*M - L*N ] / [ L* W - L*N ] - 0.5 } %n* = 1 - t* - 0.5 c* %alternate lab*l*u /LMR LAB*L*aM L*adN sub L*adW L*adN sub div def /lab*l*u lab*t*u LMR 0.5 sub lab*c*u mul add def /LAB*L*aF lab*l*u L*adW L*adN sub mul L*adN add def /LAB*C*aF LAB*C*aM lab*c*u mul def /LAB*H*aF LAB*H*aM def /LAB*A*aF LAB*A*aM lab*c*u mul def /LAB*B*aF LAB*B*aM lab*c*u mul def %numbers and Systems, delta 600, 300, 600 % xi 2200 add xd sub yi moveto %(%) show % ijk 9 le {(00) show} if % ijk 9 gt ijk 99 le and {(0) show} if ijk cvishow % /ISNRx ISRLx 8 mul ISYSx add def % xi 2800 add xd sub yi moveto ISNRx cvishow % xi 3200 add xd sub yi moveto TSYSIO show %H*eds values, delta=600 % xi 2200 add xd sub yi moveto H*asi ik45 get cvishow xi 2800 add xd sub yi moveto H*asi ik45 get cvishow xi 3400 add xd sub yi moveto H*adi_ei ik45 get cvishow %olv*3F values, delta=700+200 xi 4200 add xd sub yi moveto lab*o*3u cvsshow3 xi 4900 add xd sub yi moveto lab*l*3u cvsshow3 xi 5700 add xd sub yi moveto lab*v*3u cvsshow3 %ncue*F values, delta=700(4x), 600+200 xi 6600 add xd sub yi moveto lab*l*u cvsshow3 xi 7300 add xd sub yi moveto lab*t*u cvsshow3 xi 8000 add xd sub yi moveto lab*n*u cvsshow3 xi 8700 add xd sub yi moveto lab*c*u cvsshow3 xi 9400 add xd sub yi moveto h*di_e ik45 get cvsshow3 xi 10100 add xd sub yi moveto /uv* h*di_e ik45 get 4 mul def uv* 0 ge uv* 1 lt and {(r) show uv* 100 mul cvi dup 9 le {(0) show} if cvishow (j) show} if uv* 1 ge uv* 2 lt and {(j) show uv* 1 sub 100 mul cvi dup 9 le {(0) show} if cvishow (g) show} if uv* 2 ge uv* 3 lt and {(g) show uv* 2 sub 100 mul cvi dup 9 le {(0) show} if cvishow (b) show} if uv* 3 ge uv* 4 lt and {(b) show uv* 3 sub 100 mul cvi dup 9 le {(0) show} if cvishow (r) show} if uv* 4 eq {(r00j) show} if %LCH*F values, delta=800 xi 11000 add xd sub yi moveto LAB*L*aF cvsshow2 xi 11800 add xd sub yi moveto LAB*C*aF cvsshow2 xi 12600 add xd sub yi moveto LAB*H*aF cvsshow1 xi 13400 add xd sub yi moveto LAB*A*aF cvsshow2 xi 14200 add xd sub yi moveto LAB*B*aF cvsshow2 %H*eds values, delta=600 % xi 15200 add xd sub yi moveto H*asi ik45 get cvishow % xi 15800 add xd sub yi moveto H*adi ik45 get cvishow % xi 16400 add xd sub yi moveto H*adi_ei ik45 get cvishow %olv*3M values, delta=800 % xi 17200 add xd sub yi moveto % iachr 0 eq {o*3Mi ik45 get}{1.0} ifelse cvsshow3 % xi 18000 add xd sub yi moveto % iachr 0 eq {l*3Mi ik45 get}{1.0} ifelse cvsshow3 % xi 18800 add xd sub yi moveto % iachr 0 eq {v*3Mi ik45 get}{1.0} ifelse cvsshow3 %LCH*M values, delta=800 % xi 19600 add xd sub yi moveto LAB*L*aM cvsshow2 % xi 20400 add xd sub yi moveto LAB*C*aM cvsshow2 % xi 21200 add xd sub yi moveto LAB*H*aM cvsshow1 % xi 22000 add xd sub yi moveto LAB*A*aM cvsshow2 % xi 22800 add xd sub yi moveto LAB*B*aM cvsshow2 LAB*L*aM LAB*C*aM LAB*H*aM LABCH*a_XYZxya_sRGB_AdobeRGB %XYZxyCIE values, delta=800 xi 15200 add xd sub yi moveto XCIEv cvsshow2 xi 16000 add xd sub yi moveto YCIEv cvsshow2 xi 16800 add xd sub yi moveto ZCIEv cvsshow2 xi 17600 add xd sub yi moveto xCIEv cvsshow3 xi 18400 add xd sub yi moveto yCIEv cvsshow3 xi 19200 add xd sub yi moveto XRGBv cvsshow3 xi 20000 add xd sub yi moveto YRGBv cvsshow3 xi 20800 add xd sub yi moveto ZRGBv cvsshow3 xi 21600 add xd sub yi moveto R'sRGBv cvsshow3 xi 22400 add xd sub yi moveto G'sRGBv cvsshow3 xi 23200 add xd sub yi moveto B'sRGBv cvsshow3 xi 24000 add xd sub yi moveto R'AdobeRGBv cvsshow3 xi 24800 add xd sub yi moveto G'AdobeRGBv cvsshow3 xi 25600 add xd sub yi moveto B'AdobeRGBv cvsshow3 lab*o*3u lab*l*3u lab*v*3u setrgbcolor xi 24250 add yi moveto 640 0 rlineto 0 ydel rlineto -640 0 rlineto closepath fill 0 setgray xi 24250 add yi moveto 640 0 rlineto 0 ydel rlineto -640 0 rlineto closepath stroke } for i%=0,45 showpage grestore %} for %xchart=00,191 %%Trailer %%EndDocument EndEPSF grestore gsave BeginEPSF 86 MM 020 MM translate 12 /Times-ISOL1 FS -9 MM -7 MM moveto ( ) show 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 18 %line 409 %%EndDocument EndEPSF grestore gsave BeginEPSF 161 MM 197 MM translate 10 /Times-ISOL1 FS 1 1 scale -77 -91 translate %%BeginDocument: Bild 12 %line 419 %%EndDocument EndEPSF grestore gsave BeginEPSF 161 MM 152 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 21 %line 429 %!PS-Adobe-3.0 EPSF-3.0 YE811-1, %%BoundingBox: 70 90 226 206 /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def %%EndProlog gsave 8 /Times-Roman FS 72 83 moveto %!2 (YE811-1,) show 72 90 translate %! 0.01 MM 0.01 MM scale %! 15 setlinewidth %! 0 0 moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto %! closepath stroke grestore showpage %%Trailer %%EndDocument EndEPSF grestore gsave BeginEPSF 219 MM 152 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 22 %line 439 %%EndDocument EndEPSF grestore gsave BeginEPSF 161 MM 108 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 23 %line 449 %!PS-Adobe-3.0 EPSF-3.0 YE811-3, %%BoundingBox: 70 90 226 206 /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def %%EndProlog gsave 8 /Times-Roman FS 72 83 moveto %!2 (YE811-3,) show 72 90 translate %! 0.01 MM 0.01 MM scale %! 15 setlinewidth %! 0 0 moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto %! closepath stroke grestore showpage %%Trailer %%EndDocument EndEPSF grestore gsave BeginEPSF 219 MM 108 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 24 %line 459 %%EndDocument EndEPSF grestore gsave BeginEPSF 161 MM 064 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 25 %line 469 %!PS-Adobe-3.0 EPSF-3.0 YE811-5, %%BoundingBox: 70 90 226 206 /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def %%EndProlog gsave 8 /Times-Roman FS 72 83 moveto %!2 (YE811-5,) show 72 90 translate %! 0.01 MM 0.01 MM scale %! 15 setlinewidth %! 0 0 moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto %! closepath stroke grestore showpage %%Trailer %%EndDocument EndEPSF grestore gsave BeginEPSF 219 MM 064 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 26 %line 479 %%EndDocument EndEPSF grestore gsave BeginEPSF 251 MM 020 MM translate 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 27 %line 489 %!PS-Adobe-3.0 EPSF-3.0 YE811-7, %%BoundingBox: 70 90 226 206 /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def %%EndProlog gsave 8 /Times-Roman FS 72 83 moveto %!2 (YE811-7,) show 72 90 translate %! 0.01 MM 0.01 MM scale %! 15 setlinewidth %! 0 0 moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto %! closepath stroke grestore showpage %%Trailer %%EndDocument EndEPSF grestore gsave BeginEPSF 219 MM 020 MM translate 12 /Times-ISOL1 FS -9 MM -7 MM moveto ( ) show 10 /Times-ISOL1 FS 53 MM 1 MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 28 %line 499 %%EndDocument EndEPSF grestore gsave BeginEPSF 219 MM 080 MM add 008 MM translate %80 MM Breite von TestStreifen 10 /Times-ISOL1 FS 53 MM 1 MM moveto () show 1 1 scale -77 21 MM sub -91 translate %%BeginDocument: Bild 29 Teststreifen Ueberlaenge %line 509 %%EndDocument EndEPSF grestore gsave BeginEPSF -0.0 MM -0.0 MM translate %xy-Verschiebung Rechteckrahmen nach innen% %%BeginDocument: Bild 30 %Rechteckrahmen %line 519 %!PS-Adobe-3.0 EPSF-3.0 Frame arround with Internet text DG02 20070501 %%BoundingBox: 0 0 598 845 %%EndProlog gsave /lanind 1 def /lantex [(G) (E) (S) (N) (I) (J) (M)] def /showde {0 lanind eq {show} {pop} ifelse} bind def /showen {1 lanind eq {show} {pop} ifelse} bind def /showes {2 lanind eq {show} {pop} ifelse} bind def /showfr {3 lanind eq {show} {pop} ifelse} bind def /showit {4 lanind eq {show} {pop} ifelse} bind def /showjp {5 lanind eq {show} {pop} ifelse} bind def /showm {6 lanind eq {show} {pop} ifelse} bind def /lanindg where {pop /lanind1 lanindg def /lanind2 lanindg def} {/lanind1 0 def /lanind2 0 def} ifelse /colormg where {pop /colorm1 colormg def /colorm2 colormg def} {/colorm1 0 def /colorm2 0 def} ifelse /xcolorg where {pop /xcolor1 xcolorg def /xcolor2 xcolorg def} {/xcolor1 0 def /xcolor2 0 def} ifelse /xchartg where {pop /xchart1 xchartg def /xchart2 xchartg 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 /GSS$ where {pop /LSS$ GSS$ def} {/LSS$ (1) def} ifelse /GSC$ where {pop /LSC$ GSC$ def} {/LSC$ (N) def} ifelse /GSX$ where {pop /LSX$ GSX$ def} {/LSX$ (0) def} ifelse /GSY$ where {pop /LSY$ GSY$ def} {/LSY$ (0) def} ifelse /GEX$ where {pop /LEX$ GEX$ def} {/LEX$ (P.PS./PDF) def} ifelse /GEY$ where {pop /LEY$ GEY$ def} {/LEY$ (P.DAT) def} ifelse /IMES where {pop %/IMES IMES def } {/IMES 0 def} ifelse /i*ptrsc where {pop %/i*ptrsc i*ptrsc def } {/i*ptrsc 0 def} ifelse gsave /xchartg where {pop /xchart xchartg def} {/xchart 0 def} ifelse /scountg where {pop /scount scountg def} {/scount 1 def} ifelse /ISRL*ioG where {pop}{/ISRL*ioG 0 def} ifelse /ISIN*ioG where {pop}{/ISIN*ioG 0 def} ifelse /ISOU*ioG where {pop}{/ISOU*ioG 0 def} ifelse %xchart 0 eq {%beg if xchart=0 0 setgray 1.0 1.0 scale 0.0 MM 0.0 MM translate 0.15 MM setlinewidth /x 20 array def /y 20 array def /d 20 array def /x [000 296 296 000 002 294 294 002 005 291 291 005 %speziell 006 290 290 006 008 288 288 008 ] def /y [000 000 210 210 002 002 208 208 005 005 205 205 %speziell 006 006 204 204 008 008 202 202 ] def /d [060 017 -60 -17 058 015 -58 -15 056 013 -56 -13 054 011 -54 -11 052 009 -52 -09 ] def /xlu 017 MM def /ylu 017 MM def /xro 279 MM def /yro 193 MM def /xlo 017 MM def /ylo 193 MM def /xru 279 MM def /yru 017 MM def xlu 8 MM sub ylu moveto 16 MM 0 rlineto stroke xlu ylu 8 MM sub moveto 0 16 MM rlineto stroke xro 8 MM add yro moveto -58 MM 0 rlineto stroke xro yro 8 MM add moveto 0 -16 MM rlineto stroke xru 8 MM sub yru moveto 16 MM 0 rlineto stroke xru yru 8 MM sub moveto 0 16 MM rlineto stroke xlo 8 MM add ylo moveto -16 MM 0 rlineto stroke xlo ylo 8 MM add moveto 0 -16 MM rlineto stroke 1 2 7 {/i exch def %Zentrierkreise xlu ylu i MM 0 360 arc stroke xro yro i MM 0 360 arc stroke xru yru i MM 0 360 arc stroke xlo ylo i MM 0 360 arc stroke } for %i 12 4 16 {/i exch def /i0 i def %i=0,16 %0 4 16 {/i exch def /i0 i def %i=0,16 /i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def i 16 eq {0.30 MM setlinewidth} {0.15 MM setlinewidth} ifelse 0 setgray x i0 get MM y i0 get MM moveto x i1 get MM y i1 get MM lineto x i2 get MM y i2 get MM lineto x i3 get MM y i3 get MM lineto x i0 get MM y i0 get MM lineto stroke i 16 eq {6 /Times-ISOL1 FS /x00 67 def /xdif 32 def /y0o 202.3 def /y0u 6.3 def /x0l 6.1 def /x0r 288 def /y00 22 def /ydif 32 def x00 xdif 0 mul add MM y0o MM moveto (V) show x00 xdif 0 mul add MM y0u MM moveto (C) show x00 xdif 1 mul add MM y0o MM moveto (L) show x00 xdif 1 mul add MM y0u MM moveto (M) show x00 xdif 2 mul add MM y0o MM moveto (O) show x00 xdif 2 mul add MM y0u MM moveto (Y) show x00 xdif 3 mul add MM y0o MM moveto (Y) show x00 xdif 3 mul add MM y0u MM moveto (O) show x00 xdif 4 mul add MM y0o MM moveto (M) show x00 xdif 4 mul add MM y0u MM moveto (L) show x00 xdif 5 mul add MM y0o MM moveto (C) show x00 xdif 5 mul add MM y0u MM moveto (V) show x0l MM y00 ydif 0 mul add MM moveto (V) show x0r MM y00 ydif 0 mul add MM moveto (C) show x0l MM y00 ydif 1 mul add MM moveto (L) show x0r MM y00 ydif 1 mul add MM moveto (M) show x0l MM y00 ydif 2 mul add MM moveto (O) show x0r MM y00 ydif 2 mul add MM moveto (Y) show x0l MM y00 ydif 3 mul add MM moveto (Y) show x0r MM y00 ydif 3 mul add MM moveto (O) show x0l MM y00 ydif 4 mul add MM moveto (M) show x0r MM y00 ydif 4 mul add MM moveto (L) show x0l MM y00 ydif 5 mul add MM moveto (C) show x0r MM y00 ydif 5 mul add MM moveto (V) show } if } for %i=0,16 0 1 10 {/j0 exch def /j1 j0 1 add def %j0 j0 0 eq {tzccmy0* setcmykcolor} if j0 1 eq {0 setgray} if j0 2 eq {tzmcmy0* setcmykcolor} if j0 3 eq {0 setgray} if j0 4 eq {tzycmy0* setcmykcolor} if j0 5 eq {0 setgray} if j0 6 eq {tzocmy0* setcmykcolor} if j0 7 eq {0 setgray} if j0 8 eq {tzlcmy0* setcmykcolor} if j0 9 eq {0 setgray} if j0 10 eq {tzvcmy0* setcmykcolor} if 12 4 16 {/i exch def /i0 i def %i=0,16 %0 4 16 {/i exch def /i0 i def %i=0,16 /i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def i 16 eq {0.30 MM setlinewidth} {0.15 MM setlinewidth} ifelse x i0 get d i0 get add 16 j0 mul add MM y i0 get MM moveto x i0 get d i0 get add 16 j1 mul add MM y i0 get MM lineto stroke x i1 get MM y i1 get d i1 get add 16 j0 mul add MM moveto x i1 get MM y i1 get d i1 get add 16 j1 mul add MM lineto stroke x i2 get d i2 get add 16 j0 mul sub MM y i2 get MM moveto x i2 get d i2 get add 16 j1 mul sub MM y i2 get MM lineto stroke x i3 get MM y i3 get d i3 get add 16 j0 mul sub MM moveto x i3 get MM y i3 get d i3 get add 16 j1 mul sub MM lineto stroke } for %i=0,16 } for %j0 0.15 MM setlinewidth /s 7 MM def /s1 8 MM def /s5 36 MM def 16 1 20 {/j exch def /j0 j 16 sub def %j=16,20 /ix0 xlu 8 MM add j0 7 MM mul add def /iy0 ylu 8 MM sub def 0 1 3 {/ij exch def %ij=0,3 ij 0 eq {/ix0 xlu 8 MM add j0 7 MM mul add def /iy0 ylu 8 MM sub def} if ij 1 eq {/ix0 xru 43 MM sub j0 7 MM mul add def /iy0 yru 8 MM sub def} if ij 2 eq {/ix0 xlo 8 MM add j0 7 MM mul add def /iy0 ylo 1 MM add def} if ij 3 eq {/ix0 xro 43 MM sub j0 7 MM mul add def /iy0 yro 1 MM add def} if i*ptrsc 0 eq i*ptrsc 2 eq or {%i*ptrsc=0,2 cmy0* setcmykcolor j 16 eq {/ng tzan j get def ng ng ng 0 setcmykcolor ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if /ng tzan j get def ng ng ng 0 setcmykcolor ix0 iy0 s s rec fill } if %i*ptrsc=0,2 i*ptrsc 1 eq i*ptrsc 3 eq or {%i*ptrsc=1,3 www* setrgbcolor j 16 eq {/wg 1 tzan j get sub def wg wg wg colorm 0 eq {setrgbcolor} {sgrgbcolor} ifelse %N ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if /wg 1 tzan j get sub def wg wg wg colorm 0 eq {setrgbcolor} {sgrgbcolor} ifelse %N ix0 iy0 s s rec fill } if %i*ptrsc=1,3 i*ptrsc 4 eq i*ptrsc 5 eq or {%i*ptrsc=4,5 [/CIEBasedABC << %Farbraum und Grenzen fuer D65 /RangeABC [0 100 -128 127 -128 127] /DecodeABC [{16 add 116 div} bind {500 div} bind {200 div} bind] /MatrixABC [1 1 1 1 0 0 0 0 -1] /DecodeLMN [{dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.9505 mul} bind {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse} bind {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 1.0890 mul} bind] /WhitePoint [0.9505 1 1.089] %CIEXYZ fuer D65 >>] setcolorspace j 16 eq {tznLAB* 0 get tzwLAB* 0 get tznLAB* 0 get sub 0.25 j0 mul mul add tznLAB* 1 get tzwLAB* 1 get tznLAB* 1 get sub 0.25 j0 mul mul add tznLAB* 2 get tzwLAB* 2 get tznLAB* 2 get sub 0.25 j0 mul mul add setcolor %N ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if tznLAB* 0 get tzwLAB* 0 get tznLAB* 0 get sub 0.25 j0 mul mul add tznLAB* 1 get tzwLAB* 1 get tznLAB* 1 get sub 0.25 j0 mul mul add tznLAB* 2 get tzwLAB* 2 get tznLAB* 2 get sub 0.25 j0 mul mul add setcolor %N ix0 iy0 s s rec fill } if %i*ptrsc=4,5 i*ptrsc 6 eq {%i*ptrsc=6 000n* setcmykcolor j 16 eq {/ng tzan j get def 0 0 0 ng setcmykcolor ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if /ng tzan j get def 0 0 0 ng setcmykcolor ix0 iy0 s s rec fill } if %i*ptrsc=6 i*ptrsc 7 eq {%i*ptrsc=7 w* setgray j 16 eq {/wg 1 tzan j get sub def wg setgray ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if /wg 1 tzan j get sub def wg setgray ix0 iy0 s s rec fill } if %i*ptrsc=7 } for %ij=0,3 } for %j=16,20 0 setgray 018 MM 008.2 MM moveto 6 /Times-Roman FS (-8) show 018 MM 006.2 MM moveto 6 /Times-Roman FS (-6) show 276 MM 008.2 MM moveto 6 /Times-Roman FS (-8) show 276 MM 006.2 MM moveto 6 /Times-Roman FS (-6) show 018 MM 202.2 MM moveto 6 /Times-Roman FS (-8) show 018 MM 204.2 MM moveto 6 /Times-Roman FS (-6) show 276 MM 202.2 MM moveto 6 /Times-Roman FS (-8) show 276 MM 204.2 MM moveto 6 /Times-Roman FS (-6) show 0 setgray 12 /Times-ISOL1 FS 61 MM 09 MM moveto (D65: ) show (360 colorimetric data; 24 standard systems; page ) showen (360 Farbmetrische Daten; 24 Norm\255Systeme, Seite ) showde xchartg 1 add cvishow (/192) show 61 MM 13 MM moveto (BAM\255Pr\374fvorlage YE81; Farbmetrikworkflow, Daten ) showde (BAM\255test chart YE81; Colorimetric workflow, data ) showen TSYSx xchartg xchartg 24 idiv 24 mul sub get show %max=23 173 MM 13 MM moveto (input: ) showen (Eingabe: ) showde 12 /Times-Italic FS (olv* setrgbcolor) show 12 /Times-ISOL1 FS 173 MM 9 MM moveto (output: ) showen (Ausgabe: ) showde LSC$ (N) eq { (no change compared to input) showen (keine Eingabe\344nderung) showde } if LSC$ (S) eq { (Startup (S) data dependend) showen (Startup(S)Daten abh\344ngig) showde } if LSC$ (F) eq { 12 /Times-Italic FS i*ptrsc 0 eq {(cmy0* / 000n* setcmykcolor) show} if i*ptrsc 1 eq {(olv*' (TRI9) setrgbcolor ) show} if %special i*ptrsc 2 eq {(cmy0* / nnn0* setcmykcolor) show} if i*ptrsc 3 eq {(olv* / www* setrgbcolor) show} if i*ptrsc 4 eq {(lab* setcolor) show} if i*ptrsc 5 eq {(LAB* setcolor) show} if i*ptrsc 6 eq {(000n* setcmykcolor) show} if i*ptrsc 7 eq {(w* setgray) show} if } if %0 setgray %end white and unvisible 12 /Times-ISOL1 FS 62 MM 198.5 MM moveto (www.ps.bam.de/YE81/L81) show LSS$ show (00) show LSC$ show LEX$ show %1 setgray %start white and unvisible (; ) show LSC$ (N) eq { (Start\255Ausgabe) showde (start output) showen (start output) showes (start output) showfr (start output) showit (start output) showjp (start output) showm } if LSC$ (C) eq { (Start\255Ausgabe) showde (start output) showen (start output) showes (start output) showfr (start output) showit (start output) showjp (start output) showm } if LSC$ (F) eq { (Linearisierte\255Ausgabe) showde (linearized output) showen (linearized output) showes (linearized output) showfr (linearized output) showit (linearized output) showjp (linearized output) showm } if 62 MM 194 MM moveto LSC$ (N) eq LSC$ (C) eq or { (N: Keine Ausgabe\255Linearisierung (OL) in Datei (F), Startup (S), Ger\344t (D)) showde (N: No Output Linearization (OL) data in File (F), Startup (S) or Device (D)) showen (N: No Output Linearization (OL) data in File (F), Startup (S) or Device (D)) showes (N: No Output Linearization (OL) data in File (F), Startup (S) or Device (D)) showfr (N: No Output Linearization (OL) data in File (F), Startup (S) or Device (D)) showit (N: No Output Linearization (OL) data in File (F), Startup (S) or Device (D)) showjp (N: No Output Linearization (OL) data in File (F), Startup (S) or Device (D)) showm } {LSC$ show (: ) show (Ausgabe\255Linearisierung (OL\255Daten) ) showde (Output Linearization (OL) data ) showen (Output Linearization (OL) data ) showes (Output Linearization (OL) data ) showfr (Output Linearization (OL) data ) showit (Output Linearization (OL) data ) showjp (Output Linearization (OL) data ) showm (YE81/L81) show LSS$ show (00) show LSC$ show LEY$ show } ifelse LSC$ (F) eq { ( in der Datei (F)) showde ( in File (F)) showen ( in File (F)) showes ( in File (F)) showfr ( in File (F)) showit ( in File (F)) showjp ( in File (F)) showm } if LSC$ (S) eq { ( im Distiller Startup (S) Directory) showde ( in Distiller Startup (S) Directory) showen ( in Distiller Startup (S) Directory) showes ( in Distiller Startup (S) Directory) showfr ( in Distiller Startup (S) Directory) showit ( in Distiller Startup (S) Directory) showjp ( in Distiller Startup (S) Directory) showm } if LSC$ (D) eq { ( in PostScript Device (D)) showde ( in PostScript Device (D)) showen ( in PostScript Device (D)) showes ( in PostScript Device (D)) showfr ( in PostScript Device (D)) showit ( in PostScript Device (D)) showjp ( in PostScript Device (D)) showm } if LSC$ (T) eq { ( von Distiller Startup (S) Directory) showde ( of Distiller Startup (S) Directory) showen ( of Distiller Startup (S) Directory) showes ( of Distiller Startup (S) Directory) showfr ( of Distiller Startup (S) Directory) showit ( of Distiller Startup (S) Directory) showjp ( of Distiller Startup (S) Directory) showm } if LSC$ (E) eq { ( von PostScript Device (D)) showde ( of PostScript Device (D)) showen ( of PostScript Device (D)) showes ( of PostScript Device (D)) showfr ( of PostScript Device (D)) showit ( of PostScript Device (D)) showjp ( of PostScript Device (D)) showm } if %0 setgray %end white and unvisible 16 MM 185 MM moveto -90 rotate (Siehe \344hnliche Dateien: ) showde (See for similar files: ) showen (See for similar files: ) showes (See for similar files: ) showfr (See for similar files: ) showit (See for similar files: ) showjp (See for similar files: ) showm (http://www.ps.bam.de/YE81/; www.ps.bam.de/YE.HTM) show 90 rotate 12 MM 185 MM moveto -90 rotate (Technische Information: ) showde (Technical information: ) showen (Informaci\363n t\351cnica en: ) showes (Technical information: ) showfr (Technical information: ) showit (Technical information: ) showjp (Technical information: ) showm (http://www.ps.bam.de) show 90 rotate 12 MM 103 MM moveto -90 rotate (Version 2.1, io=1,) show LSC$ (N) eq {(1) show} if LSC$ (S) eq {(1?) show} if LSC$ (D) eq {(1?) show} if LSC$ (F) eq {i*ptrsc cvishow IMES 0 eq {(, CIELAB) show} {(, CIEXYZ) show} ifelse } if 90 rotate 281 MM 185 MM moveto -90 rotate (BAM\255Registrierung: 20070501\255YE81/L81) showde (BAM registration: 20070501\255YE81/L81) showen (BAM registration: 20070501\255YE81/L81) showes (BAM registration: 20070501\255YE81/L81) showfr (BAM registration: 20070501\255YE81/L81) showit (BAM registration: 20070501\255YE81/L81) showjp (BAM registration: 20070501\255YE81/L81) showm LSS$ show (00) show LSC$ show LEX$ show 90 rotate 281 MM 74 MM moveto -90 rotate (BAM\255Material: Code=rha4ta) showde (BAM material: code=rha4ta) showen (BAM material: code=rha4ta) showes (BAM material: code=rha4ta) showfr (BAM material: code=rha4ta) showit (BAM material: code=rha4ta) showjp (BAM material: code=rha4ta) showm 90 rotate 277 MM 185 MM moveto -90 rotate /cvishow {cvi 6 string cvs show} def /cvsshow1 {10 mul cvi 0.1 mul 7 string cvs show} def ( Anwendung f\374r Beurteilung und Messung von Drucker- oder Monitorsystemen) showde ( application for evaluation and measurement of printer or monitor systems) showen ( application for evaluation and measurement of printer or monitor systems) showes ( application for evaluation and measurement of printer or monitor systems) showfr ( application for evaluation and measurement of printer or monitor systems) showit ( application for evaluation and measurement of printer or monitor systems) showjp ( application for evaluation and measurement of printer or monitor systems) showm IMES 1 eq LSC$ (N) ne and { %IMES=1 (, Yr=) show Yre cvsshow1 (, XYZ) show } if %IMES=1 90 rotate /i0 8 def /i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def 0.30 MM setlinewidth 0 setgray x i0 get MM y i0 get MM moveto x i1 get MM y i1 get MM lineto x i2 get MM y i2 get MM lineto x i3 get MM y i3 get MM lineto x i0 get MM y i0 get MM lineto stroke %} if %end if xchart=0 /xlu1 013 MM def /ylu1 010 MM def /xro1 283 MM def /yro1 200 MM def /xlo1 013 MM def /ylo1 200 MM def /xru1 283 MM def /yru1 010 MM def xlu1 4 MM sub ylu1 moveto 8 MM 0 rlineto stroke xlu1 ylu1 4 MM sub moveto 0 8 MM rlineto stroke xro1 4 MM add yro1 moveto -8 MM 0 rlineto stroke xro1 yro1 4 MM add moveto 0 -8 MM rlineto stroke xru1 4 MM sub yru1 moveto 8 MM 0 rlineto stroke xru1 yru1 4 MM sub moveto 0 8 MM rlineto stroke xlo1 4 MM add ylo1 moveto -8 MM 0 rlineto stroke xlo1 ylo1 4 MM add moveto 0 -8 MM rlineto stroke %} for %output with xchart end %} for %output with colorm end %} for %output with xcolor end %} for %output with lanind end %%Trailer %%EndDocument EndEPSF grestore gsave showpage grestore } for %end for xchartg=xchartg1,xchartg2 %} for %end for pcountg=pcountg1,pcount2g %} for %end for scountg=scountg1,scount2g %%Trailer