%!PS-Adobe-3.0 EPSF-3.0 SF680-7N %%BoundingBox: 70 83 226 206 %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: http://130.149.60.45/~farbmetrik/SF68/) /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, colour vision) /Creator (klaus.richter@mac.com) /CreationDate (D:2013090112000) /ModDate (D:2013090112000) /DOCINFO pdfmark07 [ /View [ /FitB ] /DOCVIEW pdfmark07 %END PDFDE011 % !AUSTAUSCH Times-Roman -> Times-Roman-ISOLatin1=Times-I /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} 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-50 rmoveto show 0 50 rmoveto} bind def /ebshowG {TBM 0 160 rmoveto show 0 -160 rmoveto} bind def /sshowG {SG show} bind def /nshowM {TM show} bind def /kshowM {TIM show} bind def /bshowM {TBM show} bind def /bishowM {TBIM show} bind def /ishowM {TK 0 -30 rmoveto show 0 30 rmoveto} bind def /ebshowM {TBK 0 130 rmoveto show 0 -130 rmoveto} bind def /sshowM {SM show} bind def /nshowK {TK show} bind def /kshowK {TIK show} bind def /bshowK {TBK show} bind def /bishowK {TBIK show} bind def /ishowK {TKi 0 -25 rmoveto show 0 25 rmoveto} bind def /ebshowK {TBKe 0 100 rmoveto show 0 -100 rmoveto} bind def /sshowK {SK show} bind def /tzo {0.0 1.0 1.0 0.0} bind def %Reproduktionsfarben /tzl {1.0 0.0 1.0 0.0} bind def /tzv {1.0 1.0 0.0 0.0} bind def /tzc {1.0 0.0 0.0 0.0} bind def /tzm {0.0 1.0 0.0 0.0} bind def /tzy {0.0 0.0 1.0 0.0} bind def /tzn {0.0 0.0 0.0 1.00} bind def %Graureihe /tzd {0.0 0.0 0.0 0.75} bind def /tzz {0.0 0.0 0.0 0.50} bind def /tzh {0.0 0.0 0.0 0.25} bind def /tzw {0.0 0.0 0.0 0.00} bind def /tzr {0.0 1.0 0.5 0.0} bind def %Elementarfarben /tzg {1.0 0.0 0.5 0.0} bind def /tzb {1.0 0.5 0.0 0.0} bind def /tzj {0.0 0.0 1.0 0.0} bind def /tzrz {0.0 1.0 0.5 0.5} bind def %Elementarfarben vergraut /tzgz {1.0 0.0 0.5 0.5} bind def /tzbz {1.0 0.5 0.0 0.5} bind def /tzjz {0.0 0.0 1.0 0.5} bind def /tfo {tzo setcmykcolor} bind def /tfl {tzl setcmykcolor} bind def /tfv {tzv setcmykcolor} bind def /tfc {tzc setcmykcolor} bind def /tfm {tzm setcmykcolor} bind def /tfy {tzy setcmykcolor} bind def /tfn {tzn setcmykcolor} bind def /tfd {tzd setcmykcolor} bind def /tfz {tzz setcmykcolor} bind def /tfh {tzh setcmykcolor} bind def /tfw {tzw setcmykcolor} bind def /tfr {tzr setcmykcolor} bind def /tfg {tzg setcmykcolor} bind def /tfb {tzb setcmykcolor} bind def /tfj {tzj setcmykcolor} bind def /tfrz {tzrz setcmykcolor} bind def /tfgz {tzgz setcmykcolor} bind def /tfbz {tzbz setcmykcolor} bind def /tfjz {tzjz setcmykcolor} bind def /A4quer {598 0 tl 90 rotate} def /setcmyknew {setcmykcolor} def /outSM {sshowM} def /outSK {sshowK} def /outxshowf {setcmykcolor show} def %for output test only /tspace {dup abs 1.0 le {( ) show} if dup dup -1.0 le exch -10 gt and {( ) show} if dup dup 1.0 gt exch 10 lt and {( ) show} if dup dup 1.0 gt exch 10 ge and {( ) show} if } bind def /trushow {tspace 0.005 add 100 mul truncate 100 div 10 string cvs show} bind def /troshow {0.005 add 100 mul truncate 100 div 10 string cvs show} bind def /trushow4 {0.00005 add 10000 mul truncate 10000 div 10 string cvs show} bind def /cvishow {cvi 6 string cvs show} def /cvsshow1 {10 mul cvi 0.1 mul 7 string cvs show} def /cvsshow2 {100 mul cvi 0.01 mul 7 string cvs show} def /cvsshow3 {1000 mul cvi 0.001 mul 7 string cvs show} def /W 12 array def % U P D T N W P D T U N W /W [550 563 537 450 500 525 563 537 450 550 500 525] def /WS 12 array def 0 1 11 {/j exch def %j=0,11 WS j 525 W j get 525 sub sub put } for %j=0,11 /YIXU 88 array def /YIXP 88 array def /YIXD 88 array def /YIXT 88 array def /YIXN 88 array def /YIXI 88 array def /YIXE 88 array def /YIXF 88 array def /YIXW 88 array def /YIXH 88 array def /YIXUS 88 array def /YIXPS 88 array def /YIXDS 88 array def /YIXTS 88 array def /YIXNS 88 array def /YIXIS 88 array def /YIXES 88 array def /YIXFS 88 array def /YIXWS 88 array def /YIXHS 88 array def /YEXP0 88 array def /YEXP1 88 array def /YEXP2 88 array def /YEXP3 88 array def /YEXP4 88 array def /YEXP5 88 array def /YEXP6 88 array def /YEXP7 88 array def /YEXP8 88 array def /YEXP9 88 array def /YEXP10 88 array def /YEXP11 88 array def /YEXP0S 88 array def /YEXP1S 88 array def /YEXP2S 88 array def /YEXP3S 88 array def /YEXP4S 88 array def /YEXP5S 88 array def /YEXP6S 88 array def /YEXP7S 88 array def /YEXP8S 88 array def /YEXP9S 88 array def /YEXP10S 88 array def /YEXP11S 88 array def /Yix 88 array def /Yiy 88 array def /Xi 88 array def /Yi 88 array def /YixS 88 array def /YiyS 88 array def /XiS 88 array def /YiS 88 array def /KURVA 12 array def %12 actual curves /KURVA1 12 array def %12 curves, Sensitivity, one or two colours /KURVA2 12 array def %12 curves, Saturation, one or two colours % U P D T N W P D T E F H /KURVA1 [2 0 0 1 2 2 1 1 0 0 0 0] def /KURVA2 [2 0 0 1 2 2 1 1 0 0 0 0] def /IDAI1 12 array def %12 curves, Sensitivity, actual setdash data, first curve /IDAI2 12 array def %12 curves, Saturation, actual setdash data, second curve /IDAI00 12 array def %12 curves, Sensitivity, setdash data, first curve /IDAI01 12 array def %12 curves, Saturation, setdash data, first curve /IDAI10 12 array def %12 curves, Sensitivity, setdash data, second curve /IDAI11 12 array def %12 curves, Saturation, setdash data, second curve /IDAI00 [100 000 000 000 100 100 100 100 100 100 100 100] def /IDAI01 [100 000 000 000 100 100 100 100 100 300 300 300] def /IDAI10 [100 000 000 000 100 100 100 100 100 100 100 100] def /IDAI11 [100 000 000 000 100 100 100 100 100 300 300 300] def /FKUC1 12 array def %Actual colour C, Sensitivity /FKUC2 12 array def %Actual colour C, Saturation /FKUM1 12 array def %Actual colour M, Sensitivity /FKUM2 12 array def %Actual colour M, Saturation /FKUY1 12 array def %Actual colour Y, Sensitivity /FKUY2 12 array def %Actual colour Y, Saturation /FKUN1 12 array def %Actual colour N, Sensitivity /FKUN2 12 array def %Actual colour N, Saturation /FKUCI00 12 array def %Cyan, Colour 1, Sensitivity /FKUCI01 12 array def %Cyan, Colour 2 on top, Sensitivity /FKUCI10 12 array def %Cyan, Colour 1, Saturation /FKUCI11 12 array def %Cyan, Colour 2 on top, Saturation /FKUCI00 [0.0 0.0 1.0 1.0 0.0 0.0 0.0 1.0 1.0 0.0 0.0 0.0] def /FKUCI01 [0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 0.0 1.0 0.0] def /FKUCI10 [0.0 0.0 1.0 1.0 0.0 0.0 0.0 1.0 1.0 0.0 0.0 0.0] def /FKUCI11 [0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 0.0 1.0 0.0] def /FKUMI00 12 array def %Magenta, Colour 1, Sensitivity /FKUMI01 12 array def %Magenta, Colour 2 on top, Sensitivity /FKUMI10 12 array def %Magenta, Colour 1, Saturation /FKUMI11 12 array def %Magenta, Colour 2 on top, Saturation /FKUMI00 [0.0 1.0 0.0 1.0 0.0 0.0 1.0 0.0 1.0 0.0 0.0 0.0] def /FKUMI01 [0.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 0.0 1.0] def /FKUMI10 [0.0 1.0 0.0 1.0 0.0 0.0 1.0 0.0 1.0 0.0 0.0 0.0] def /FKUMI11 [0.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 0.0 1.0] def /FKUYI00 12 array def %Yellow, Colour 1, Sensitivity /FKUYI01 12 array def %Yellow, Colour 2 on top, Sensitivity /FKUYI10 12 array def %Yellow, Colour 1, Saturation /FKUYI11 12 array def %Yellow, Colour 2 on top, Saturation /FKUYI00 [0.0 1.0 1.0 0.0 0.0 0.0 1.0 1.0 0.0 0.0 0.0 0.0] def /FKUYI01 [1.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0] def /FKUYI10 [0.0 1.0 1.0 0.0 0.0 0.0 1.0 1.0 0.0 0.0 0.0 0.0] def /FKUYI11 [1.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0] def /FKUNI00 12 array def %Black, Colour 1, Sensitivity /FKUNI01 12 array def %Black, Colour 2 on top, Sensitivity /FKUNI10 12 array def %Black, Colour 1, Saturation /FKUNI11 12 array def %Black, Colour 2 on top, Saturation /FKUNI00 [1.0 0.0 0.0 0.0 1.0 1.0 0.0 0.0 0.0 1.0 1.0 1.0] def /FKUNI01 [0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0] def /FKUNI10 [1.0 0.0 0.0 0.0 1.0 1.0 0.0 0.0 0.0 1.0 1.0 1.0] def /FKUNI11 [0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0] def /XRGAI 4 array def /XRG$I 4 array def /XJBAI 4 array def /XBJ$I 4 array def /XRGAI [ 525 575 475 600 ] def /XRG$I [(525) (575) (475) (600)] def /XJBAI [ 525 575 475 600 ] def /XBJ$I [(525) (575) (475) (600)] def /KURVAS 12 array def %12 actual curves /KURVA1S 12 array def %12 curves, Sensitivity, one or two colours /KURVA2S 12 array def %12 curves, Saturation, one or two colours % U'P'D'T'N'W'P'D'T'E'F'H' /KURVA1S [0 0 0 0 0 0 0 0 0 0 0 0] def /KURVA2S [0 0 0 0 0 0 0 0 0 0 0 0] def /IDAI1S 12 array def %12 curves, Sensitivity, actual setdash data, first curve /IDAI2S 12 array def %12 curves, Saturation, actual setdash data, second curve /IDAI00S 12 array def %12 curves, Sensitivity, setdash data, first curve /IDAI01S 12 array def %12 curves, Saturation, setdash data, first curve /IDAI10S 12 array def %12 curves, Sensitivity, setdash data, second curve /IDAI11S 12 array def %12 curves, Saturation, setdash data, second curve /IDAI00S [100 100 100 100 100 100 100 100 100 100 100 100] def /IDAI01S [100 100 100 100 100 100 100 100 100 100 100 100] def /IDAI10S [100 100 100 100 100 100 100 100 100 100 100 100] def /IDAI11S [100 100 100 100 100 100 100 100 100 100 100 100] def /FKUC1S 12 array def %Actual colour C, Sensitivity /FKUC2S 12 array def %Actual colour C, Saturation /FKUM1S 12 array def %Actual colour M, Sensitivity /FKUM2S 12 array def %Actual colour M, Saturation /FKUY1S 12 array def %Actual colour Y, Sensitivity /FKUY2S 12 array def %Actual colour Y, Saturation /FKUN1S 12 array def %Actual colour N, Sensitivity /FKUN2S 12 array def %Actual colour N, Saturation /FKUCI00S 12 array def %Cyan, Colour 1, Sensitivity /FKUCI01S 12 array def %Cyan, Colour 2 on top, Sensitivity /FKUCI10S 12 array def %Cyan, Colour 1, Saturation /FKUCI11S 12 array def %Cyan, Colour 2 on top, Saturation /FKUCI00S [0.0 0.0 1.0 0.0 0.0 0.0 1.0 1.0 1.0 0.0 0.0 0.0] def /FKUCI01S [0.0 0.0 0.0 1.0 1.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0] def /FKUCI10S [0.0 0.0 1.0 0.0 0.0 0.0 1.0 1.0 1.0 0.0 0.0 0.0] def /FKUCI11S [0.0 0.0 0.0 1.0 1.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0] def /FKUMI00S 12 array def %Magenta, Colour 1, Sensitivity /FKUMI01S 12 array def %Magenta, Colour 2 on top, Sensitivity /FKUMI10S 12 array def %Magenta, Colour 1, Saturation /FKUMI11S 12 array def %Magenta, Colour 2 on top, Saturation /FKUMI00S [0.0 1.0 0.0 0.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0] def /FKUMI01S [0.0 0.0 0.0 1.0 0.0 1.0 0.0 1.0 0.0 0.0 0.0 0.0] def /FKUMI10S [0.0 1.0 0.0 0.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0] def /FKUMI11S [0.0 0.0 0.0 1.0 0.0 1.0 0.0 1.0 0.0 0.0 0.0 0.0] def /FKUYI00S 12 array def %Yellow, Colour 1, Sensitivity /FKUYI01S 12 array def %Yellow, Colour 2 on top, Sensitivity /FKUYI10S 12 array def %Yellow, Colour 1, Saturation /FKUYI11S 12 array def %Yellow, Colour 2 on top, Saturation /FKUYI00S [0.0 1.0 1.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0] def /FKUYI01S [1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0] def /FKUYI10S [0.0 1.0 1.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0] def /FKUYI11S [1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0] def /FKUNI00S 12 array def %Black, Colour 1, Sensitivity /FKUNI01S 12 array def %Black, Colour 2 on top, Sensitivity /FKUNI10S 12 array def %Black, Colour 1, Saturation /FKUNI11S 12 array def %Black, Colour 2 on top, Saturation /FKUNI00S [1.0 0.0 0.0 0.5 1.0 1.0 0.0 0.0 0.0 0.0 0.0 0.0] def /FKUNI01S [0.0 0.5 0.5 0.0 0.0 0.0 0.0 0.0 0.5 0.0 0.0 0.0] def /FKUNI10S [1.0 0.0 0.0 0.5 1.0 1.0 0.0 0.0 0.0 0.0 0.0 0.0] def /FKUNI11S [0.0 0.5 0.5 0.0 0.0 0.0 0.0 0.0 0.5 0.0 0.0 0.0] def /XRGAIS 4 array def /XRG$IS 4 array def /XJBAIS 4 array def /XBJ$IS 4 array def 0 1 3 {/j exch def %j=0,3 XRGAIS j 525 XRGAI j get 525 sub sub put XJBAIS j 525 XJBAI j get 525 sub sub put XRG$IS j XRGAIS j get 0.005 add 100 mul truncate 100 div 10 string cvs put XBJ$IS j XJBAIS j get 0.005 add 100 mul truncate 100 div 10 string cvs put } for %j=0,3 /JPPM 4 def /CY 0.35 def /CX 50 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 /showea {1 lanind le {show} {pop} ifelse} bind def /lanindg where {pop /lanind1 lanindg def /lanind2 lanindg def} {/lanind1 3 def /lanind2 3 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 /xchartg where {pop /xchart 0 def} {/xchart 0 def} ifelse 5 /Times-ISOL1 FS 200 85 moveto ( SF680-7 ) show %(Change of PDT (LMS) in volour vision; Adaptation) showea %(\304nderung von PDT (LMS) beim Farbensehen; Adaptation) showde 72 90 translate %/xchart 02 def %0 1 15 {/xchart exch def %xchart=0,15 gsave xchart 0 eq {/ILK 0 def /ILS 0 def /INE 0 def /ILF 0 def} if %ILT=0 NO threshold xchart 1 eq {/ILK 0 def /ILS 1 def /INE 0 def /ILF 0 def} if xchart 2 eq {/ILK 1 def /ILS 0 def /INE 0 def /ILF 0 def} if xchart 3 eq {/ILK 1 def /ILS 1 def /INE 0 def /ILF 0 def} if xchart 4 eq {/ILK 2 def /ILS 0 def /INE 0 def /ILF 0 def} if xchart 5 eq {/ILK 2 def /ILS 1 def /INE 0 def /ILF 0 def} if xchart 6 eq {/ILK 3 def /ILS 0 def /INE 0 def /ILF 0 def} if xchart 7 eq {/ILK 3 def /ILS 1 def /INE 0 def /ILF 0 def} if xchart 8 eq {/ILK 0 def /ILS 2 def /INE 0 def /ILF 0 def} if xchart 9 eq {/ILK 0 def /ILS 1 def /INE 0 def /ILF 1 def} if xchart 10 eq {/ILK 1 def /ILS 2 def /INE 0 def /ILF 0 def} if xchart 11 eq {/ILK 1 def /ILS 1 def /INE 0 def /ILF 1 def} if xchart 12 eq {/ILK 2 def /ILS 2 def /INE 0 def /ILF 0 def} if xchart 13 eq {/ILK 2 def /ILS 1 def /INE 0 def /ILF 1 def} if xchart 14 eq {/ILK 3 def /ILS 2 def /INE 0 def /ILF 0 def} if xchart 15 eq {/ILK 3 def /ILS 1 def /INE 0 def /ILF 1 def} if /ILT 0 def %Threshold %/ILF 1 def %/IKOM 0 def %0=U, 1=N/G, 2=W/R, 3=V xchart 0 ge xchart 3 le and {/IKOM 3 def} if %W xchart 4 ge xchart 7 le and {/IKOM 3 def} if %W xchart 8 ge xchart 11 le and {/IKOM 3 def} if %W xchart 12 ge xchart 15 le and {/IKOM 3 def} if %W %/ILN 4 def %L&M, L&S, M&S, UVW&S %/ILN 5 def %L&M, L&S, M&S, UGR&S %/ILN 6 def %L&M, L&S, M&S, UNW /ILN 7 def %L&M, L&S, M&S, UNW, EFH ILN 5 eq {/JPPM 6 def} {/JPPM 5 def} ifelse ILN 6 eq {/JPPM 8 def} if ILN 7 eq {/JPPM 11 def} if ILF 1 eq {/JPPM 1 def} if %JPPM=0,5:without/with R+G chromaticity diagram ILS 2 eq {/JPPM 5 def} if /FAKJB 1.0 def /IED 0 def %IED=0,1 without/with Evans G0-data IKOM 0 eq {/RGX1 1.0 def /RGX2 0.5 def /JBY1 1.0 def /JBY2 1.0 def} if IKOM 1 eq {/RGX1 0.5 def /RGX2 0.5 def /JBY1 0.5 def /JBY2 0.5 def} if IKOM 2 eq {/RGX1 1.0 def /RGX2 1.0 def /JBY1 1.0 def /JBY2 1.0 def} if IKOM 3 eq {/RGX1 1.0 def /RGX2 1.0 def /JBY1 1.0 def /JBY2 1.0 def} if /ILU 0 def %NO u scale ILT 0 eq {/ta 0.0 def /logta -6 def} if ILT 1 eq {/ta 0.007 def /logta ta log def} if ILT 2 eq {/ta 0.002 def /logta ta log def} if /MULX 0600 def /MULY 1200 0.8 mul def ILS 1 eq {/MULY 1200 0.4 mul def} if /MULF 1200 0.8 mul def 0.01 MM 0.01 MM scale 30 setlinewidth [ ] 0 setdash 0.0 0.0 0.0 0.5 setcmykcolor 0 0 moveto 5400 0 rlineto 0 4000 rlineto -5400 0 rlineto closepath fill /Xa {(a) ishowM} def /Xo {(o) ishowM} def /P0o {tfo (L) bishowM tfo (o) ishowM} def /D0o {tfl (M) bishowM tfl (o) ishowM} def /T0o {tfv (S) bishowM tfv (o) ishowM} def /U0o {tfn (U) bishowM tfy (o) ishowM} def /N0o {tfn (N) bishowM tfc (o) ishowM} def /W0o {tfn (W) bishowM tfm (o) ishowM} def /P0a {tfo (L) bishowM tfo (a) ishowM} def /D0a {tfl (M) bishowM tfl (a) ishowM} def /T0a {tfv (S) bishowM tfv (a) ishowM} def /U0a {tfn (U) bishowM tfy (a) ishowM} def /N0a {tfn (N) bishowM tfc (a) ishowM} def /W0a {tfn (W) bishowM tfm (a) ishowM} def /H0a {tfn (H) bishowM tfm (a) ishowM} def /I0a {tfn (I) bishowM tfm (a) ishowM} def /P0oS {tfo (P') bishowM tfo (o) ishowM} def /D0oS {tfl (D') bishowM tfl (o) ishowM} def /T0oS {tfv (T') bishowM tfv (o) ishowM} def /P0aS {tfo (P') bishowM tfo (a) ishowM} def /D0aS {tfl (D') bishowM tfl (a) ishowM} def /T0aS {tfv (T') bishowM tfv (a) ishowM} def /U0aS {tfn (U') bishowM tfy (a) ishowM} def /N0aS {tfn (N') bishowM tfc (a) ishowM} def /W0aS {tfn (W') bishowM tfm (a) ishowM} def /H0aS {tfn (H') bishowM tfm (a) ishowM} def /I0aS {tfn (I') bishowM tfm (a) ishowM} def /YAa {IKOM 0 eq {tfn (U) bishowM tfy (a) ishowM} if IKOM 1 eq {tfn (N) bishowM tfc (a) ishowM} if IKOM 2 eq {tfn (H) bishowM tfm (a) ishowM} if IKOM 3 eq {tfn (W) bishowM tfm (a) ishowM} if} def /YAaS {IKOM 0 eq {tfn (U') bishowM tfy (a) ishowM} if IKOM 1 eq {tfn (N') bishowM tfc (a) ishowM} if IKOM 2 eq {tfn (H') bishowM tfm (a) ishowM} if IKOM 3 eq {tfn (W') bishowM tfm (a) ishowM} if} def /AF1 0.5 def /AF2 0.5 def /XRGA {XRGAI ILK get} def /XJBA {XJBAI ILK get} def /XRG$ {XRG$I ILK get} def /XBJ$ {XBJ$I ILK get} def /XRGAS {XRGAIS ILK get} def /XJBAS {XJBAIS ILK get} def /XRG$S {XRG$IS ILK get} def /XBJ$S {XBJ$IS ILK get} def /W0 {W 0 get} def /W1 {W 1 get} def /W2 {W 2 get} def /W3 {W 3 get} def /W4 {W 4 get} def /W5 {W 5 get} def /W6 {W 6 get} def /W7 {W 7 get} def /W8 {W 8 get} def /W9 {W 9 get} def /W10 {W 10 get} def /W11 {W 11 get} def /W0S {WS 0 get} def /W1S {WS 1 get} def /W2S {WS 2 get} def /W3S {WS 3 get} def /W4S {WS 4 get} def /W5S {WS 5 get} def /W6S {WS 6 get} def /W7S {WS 7 get} def /W8S {WS 8 get} def /W9S {WS 9 get} def /W10S {WS 10 get} def /W11S {WS 11 get} def %function value for curve U normalized to 1 at 5 wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YU1 {XRGA W0 sub CX div dup mul CY mul neg} def /YU2 {XJBA W0 sub CX div dup mul CY mul neg} def /YUU {0.0} def /YUP {W1 W0 sub CX div dup mul CY mul neg} def /YUD {W2 W0 sub CX div dup mul CY mul neg} def /YUT {W3 W0 sub CX div dup mul CY mul neg} def /YUN {W4 W0 sub CX div dup mul CY mul neg} def /YUI {W5 W0 sub CX div dup mul CY mul neg} def /YUW {YUU YUN add 0.5 mul} def %function value for curve P normalized to 1 at 5 wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YP1 {XRGA XRGA 525 sub 0 ge {W1} {W1S} ifelse sub CX div dup mul CY mul neg} def /YP2 {XJBA W1 sub CX div dup mul CY mul neg} def /YPU {W0 W1 sub CX div dup mul CY mul neg} def /YPP {0.0} def /YPD {W2 W1 sub CX div dup mul CY mul neg} def /YPT {W3 W1 sub CX div dup mul CY mul neg} def /YPN {W4 W1 sub CX div dup mul CY mul neg} def /YPI {W5 W1 sub CX div dup mul CY mul neg} def /YPW {YPU YPN add 0.5 mul} def %function value for curve D normalized to 1 at 5 wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5), % 450(V=6), 475(B=6), 575(J=7), 600(O=8) /YD1 {XRGA XRGA 525 sub 0 ge {W2} {W2S} ifelse sub CX div dup mul CY mul neg} def /YD2 {XJBA W2 sub CX div dup mul CY mul neg} def /YDU {W0 W2 sub CX div dup mul CY mul neg} def /YDP {W1 W2 sub CX div dup mul CY mul neg} def /YDD {0.0} def /YDT {W3 W2 sub CX div dup mul CY mul neg} def /YDN {W4 W2 sub CX div dup mul CY mul neg} def /YDI {W5 W2 sub CX div dup mul CY mul neg} def /YDW {YDU YDN add 0.5 mul} def %function value for curve T normalized to 1 at 5 wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YT1 {XRGA W3 sub CX div dup mul CY mul neg} def /YT2 {XJBA XJBA 525 sub 0 le {W3} {W3S} ifelse sub CX div dup mul CY mul neg} def /YTU {W0 W3 sub CX div dup mul CY mul neg} def /YTP {W1 W3 sub CX div dup mul CY mul neg} def /YTD {W2 W3 sub CX div dup mul CY mul neg} def /YTT {0.0} def /YTN {W4 W3 sub CX div dup mul CY mul neg} def /YTI {W5 W3 sub CX div dup mul CY mul neg} def /YTW {YTU YTN add 0.5 mul} def %function value for curve N normalized to 1 at 5 wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YN1 {XRGA W4 sub CX div dup mul CY mul neg} def /YN2 {XJBA W4 sub CX div dup mul CY mul neg} def /YNU {W0 W4 sub CX div dup mul CY mul neg} def /YNP {W1 W4 sub CX div dup mul CY mul neg} def /YND {W2 W4 sub CX div dup mul CY mul neg} def /YNT {W3 W4 sub CX div dup mul CY mul neg} def /YNN {0.0} def /YNI {W5 W4 sub CX div dup mul CY mul neg} def /YNW {YNU YNN add 0.5 mul} def %function value for curve W normalized to 1 at 5 wavelengths 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YI1 {XRGA W5 sub CX div dup mul CY mul neg} def /YI2 {XJBA W5 sub CX div dup mul CY mul neg} def /YIU {W0 W5 sub CX div dup mul CY mul neg} def /YIP {W1 W5 sub CX div dup mul CY mul neg} def /YID {W2 W5 sub CX div dup mul CY mul neg} def /YIT {W3 W5 sub CX div dup mul CY mul neg} def /YIN {W4 W5 sub CX div dup mul CY mul neg} def /YII {0.0} def /YIW {YIU YIN add 0.5 mul} def %function value for curve U normalized to 1 at 5S Wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YU1S {XRGAS W0S sub CX div dup mul CY mul neg} def /YU2S {XJBAS W0S sub CX div dup mul CY mul neg} def /YUUS {0} def /YUPS {W1S W0S sub CX div dup mul CY mul neg} def /YUDS {W2S W0S sub CX div dup mul CY mul neg} def /YUTS {W3S W0S sub CX div dup mul CY mul neg} def /YUNS {W4S W0S sub CX div dup mul CY mul neg} def /YUIS {W5S W0S sub CX div dup mul CY mul neg} def /YUWS {YUUS YUNS add 0.5 mul} def %function value for curve P normalized to 1 at 5S Wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YP1S {XRGAS XRGAS 525 sub 0 le {W1S} {W1} ifelse sub CX div dup mul CY mul neg} def /YP2S {XJBAS W1S sub CX div dup mul CY mul neg} def /YPUS {W0S W1S sub CX div dup mul CY mul neg} def /YPPS {0} def /YPDS {W2S W1S sub CX div dup mul CY mul neg} def /YPTS {W3S W1S sub CX div dup mul CY mul neg} def /YPNS {W4S W1S sub CX div dup mul CY mul neg} def /YPIS {W5S W1S sub CX div dup mul CY mul neg} def /YPWS {YPUS YPNS add 0.5 mul} def %function value for curve D normalized to 1 at 5S Wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YD1S {XRGAS XRGAS 525 sub 0 le {W2S} {W2} ifelse sub CX div dup mul CY mul neg} def /YD2S {XJBAS W2S sub CX div dup mul CY mul neg} def /YDUS {W0S W2S sub CX div dup mul CY mul neg} def /YDPS {W1S W2S sub CX div dup mul CY mul neg} def /YDDS {0} def /YDTS {W3S W2S sub CX div dup mul CY mul neg} def /YDNS {W4S W2S sub CX div dup mul CY mul neg} def /YDIS {W5S W2S sub CX div dup mul CY mul neg} def /YDWS {YDUS YDNS add 0.5 mul} def %function value for curve T normalized to 1 at 5S Wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YT1S {XRGAS W3S sub CX div dup mul CY mul neg} def /YT2S {XJBAS XJBAS 525 sub 0 ge {W3S} {W3} ifelse sub CX div dup mul CY mul neg} def /YTUS {W0S W3S sub CX div dup mul CY mul neg} def /YTPS {W1S W3S sub CX div dup mul CY mul neg} def /YTDS {W2S W3S sub CX div dup mul CY mul neg} def /YTTS {0} def /YTNS {W4S W3S sub CX div dup mul CY mul neg} def /YTIS {W5S W3S sub CX div dup mul CY mul neg} def /YTWS {YTUS YTNS add 0.5 mul} def %function value for curve N normalized to 1 at 5S Wavelength 1 to 5 %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YN1S {XRGAS W4S sub CX div dup mul CY mul neg} def /YN2S {XJBAS W4S sub CX div dup mul CY mul neg} def /YNUS {W0S W4S sub CX div dup mul CY mul neg} def /YNPS {W1S W4S sub CX div dup mul CY mul neg} def /YNDS {W2S W4S sub CX div dup mul CY mul neg} def /YNTS {W3S W4S sub CX div dup mul CY mul neg} def /YNNS {0} def /YNIS {W5S W4S sub CX div dup mul CY mul neg} def /YNWS {YNUS YNNS add 0.5 mul} def %function value for curve W normalized to 1 at 9 wavelengths %XRGA, XJBA, 563(P=1), 537(D=2), 450(T=3), 500(N=4), 525(I=5) /YI1S {XRGAS W5S sub CX div dup mul CY mul neg} def /YI2S {XJBAS W5S sub CX div dup mul CY mul neg} def /YIUS {W0S W5S sub CX div dup mul CY mul neg} def /YIPS {W1S W5S sub CX div dup mul CY mul neg} def /YIDS {W2S W5S sub CX div dup mul CY mul neg} def /YITS {W3S W5S sub CX div dup mul CY mul neg} def /YINS {W4S W5S sub CX div dup mul CY mul neg} def /YIIS {0} def /YIWS {YWUS YWNS add 0.5 mul} def /YUN1 {XRGA 525 sub 0 ge {YU1} {YN1} ifelse} def /YUN2 {XJBA 525 sub 0 ge {YU2} {YN2} ifelse} def /YNU1S {XRGAS 525 sub 0 ge {YN1S} {YU1S} ifelse} def /YNU2S {XJBAS 525 sub 0 ge {YN2S} {YU2S} ifelse} def %i=0,85: 400_500_600_700_400(81) 0 1 60 {/i exch def %i=0,60: 400_700(61) /XEXI i 5 mul 400 add def YIXU i XEXI W 0 get sub CX div dup mul CY mul neg put YIXP i XEXI W 1 get sub CX div dup mul CY mul neg put YIXD i XEXI W 2 get sub CX div dup mul CY mul neg put YIXT i XEXI W 3 get sub CX div dup mul CY mul neg put YIXN i XEXI W 4 get sub CX div dup mul CY mul neg put YIXI i XEXI W 5 get sub CX div dup mul CY mul neg put } for %i=0,60: 400_700(61) 61 1 80 {/i exch def %i=61,80: 700_400(20) /alpha i 60 sub 20 div def /1malp 1 alpha sub def YIXU i YIXU 60 get 1malp mul YIXU 0 get alpha mul add put YIXP i YIXP 60 get 1malp mul YIXP 0 get alpha mul add put YIXD i YIXD 60 get 1malp mul YIXD 0 get alpha mul add put YIXT i YIXT 60 get 1malp mul YIXT 0 get alpha mul add put YIXN i YIXN 60 get 1malp mul YIXN 0 get alpha mul add put YIXI i YIXI 60 get 1malp mul YIXI 0 get alpha mul add put } for %i=61,80: 700_400(20) 81 1 85 {/i exch def %i=81,85: 405_425(5) YIXU i YIXU i 80 sub get put YIXP i YIXP i 80 sub get put YIXD i YIXD i 80 sub get put YIXT i YIXT i 80 sub get put YIXN i YIXN i 80 sub get put YIXI i YIXI i 80 sub get put } for %i=81,85: 405_425(5) 0 1 85 {/i exch def %i=0,85: 400_700_400(85) YIXE i YIXU i get put YIXF i YIXN i get put YIXW i YIXU i get YIXN i get add 0.5 mul put YIXH i YIXI i get YI2 sub YUN2 add put } for %i=0,85: 400_700_400(85) 0 1 60 {/i exch def %i=0,60: 400_700(61) /XEXI i 5 mul 400 add def YIXUS i XEXI WS 0 get sub CX div dup mul CY mul neg put YIXPS i XEXI WS 1 get sub CX div dup mul CY mul neg put YIXDS i XEXI WS 2 get sub CX div dup mul CY mul neg put YIXTS i XEXI WS 3 get sub CX div dup mul CY mul neg put YIXNS i XEXI WS 4 get sub CX div dup mul CY mul neg put YIXIS i XEXI WS 5 get sub CX div dup mul CY mul neg put } for %i=0,60: 400_700(61) 61 1 80 {/i exch def %i=61,80: 700_400(20) /alpha i 60 sub 20 div def /1malp 1 alpha sub def YIXUS i YIXUS 60 get 1malp mul YIXUS 0 get alpha mul add put YIXPS i YIXPS 60 get 1malp mul YIXPS 0 get alpha mul add put YIXDS i YIXDS 60 get 1malp mul YIXDS 0 get alpha mul add put YIXTS i YIXTS 60 get 1malp mul YIXTS 0 get alpha mul add put YIXNS i YIXNS 60 get 1malp mul YIXNS 0 get alpha mul add put YIXIS i YIXIS 60 get 1malp mul YIXIS 0 get alpha mul add put } for %i=61,80: 700_400(20) 81 1 85 {/i exch def %i=81,85: 405_425(5) YIXUS i YIXUS i 80 sub get put YIXPS i YIXPS i 80 sub get put YIXDS i YIXDS i 80 sub get put YIXTS i YIXTS i 80 sub get put YIXNS i YIXNS i 80 sub get put YIXIS i YIXIS i 80 sub get put } for %i=81,85: 405_425(5) 0 1 85 {/i exch def %i=0,85: 400_700_400(85) YIXES i YIXUS i get put YIXFS i YIXNS i get put YIXWS i YIXUS i get YIXNS i get add 0.5 mul put YIXHS i YIXIS i get YI2S sub YNU2S add put } for %i=0,85: 400_700_400(85) 0 1 85 {/i exch def /YEXU {YIXU i get} def /YEXP {YIXP i get} def %YP1 sub YUN1 add} def /YEXD {YIXD i get} def %YD1 sub YUN1 add} def /YEXT {YIXT i get} def %YT2 sub YUN2 add} def /YEXN {YIXN i get} def /YEXI {YIXI i get} def /YEXW {YEXU YEXN add 0.5 mul} def /YEXE YEXU def /YEXF YEXN def /YEXH {YIXI i get YI2 sub YUN2 add} def /YD 0 def /YDchange {YD abs logta abs gt {YD 0 lt {/YD logta def} {/YD logta neg def} ifelse } if } bind def INE 0 eq {/fneg {} def} {/fneg {neg} def} ifelse 0 1 11 {/j exch def %j=0,11 %JPPM calculate all IKOM 0 eq {/YEXA YEXU def} if IKOM 1 eq {/YEXA YEXN def} if IKOM 2 eq {/YEXA YEXH def} if IKOM 3 eq {/YEXA YEXW def} if %begin for ILS=1 j 0 eq {/YD YEXU YEXA sub fneg def YDchange YEXP0 i YD put} if j 1 eq {/YD YEXP YEXA sub fneg def YDchange YEXP1 i YD put} if j 2 eq {/YD YEXD YEXA sub fneg def YDchange YEXP2 i YD put} if j 3 eq {/YD YEXT YEXA sub fneg def YDchange YEXP3 i YD put} if j 4 eq {/YD YEXN YEXA sub fneg def YDchange YEXP4 i YD put} if j 5 eq {/YD YEXW YEXA sub fneg def YDchange YEXP5 i YD put} if j 6 eq {/YD YEXP YEXA sub fneg def YDchange YEXP6 i YD put} if j 7 eq {/YD YEXD YEXA sub fneg def YDchange YEXP7 i YD put} if j 8 eq {/YD YEXT YEXA sub fneg def YDchange YEXP8 i YD put} if j 9 eq {/YD YEXE YEXA sub fneg def YDchange YEXP9 i YD put} if j 10 eq {/YD YEXF YEXA sub fneg def YDchange YEXP10 i YD put} if j 11 eq {/YD YEXH YEXA sub fneg def YDchange YEXP11 i YD put} if %end for ILS=1 ILS 0 eq {%ILS=0 j 0 eq {/YE YEXP0 i get YEXA add def YEXP0 i YE put} if j 1 eq {/YE YEXP1 i get YEXA add def YEXP1 i YE put} if j 2 eq {/YE YEXP2 i get YEXA add def YEXP2 i YE put} if j 3 eq {/YE YEXP3 i get YEXA add def YEXP3 i YE put} if j 4 eq {/YE YEXP4 i get YEXA add def YEXP4 i YE put} if j 5 eq {/YE YEXP5 i get YEXA add def YEXP5 i YE put} if j 6 eq {/YE YEXP6 i get YEXA add def YEXP6 i YE put} if j 7 eq {/YE YEXP7 i get YEXA add def YEXP7 i YE put} if j 8 eq {/YE YEXP8 i get YEXA add def YEXP8 i YE put} if j 9 eq {/YE YEXP9 i get YEXA add def YEXP9 i YE put} if j 10 eq {/YE YEXP10 i get YEXA add def YEXP10 i YE put} if j 11 eq {/YE YEXP11 i get YEXA add def YEXP11 i YE put} if } if %ILS=0 } for %j=0,11 %calculate all } for %i=0,85: 400_700_400(81) 0 1 85 {/i exch def %i=0,85: 400_700_400(81) /YEXUS {YIXUS i get} def %identical YEXN /YEXPS {YIXPS i get YP1S sub YNU1S add} def /YEXDS {YIXDS i get YD1S sub YNU1S add} def /YEXTS {YIXTS i get YT2S sub YNU2S add} def /YEXNS {YIXNS i get} def %identical YEXU /YEXWS {YIXUS i get YIXNS i get add 0.5 mul} def /YEXES YEXUS def /YEXFS YEXNS def /YEXHS {YIXWS i get YI2S sub YNU2S add} def /YD 0 def /YDchange {YD abs logta abs gt {YD 0 lt {/YD logta def} {/YD logta neg def} ifelse } if } bind def INE 0 eq {/fneg {} def} {/fneg {neg} def} ifelse 0 1 11 {/j exch def %j=0,11 %JPPM calculate all IKOM 0 eq {/YEXAS YEXNS def} if IKOM 1 eq {/YEXAS YEXUS def} if IKOM 2 eq {/YEXAS YEXHS def} if IKOM 3 eq {/YEXAS YEXWS def} if %begin for ILS=1 j 0 eq {/YD YEXUS YEXAS sub fneg def YDchange YEXP0S i YD put} if j 1 eq {/YD YEXPS YEXAS sub fneg def YDchange YEXP1S i YD put} if j 2 eq {/YD YEXDS YEXAS sub fneg def YDchange YEXP2S i YD put} if j 3 eq {/YD YEXTS YEXAS sub fneg def YDchange YEXP3S i YD put} if j 4 eq {/YD YEXNS YEXAS sub fneg def YDchange YEXP4S i YD put} if j 5 eq {/YD YEXWS YEXAS sub fneg def YDchange YEXP5S i YD put} if j 6 eq {/YD YEXPS YEXAS sub fneg def YDchange YEXP6S i YD put} if j 7 eq {/YD YEXDS YEXAS sub fneg def YDchange YEXP7S i YD put} if j 8 eq {/YD YEXTS YEXAS sub fneg def YDchange YEXP8S i YD put} if j 9 eq {/YD YEXES YEXAS sub fneg def YDchange YEXP9S i YD put} if j 10 eq {/YD YEXFS YEXAS sub fneg def YDchange YEXP10S i YD put} if j 11 eq {/YD YEXHS YEXAS sub fneg def YDchange YEXP11S i YD put} if %end for ILS=1 ILS 0 eq {%ILS=0 j 0 eq {/YE YEXP0S i get YEXAS add def YEXP0S i YE put} if j 1 eq {/YE YEXP1S i get YEXAS add def YEXP1S i YE put} if j 2 eq {/YE YEXP2S i get YEXAS add def YEXP2S i YE put} if j 3 eq {/YE YEXP3S i get YEXAS add def YEXP3S i YE put} if j 4 eq {/YE YEXP4S i get YEXAS add def YEXP4S i YE put} if j 5 eq {/YE YEXP5S i get YEXAS add def YEXP5S i YE put} if j 6 eq {/YE YEXP6S i get YEXAS add def YEXP6S i YE put} if j 7 eq {/YE YEXP7S i get YEXAS add def YEXP7S i YE put} if j 8 eq {/YE YEXP8S i get YEXAS add def YEXP8S i YE put} if j 9 eq {/YE YEXP9S i get YEXAS add def YEXP9S i YE put} if j 10 eq {/YE YEXP10S i get YEXAS add def YEXP10S i YE put} if j 11 eq {/YE YEXP11S i get YEXAS add def YEXP11S i YE put} if } if %ILS=0 } for %j=0,11 %calculate all } for %i=0,85: 400_700_400(81) %61 1 80 {/i exch def %i=61,80: 700_400(20) % /alpha i 60 sub 20 div def % /1malp 1 alpha sub def % YEXP0 i YEXP0 60 get 1malp mul YEXP0 0 get alpha mul add put % YEXP1 i YEXP1 60 get 1malp mul YEXP1 0 get alpha mul add put % YEXP2 i YEXP2 60 get 1malp mul YEXP2 0 get alpha mul add put % YEXP3 i YEXP3 60 get 1malp mul YEXP3 0 get alpha mul add put % YEXP4 i YEXP4 60 get 1malp mul YEXP4 0 get alpha mul add put % YEXP5 i YEXP5 60 get 1malp mul YEXP5 0 get alpha mul add put % YEXP6 i YEXP6 60 get 1malp mul YEXP6 0 get alpha mul add put % YEXP7 i YEXP7 60 get 1malp mul YEXP7 0 get alpha mul add put % YEXP8 i YEXP8 60 get 1malp mul YEXP8 0 get alpha mul add put % YEXP9 i YEXP9 60 get 1malp mul YEXP9 0 get alpha mul add put % YEXP10 i YEXP10 60 get 1malp mul YEXP10 0 get alpha mul add put % YEXP11 i YEXP11 60 get 1malp mul YEXP11 0 get alpha mul add put % YEXP0S i YEXP0S 60 get 1malp mul YEXP0S 0 get alpha mul add put % YEXP1S i YEXP1S 60 get 1malp mul YEXP1S 0 get alpha mul add put % YEXP2S i YEXP2S 60 get 1malp mul YEXP2S 0 get alpha mul add put % YEXP3S i YEXP3S 60 get 1malp mul YEXP3S 0 get alpha mul add put % YEXP4S i YEXP4S 60 get 1malp mul YEXP4S 0 get alpha mul add put % YEXP5S i YEXP5S 60 get 1malp mul YEXP5S 0 get alpha mul add put % YEXP6S i YEXP6S 60 get 1malp mul YEXP6S 0 get alpha mul add put % YEXP7S i YEXP7S 60 get 1malp mul YEXP7S 0 get alpha mul add put % YEXP8S i YEXP8S 60 get 1malp mul YEXP8S 0 get alpha mul add put % YEXP9S i YEXP9S 60 get 1malp mul YEXP9S 0 get alpha mul add put % YEXP10S i YEXP10S 60 get 1malp mul YEXP10S 0 get alpha mul add put % YEXP11S i YEXP11S 60 get 1malp mul YEXP11S 0 get alpha mul add put %} for %i=61,80: 700_400(20) ILF 0 eq {%ILF=0 1800 050 moveto tfw (l) outSK (d) ishowK 30 0 rmoveto (/nm) nshowK 4200 050 moveto tfw (l) outSK (c) ishowK 30 0 rmoveto (/nm) nshowK ILU 1 eq {4900 550 moveto (u) bishowM} if } if %ILF=0 %3100 2975 moveto tfw (Adaptation: ) bshowM %tfw (l) outSM tfo (R) ishowK tfl (G) ishowK %tfw (=) bshowM XRG$I ILK get bshowM %special; first part not visible %3100 2725 moveto 0.0 0.0 0.0 0.5 setcmykcolor (Adaptation: ) bshowM %tfw (l) outSM tfy (J) ishowK tfv (B) ishowK %tfw (=) bshowM XBJ$I ILK get bshowM %ILS 1 eq ILF 0 eq and {%ILS=1, ILF=0 %saturation diagram % 0800 2975 moveto TBM (Threshold: ) showea (Schwelle: ) showde % (S) bshowM (s) ishowK (=) bshowM ta trushow4} % {3400 2725 moveto (S) bshowM (s) ishowK (=) bshowM ta trushow4 % } ifelse %ILS=1, ILF=0 ILS 2 eq {%ILS=2, text purity function %text 0010 3800 moveto tfw (-) bshowM RGX1 cvishow (|log[) bshowM P0aS tfw (/) bshowM N0a tfw (]|) bshowM 1600 3800 moveto tfw (-) bshowM RGX2 cvishow (|log[) bshowM P0a tfw (/) bshowM U0a tfw (]|) bshowM 0210 3525 moveto (\050) bshowM U0a tfw (<) bshowM N0a tfw (\051) bshowM 1600 3525 moveto (\050) bshowM U0a tfw (>=) bshowM N0a tfw (\051) bshowM 0010 3250 moveto tfw (-) bshowM JBY1 cvishow (|log[) bshowM N0a tfw (/) bshowM H0a tfw (]|) bshowM 1600 3250 moveto tfw (-) bshowM JBY2 cvishow (|log[) bshowM U0a tfw (/) bshowM H0a tfw (]|) bshowM 0210 2975 moveto tfw (\050) bshowM (l) outSM tfy (J) ishowK tfv (B) ishowK tfw (<525nm\051) bshowM 1600 2975 moveto tfw (\050) bshowM (l) outSM tfy (J) ishowK tfv (B) ishowK tfw (>=525nm\051) bshowM } if %ILS=2, text purity function ILF 1 eq {%ILF=1 text chomaticity diagram IKOM 0 eq {%IKOM=0,#0 %IKOM=0 Xx525 0 ge {Yix i XUND RGX2 mul abs put} % {Yix i XUND RGX1 mul abs put} ifelse % Xx525 0 ge {Yiy i 0.00 put} % {Yiy i XUND JBY1 mul put} ifelse % %IKOM=123(NHW):W Xx525 0 ge {Yix i XUWD RGX2 mul abs put} % {Yix i XUWD RGX1 mul abs put} ifelse % Xx525 0 ge {Yiy i XUWD JBY2 mul put} % {Yiy i XUWD JBY1 mul put} ifelse 0010 3800 moveto tfw TBM JBY1 cvsshow2 (log[) bshowM U0a tfw (/) bshowM Na0 tfw (]) bshowM 0210 3525 moveto (\050) bshowM U0a tfw (<) bshowM N0a tfw (\051) bshowM 1600 3800 moveto tfw TBM JBY2 cvsshow2 tfw (log[) bshowM U0a tfw (/) bshowM Na0 tfw (]=0) bshowM 1600 3525 moveto (\050) bshowM U0a tfw (>=) bshowM N0a tfw (\051) bshowM 3600 1900 moveto tfw TBM RGX1 cvsshow2 (|log[) bshowM U0a tfw (/) bshowM N0a tfw (]|) bshowM 3800 1625 moveto (\050) bshowM U0a tfw (<) bshowM N0a tfw (\051) bshowM 3600 1250 moveto tfw TBM RGX2 cvsshow2 (|log[) bshowM U0a tfw (/) bshowM N0a tfw (]|) bshowM 3800 0875 moveto (\050) bshowM U0a tfw (>=) bshowM N0a tfw (\051) bshowM } { 0010 3800 moveto tfw TBM JBY1 cvsshow2 (log[) bshowM U0a tfw (/) bshowM YAa tfw (]) bshowM 0210 3525 moveto (\050) bshowM U0a tfw (<) bshowM N0a tfw (\051) bshowM 1600 3800 moveto tfw TBM JBY2 cvsshow2 tfw (log[) bshowM U0a tfw (/) bshowM YAa tfw (]) bshowM 1600 3525 moveto (\050) bshowM U0a tfw (>=) bshowM N0a tfw (\051) bshowM 3600 1900 moveto tfw TBM RGX1 cvsshow2 (|log[) bshowM U0a tfw (/) bshowM YAa tfw (]|) bshowM 3800 1625 moveto (\050) bshowM U0a tfw (<) bshowM N0a tfw (\051) bshowM 3600 1250 moveto tfw TBM RGX2 cvsshow2 (|log[) bshowM U0a tfw (/) bshowM YAa tfw (]|) bshowM 3800 0875 moveto (\050) bshowM U0a tfw (>=) bshowM N0a tfw (\051) bshowM } ifelse %IKOM=0,#0 } if %ILF=1 text chomaticity diagram ILF 1 ne ILS 2 ne and {%ILF#1, ISL#2 %no text if chromaticity or purity diagram 010 3800 moveto ILS 0 eq {%iLS=0,1 tfw (log [) bshowM P0o D0o T0o U0o N0o W0a %P0a D0a T0a U0a N0a W0a tfw (]) bshowM} {INE 0 eq {tfw (log[) bshowM P0a D0a T0a U0a N0a W0a tfw (]-log) bshowM YAa} {tfw (log) bshowM YAa tfw (-log[) bshowM P0a D0a T0a U0a N0a W0a tfw (]) bshowM } ifelse } ifelse %ILS=0,1 %special 200 3525 moveto ( ) bshowM ILS 0 eq {%iLS=0,1 tfw (Calculated data) showea (Berechnete Daten) showde} {tfw (Cone exitation ) showea (Zapfenerregbarkeit ) showde (e) bishowM IKOM 0 eq {(U) ishowK} if IKOM 1 eq {(N) ishowK} if IKOM 2 eq {(H) ishowK} if IKOM 3 eq {(W) ishowK} if } ifelse %ILS=0,1 200 3250 moveto tfw ( ) bshowM ILS 0 eq {%iLS=0,1 U0o tfw (,) bshowM 10 0 rmoveto N0o tfw () bshowM 20 0 rmoveto (normalized to one) showea (normiert auf eins) showde % (normalized to cone) showea % (normiert auf Zapfen\255) showde % (increased to cone) showea % (verst\344rkt auf Zapfen\255) showde } { } ifelse %ILS=0,1 050 2975 moveto tfw () bshowM ILS 0 eq {%iLS=0,1 % (ratio P:D:T=1:2:16) showea % (verh\344ltnis P:D:T=1:2:16) showde tfw (log) bshowM W0a tfw ( = 0,5 [log) bshowM U0o tfw (+log) bshowM N0o tfw (]) bshowM } {( ) showea ( ) showde } ifelse %ILS=0,1 %400nm /X400 000 0.00 1200 mul add def %425nm /X450 000 0.50 1200 mul add def %475nm /X475 000 0.75 1200 mul add def %500nm /X500 000 1.00 1200 mul add def %525nm /X525 000 1.25 1200 mul add def %550nm /X550 000 1.50 1200 mul add def %575nm /X537 000 1.37 1200 mul add def /X563 000 1.63 1200 mul add def /X575 000 1.75 1200 mul add def %625nm /X625 000 2.25 1200 mul add def %675nm /X675 000 2.75 1200 mul add def %375cnm /X700 000 3.00 1200 mul add def %395cnm /X400c 000 4.00 1200 mul add def %X450 200 add 2600 moveto T0o %X537 200 add 2600 moveto D0o %X563 200 add 2600 moveto P0o X500 200 add 2600 moveto N0o X525 200 add 2600 moveto W0a X550 200 add 2600 moveto U0o %210 3525 moveto %special U0a,N0a %ILN 5 ge {%ILN=5,#5 % tfw (log) bshowM N0a tfw ( = 0,5 [log) bshowM T0a % tfw (+log) bshowM U0a tfw (]) bshowM % } % { % tfw (log) bshowM N0a tfw ( = 0,5 [log) bshowM T0a % tfw (+log) bshowM U0a tfw (]) bshowM % } ifelse %ILN=5,#5 %210 3250 moveto %ILN 5 ge {%ILN=5,#5 % tfw (log) bshowM W0a tfw ( = 0,5 [log) bshowM N0a % tfw (+log) bshowM U0a tfw (]) bshowM % } % { % tfw (log) bshowM W0a tfw ( = 0,5 [log) bshowM N0a % tfw (+log) bshowM U0a tfw (]) bshowM % } ifelse %ILN=5,#5 % } if %ILF#1, ISL#2 %no text if chromaticity or purity diagram 2900 3800 moveto tfw (u) bishowM 0 -60 rmoveto (l) outSK 0 60 rmoveto ( = \050) bshowM (l) outSM ( - 550\051 / 50) bshowM 2900 3525 moveto tfw (log) bshowM 30 0 rmoveto U0o 50 0 rmoveto tfw (= -0,35[) bshowM (u) bishowM 0 -60 rmoveto (l) outSK 0 60 rmoveto (-) bshowM (u) bishowM tfy (550) ishowK (]) TBM tfw show (2) ebshowM 2900 3250 moveto tfw (log) bshowM 30 0 rmoveto N0o 50 0 rmoveto tfw (= -0,35[) bshowM (u) bishowM 0 -60 rmoveto (l) outSK 0 60 rmoveto (-) bshowM (u) bishowM tfc (500) ishowK (]) TBM tfw show (2) ebshowM 2900 2975 moveto tfw (log) bshowM 30 0 rmoveto W0o 10 0 rmoveto tfw (= -0,35[) bshowM (u) bishowM 0 -60 rmoveto (l) outSK 0 60 rmoveto (-) bshowM (u) bishowM tfm (525) ishowK (]) TBM tfw show (2) ebshowM 2450 2700 moveto tfw (log) bshowM 30 0 rmoveto W0a 50 0 rmoveto tfw (= log) bshowM 30 0 rmoveto W0o 10 0 rmoveto tfw (-log) bshowM 30 0 rmoveto U0o 10 0 rmoveto tfw ((525)) bshowM %text always %3100 3800 moveto tfw (log) bshowM 30 0 rmoveto P0a 50 0 rmoveto %tfw (= log) bshowM 50 0 rmoveto P0o tfw %YU1 YP1 sub 0 ge {( + )} {( - )} ifelse bshowM YU1 YP1 sub abs troshow %3100 3525 moveto tfw (log) bshowM 30 0 rmoveto D0a 50 0 rmoveto %tfw (= log) bshowM 50 0 rmoveto D0o tfw %YU1 YD1 sub 0 ge {( + )} {( - )} ifelse bshowM YU1 YD1 sub abs troshow %special for 475nm/575nm %3100 3250 moveto tfw (log) bshowM 30 0 rmoveto T0a 50 0 rmoveto %tfw (= log) bshowM 50 0 rmoveto T0o tfw %/YDTW YT2 neg YI2 add def %YDTW 0 ge {( + )} {( - )} ifelse bshowM %YDTW abs troshow tfw %y-arrow 100 3400 moveto 0 300 rlineto -50 -150 rlineto 50 150 rlineto 50 -150 rlineto stroke tfw 380 280 translate 50 setlinewidth ILF 0 eq {%ILF=0 sensitivity or saturation 0 0 moveto 400 12 mul 0 rlineto stroke 0 0 moveto 0 ILS 0 eq ILS 2 eq or {3300} {3600} ifelse 0.8 mul rlineto stroke ILS 0 eq ILS 2 eq or {0 2700 0.8 mul moveto 400 12 mul 0 rlineto stroke} if TBK /tx [ (400) (500) (600) (700) (400)] def /tye [(-2) () (-1) () ( 0) () (-2)] def /tys [(-2) (-1) ( 0) ( 1) ( 2) ( 3) (-2)] def /tu [ ( -3,1) (-1,1) ( 0,9) ( 2,9) ( -3,1)] def %!u-Achse: 100 Einheiten = 1200 Skalen-Einheiten ILU 1 eq {%ILU=1 0 1 4 {/i exch def /ixt {-180 i 1200 mul add} def /ixl {240 i 1200 mul add} def ixt 150 moveto tu i get exec show } for % 550 nm; u=0.0 /ixt -180 1.55 1200 mul add def /ixl 240 1.55 1200 mul add def 0.25 0.0 1.0 0.0 setcmykcolor ixt 150 moveto ( 0.0) show /ixt 20 1860 add def ixt -320 moveto (550) show ixl 75 moveto 0 -150 rlineto stroke } if %ILU=1 %!x-Achse: 100 Einheiten = 1200 Skalen-Einheiten tfw 0 1 4 {/i exch def /ixt {-150 i 1200 mul add} def /ixl { 000 i 1200 mul add} def ixt -250 moveto tx i get exec show ixl 75 moveto 0 -150 rlineto stroke } for %!y-Achse: 100 S-Einheiten = 960 = 1200*0.8 Skalen-Einheiten TBK 0 1 4 {/i exch def /iyt {200 i 0480 mul add} def /iyl {240 i 0480 mul add} def -300 iyt moveto ILS 0 eq ILS 2 eq or {tye} {tys} ifelse i get exec show -75 iyl moveto 150 0 rlineto stroke } for %TBK TBS 30 setlinewidth %ymax = 240 + 4 * 480 = 2160 [100 100] 0 setdash %X525 0 moveto 0 2160 rlineto stroke %X700 0 moveto 0 2160 rlineto stroke %X400c 0 moveto 0 2160 rlineto stroke X450 0 moveto 0 2160 rlineto stroke X537 0 moveto 0 2160 rlineto stroke X563 0 moveto 0 2160 rlineto stroke X500 500 moveto 0 1660 rlineto stroke X525 500 moveto 0 1660 rlineto stroke X550 500 moveto 0 1660 rlineto stroke %X525 20 add 100 moveto (525) show %X700 20 add 100 moveto (700) show %X400c 20 add 100 moveto (400) show %xchart 2 ge {%xchart>=2 % X475 0 moveto 0 2160 rlineto stroke % X575 0 moveto 0 2160 rlineto stroke % X475 20 add 100 moveto (475) show % X575 20 add 100 moveto (575) show X450 040 add 100 moveto (450) show X537 270 sub 100 moveto (537) show X563 270 sub 100 moveto (563) show X500 120 sub 350 moveto (500) show X525 120 sub 350 moveto (525) show X550 120 sub 350 moveto (550) show % } if %xchart>=2 [ ] 0 setdash TBM 50 setlinewidth %Cero point at 550 nm /X0t {550 400 sub 12 mul} def X0t 0 translate } if %ILF=0 sensitivity or saturation ILF 1 eq {%ILF=1 axis chromaticity diagram TBK /ix00 000 def IKOM 0 eq {/ty [(-4) (-3) (-2) (-1) ( 0) ( 1)] def} if IKOM 1 eq {/ty [(-2) (-1) ( 0) ( 1) ( 2) ( 3)] def} if IKOM 2 eq {/ty [(-2) (-1) ( 0) ( 1) ( 2) ( 3)] def} if IKOM 3 eq {/ty [(-3) (-2) (-1) ( 0) ( 1) ( 2)] def} if tfw 50 setlinewidth 0 0 moveto 400 12 mul 0 rlineto stroke 0 0 moveto 0 2400 rlineto stroke /tx [(-1) ( 0) ( 1) ( 2) ( 3) ( 4) ( 5) ( 6)] def %!x-Achse: 100 Einheiten = 1200 Skalen-Einheiten 0 1 6 {/i exch def /ix00 000 def /ixt { ix00 -280 add i 0600 mul add} def /ixl { ix00 000 add i 0600 mul add} def ixt 100 add -250 moveto tx i get exec show ixl 75 moveto 0 -150 rlineto stroke } for %!y-Achse: 100 S-Einheiten = 960 = 1200*0.8 Skalen-Einheiten 0 1 4 {/i exch def /iyt {-100 i 0600 mul add} def /iyl { 000 i 0600 mul add} def -350 iyt moveto ty i get exec show -75 iyl moveto 150 0 rlineto stroke } for %Nullpunkt-Achsenkreuz 30 setlinewidth tfn IKOM 0 eq {/IORX 0600 def /IORY 2400 def} if IKOM 1 eq {/IORX 0600 def /IORY 1200 def} if IKOM 2 eq {/IORX 0600 def /IORY 1200 def} if IKOM 3 eq {/IORX 0600 def /IORY 1200 def} if IORX 0000 moveto 0000 2350 rlineto stroke 0000 IORY moveto 5000 0000 rlineto stroke 50 setlinewidth tfw } if %ILF=1 axis chomaticity diagram ILF 0 eq {%ILF=0 for clip 0 setlinewidth /Y0C 0000 def /Y1C 2400 def ILU 1 eq {/Y0C 0450 def} if ILS 0 eq {/Y1C 2200 def} if %instead of 2900 0.0 0.0 0.0 0.0 setcmykcolor X0t neg Y0C moveto 4800 0 rlineto 0 Y1C rlineto -4800 0 rlineto 0 Y1C neg rlineto clip stroke } if %ILF=0 for clip ILS 0 eq ILF 0 eq and {/IORY 2700 0.8 mul def} if %response diagram ILS 1 eq ILF 0 eq and {/IORY 1500 0.8 mul def} if %saturation diagram ILS 2 eq ILF 0 eq and {/IORY 2700 0.8 mul def} if %purity diagram %begin only for %j=1,2,8=P',D',T' 0 1 JPPM {/j exch def %j=0,JPPM %only ILF=0 ILF 0 eq {%ILF=0 0 1 85 {/i exch def %i=0,85: 400_700_400(81) XiS i i 5 mul 400 add put j 0 eq {YiS i YEXP0S i get put} if j 1 eq {YiS i YEXP1S i get put} if j 2 eq {YiS i YEXP2S i get put} if j 3 eq {YiS i YEXP3S i get put} if j 4 eq {YiS i YEXP4S i get put} if j 5 eq {YiS i YEXP5S i get put} if j 6 eq {YiS i YEXP6S i get put} if j 7 eq {YiS i YEXP7S i get put} if j 8 eq {YiS i YEXP8S i get put} if j 9 eq {YiS i YEXP9S i get put} if j 10 eq {YiS i YEXP10S i get put} if j 11 eq {YiS i YEXP11S i get put} if } for %i=0,85: 400_700_400(81) } if %ILF=0 ILS 0 eq {%ILS=0 FKUC1S j FKUCI00S j get put FKUM1S j FKUMI00S j get put FKUY1S j FKUYI00S j get put FKUN1S j FKUNI00S j get put FKUC2S j FKUCI01S j get put FKUM2S j FKUMI01S j get put FKUY2S j FKUYI01S j get put FKUN2S j FKUNI01S j get put IDAI1S j IDAI00S j get put IDAI2S j IDAI01S j get put KURVAS j KURVA1S j get put } if %ILS=0 ILS 1 ge {%ILS>=1 FKUC1S j FKUCI10S j get put FKUM1S j FKUMI10S j get put FKUY1S j FKUYI10S j get put FKUN1S j FKUNI10S j get put FKUC2S j FKUCI11S j get put FKUM2S j FKUMI11S j get put FKUY2S j FKUYI11S j get put FKUN2S j FKUNI11S j get put IDAI1S j IDAI10S j get put IDAI2S j IDAI11S j get put KURVAS j KURVA2S j get put } if %ILS=1 /KURVMS {KURVAS j get} def KURVMS 0 gt {%if KURVMS>0 then KURVE 1 1 KURVMS {/KURVS exch def %KURVS=1,KURVMS /IDA1S {IDAI1S j get cvi} def /IDA2S {IDAI2S j get cvi} def KURVS 1 eq {[ ] 0 setdash} if KURVS 2 eq {%KURVS=2 %special for 475nm curve j=3 /IDA1S {IDAI1S j get} def /IDA2S {IDAI2S j get} def [ IDA1S IDA2S] 0 setdash } if %KURVS=2 KURVS 1 eq {%KURVS=1 /jadd 0 def % ILS 1 ge j 1 eq and {/jadd 3 def} if /FKUCS {FKUC1S j jadd add get} def /FKUMS {FKUM1S j jadd add get} def /FKUYS {FKUY1S j jadd add get} def /FKUNS {FKUN1S j jadd add get} def } if %KURV=1 KURVS 2 eq {%KURVS=2 /FKUCS {FKUC2S j get} def /FKUMS {FKUM2S j get} def /FKUYS {FKUY2S j get} def /FKUNS {FKUN2S j get} def } if %KURVS=2 FKUCS FKUMS FKUYS FKUNS setcmykcolor ILS 2 ne {%ILS#2 ILF 0 eq {%ILF=0 sensitivity or saturation 50 setlinewidth j 1 eq j 2 eq or {%j=1,2=P',D' /K0 0 def /K1 0 def /K2 80 def /xst {XiS K0 get 550 sub CX div MULX mul} bind def /yst {IORY YiS K0 get MULY mul add} bind def xst yst moveto K1 3 K2 {/i exch def %i=0,85: 400_700_400(81) /xst {XiS i get 550 sub CX div MULX mul} bind def /yst {IORY YiS i get MULY mul add} bind def /x20 {XiS i 1 add get 550 sub CX div MULX mul} bind def /y20 {IORY YiS i 1 add get MULY mul add} bind def /x21 {XiS i 2 add get 550 sub CX div MULX mul} bind def /y21 {IORY YiS i 2 add get MULY mul add} bind def /x22 {XiS i 3 add get 550 sub CX div MULX mul} bind def /y22 {IORY YiS i 3 add get MULY mul add} bind def x21 y21 x21 y21 x22 y22 curveto } for %i=0,85: 400_700_400(81) stroke } if %j=1,2=P',D' j 8 eq {%j=8=T' /J0 0 def /J1 0 def /J2 80 def /xst {XiS J0 get 550 sub CX div MULX mul} bind def /yst {IORY YiS J0 get MULY mul add} bind def xst yst moveto J1 3 J2 {/i exch def %i=0,85: 400_700_400(81) /xst {XiS i get 550 sub CX div MULX mul} bind def /yst {IORY YiS i get MULY mul add} bind def /x20 {XiS i 1 add get 550 sub CX div MULX mul} bind def /y20 {IORY YiS i 1 add get MULY mul add} bind def /x21 {XiS i 2 add get 550 sub CX div MULX mul} bind def /y21 {IORY YiS i 2 add get MULY mul add} bind def /x22 {XiS i 3 add get 550 sub CX div MULX mul} bind def /y22 {IORY YiS i 3 add get MULY mul add} bind def x21 y21 x21 y21 x22 y22 curveto } for %i=0,85: 400_700_400(81) stroke } if %j=8=T } if %ILF=0 sensitivity or saturation } if %ILS#2 } for %KURVS=1,KURVMS } if %if KURVMS>0 then KURVES } for %j=0,JPPM %end only for %j=1,2,8=P',D',T' %begin only for %j=3,6,7=T,P,D 0 1 JPPM {/j exch def %j=0,JPPM %only ILF=0 ILF 0 eq {%ILF=0 0 1 85 {/i exch def %i=0,85: 400_700_400(81) Xi i i 5 mul 400 add put j 0 eq {Yi i YEXP0 i get put} if j 1 eq {Yi i YEXP1 i get put} if j 2 eq {Yi i YEXP2 i get put} if j 3 eq {Yi i YEXP3 i get put} if j 4 eq {Yi i YEXP4 i get put} if j 5 eq {Yi i YEXP5 i get put} if j 6 eq {Yi i YEXP6 i get put} if j 7 eq {Yi i YEXP7 i get put} if j 8 eq {Yi i YEXP8 i get put} if j 9 eq {Yi i YEXP9 i get put} if j 10 eq {Yi i YEXP10 i get put} if j 11 eq {Yi i YEXP11 i get put} if } for %i=0,85: 400_700_400(81) } if %ILF=0 ILS 0 eq {%ILS=0 FKUC1 j FKUCI00 j get put FKUM1 j FKUMI00 j get put FKUY1 j FKUYI00 j get put FKUN1 j FKUNI00 j get put FKUC2 j FKUCI01 j get put FKUM2 j FKUMI01 j get put FKUY2 j FKUYI01 j get put FKUN2 j FKUNI01 j get put IDAI1 j IDAI00 j get put IDAI2 j IDAI01 j get put KURVA j KURVA1 j get put } if %ILS=0 ILS 1 ge {%ILS>=1 FKUC1 j FKUCI10 j get put FKUM1 j FKUMI10 j get put FKUY1 j FKUYI10 j get put FKUN1 j FKUNI10 j get put FKUC2 j FKUCI11 j get put FKUM2 j FKUMI11 j get put FKUY2 j FKUYI11 j get put FKUN2 j FKUNI11 j get put IDAI1 j IDAI10 j get put IDAI2 j IDAI11 j get put KURVA j KURVA2 j get put } if %ILS=1 /KURVM {KURVA j get} def KURVM 0 gt {%if KURVM>0 then KURVE 1 1 KURVM {/KURV exch def %KURV=1,KURVM /IDA1 {IDAI1 j get cvi} def /IDA2 {IDAI2 j get cvi} def KURV 1 eq {[ ] 0 setdash} if KURV 2 eq {%KURV=2 %special for 475nm curve j=3 /IDA1 {IDAI1 j get} def /IDA2 {IDAI2 j get} def [IDA1 IDA2] 0 setdash } if %KURV=2 KURV 1 eq {%KURV=1 /jadd 0 def /FKUC {FKUC1 j jadd add get} def /FKUM {FKUM1 j jadd add get} def /FKUY {FKUY1 j jadd add get} def /FKUN {FKUN1 j jadd add get} def } if %KURV=1 KURV 2 eq {%KURV=2 /FKUC {FKUC2 j get} def /FKUM {FKUM2 j get} def /FKUY {FKUY2 j get} def /FKUN {FKUN2 j get} def } if %KURV=2 FKUC FKUM FKUY FKUN setcmykcolor ILS 2 ne {%ILS#2 ILF 0 eq {%ILF=0 sensitivity or saturation, not purity 50 setlinewidth j 3 eq {%j=3=T /K0 0 def /K1 0 def /K2 80 def /xst {Xi K0 get 550 sub CX div MULX mul} bind def /yst {IORY Yi K0 get MULY mul add} bind def xst yst moveto K1 3 K2 {/i exch def %i=0,85 400_700_400(81) /xst {Xi i get 550 sub CX div MULX mul} bind def /yst {IORY Yi i get MULY mul add} bind def /x20 {Xi i 1 add get 550 sub CX div MULX mul} bind def /y20 {IORY Yi i 1 add get MULY mul add} bind def /x21 {Xi i 2 add get 550 sub CX div MULX mul} bind def /y21 {IORY Yi i 2 add get MULY mul add} bind def /x22 {Xi i 3 add get 550 sub CX div MULX mul} bind def /y22 {IORY Yi i 3 add get MULY mul add} bind def x21 y21 x21 y21 x22 y22 curveto } for %i=0,85 400_700_400(81) stroke } if %j=3 j 6 eq j 7 eq or{%j=6,7=P,D /J0 0 def /J1 0 def /J2 80 def /xst {Xi J0 get 550 sub CX div MULX mul} bind def /yst {IORY Yi J0 get MULY mul add} bind def xst yst moveto J1 3 J2 {/i exch def %i=0,85 400_700_400(81) /xst {Xi i get 550 sub CX div MULX mul} bind def /yst {IORY Yi i get MULY mul add} bind def /x20 {Xi i 1 add get 550 sub CX div MULX mul} bind def /y20 {IORY Yi i 1 add get MULY mul add} bind def /x21 {Xi i 2 add get 550 sub CX div MULX mul} bind def /y21 {IORY Yi i 2 add get MULY mul add} bind def /x22 {Xi i 3 add get 550 sub CX div MULX mul} bind def /y22 {IORY Yi i 3 add get MULY mul add} bind def x21 y21 x21 y21 x22 y22 curveto } for %i=0,85 400_700_400(81) stroke } if %j=6,7=P,D } if %ILF=0 sensitivity or saturation, not purity } if %ILS#2 } for %KURV=1,KURVM } if %if KURVM>0 then KURVE } for %j=0,JPPM %end only for %j=3,6,7=T,P,D %begin only for %j=9,10,11=E,F,H 0 1 JPPM {/j exch def %j=0,JPPM ILF 0 eq {%ILF=0 (for ILS=0,1,2) 0 1 85 {/i exch def %i=0,85: 400_700_400(81) Xi i i 5 mul 400 add put j 0 eq {Yi i YEXP0 i get put} if j 1 eq {Yi i YEXP1 i get put} if j 2 eq {Yi i YEXP2 i get put} if j 3 eq {Yi i YEXP3 i get put} if j 4 eq {Yi i YEXP4 i get put} if j 5 eq {Yi i YEXP5 i get put} if j 6 eq {Yi i YEXP6 i get put} if j 7 eq {Yi i YEXP7 i get put} if j 8 eq {Yi i YEXP8 i get put} if j 9 eq {Yi i YEXP9 i get put} if j 10 eq {Yi i YEXP10 i get put} if j 11 eq {Yi i YEXP11 i get put} if } for %i=0,85: 400_700_400(81) } if %ILF=0 ILS 0 eq {%ILS=0 FKUC1 j FKUCI00 j get put FKUM1 j FKUMI00 j get put FKUY1 j FKUYI00 j get put FKUN1 j FKUNI00 j get put FKUC2 j FKUCI01 j get put FKUM2 j FKUMI01 j get put FKUY2 j FKUYI01 j get put FKUN2 j FKUNI01 j get put IDAI1 j IDAI00 j get put IDAI2 j IDAI01 j get put KURVA j KURVA1 j get put } if %ILS=0 ILS 1 ge {%ILS>=1 FKUC1 j FKUCI10 j get put FKUM1 j FKUMI10 j get put FKUY1 j FKUYI10 j get put FKUN1 j FKUNI10 j get put FKUC2 j FKUCI11 j get put FKUM2 j FKUMI11 j get put FKUY2 j FKUYI11 j get put FKUN2 j FKUNI11 j get put IDAI1 j IDAI10 j get put IDAI2 j IDAI11 j get put KURVA j KURVA2 j get put } if %ILS=1 /KURVM {KURVA j get} def KURVM 0 gt {%if KURVM>0 then KURVE 1 1 KURVM {/KURV exch def %KURV=1,KURVM /IDA1 {IDAI1 j get cvi} def /IDA2 {IDAI2 j get cvi} def KURV 1 eq {[ ] 0 setdash} if KURV 2 eq {%KURV=2 %special for 475nm curve j=3 /IDA1 {IDAI1 j get} def /IDA2 {IDAI2 j get} def [IDA1 IDA2] 0 setdash } if %KURV=2 KURV 1 eq {%KURV=1 /jadd 0 def /FKUC {FKUC1 j jadd add get} def /FKUM {FKUM1 j jadd add get} def /FKUY {FKUY1 j jadd add get} def /FKUN {FKUN1 j jadd add get} def } if %KURV=1 KURV 2 eq {%KURV=2 /FKUC {FKUC2 j get} def /FKUM {FKUM2 j get} def /FKUY {FKUY2 j get} def /FKUN {FKUN2 j get} def } if %KURV=2 FKUC FKUM FKUY FKUN setcmykcolor ILF 0 eq {%ILF=0 sensitivity or saturation 50 setlinewidth j 9 eq j 10 eq or j 11 eq or {%j=9,10,11=E,F,H /I0 0 def /I1 0 def /I2 80 def /xst {Xi I0 get 550 sub CX div MULX mul} bind def /yst {IORY Yi I0 get MULY mul add} bind def xst yst moveto I1 3 I2 {/i exch def %i=1,80: 405_400 /xst {Xi i get 550 sub CX div MULX mul} bind def /yst {IORY Yi i get MULY mul add} bind def /x20 {Xi i 1 add get 550 sub CX div MULX mul} bind def /y20 {IORY Yi i 1 add get MULY mul add} bind def /x21 {Xi i 2 add get 550 sub CX div MULX mul} bind def /y21 {IORY Yi i 2 add get MULY mul add} bind def /x22 {Xi i 3 add get 550 sub CX div MULX mul} bind def /y22 {IORY Yi i 3 add get MULY mul add} bind def x21 y21 x21 y21 x22 y22 curveto } for %i=1,80: 405_400 stroke } if %j=9,10,11=E,F,H } if %ILF=0 sensitivity or saturation } for %KURV=1,KURVM } if %if KURVM>0 then KURVE } for %j=0,JPPM %end only for %j=9,10,11=E,F,H %begin only for %j=0,4,5=U,N,W 0 1 JPPM {/j exch def %j=0,JPPM ILF 0 eq {%ILF=0 (for ILS=0,1,2) 0 1 85 {/i exch def %i=0,85: 400_700_400(81) Xi i i 5 mul 400 add put j 0 eq {Yi i YEXP0 i get put} if j 1 eq {Yi i YEXP1 i get put} if j 2 eq {Yi i YEXP2 i get put} if j 3 eq {Yi i YEXP3 i get put} if j 4 eq {Yi i YEXP4 i get put} if j 5 eq {Yi i YEXP5 i get put} if j 6 eq {Yi i YEXP6 i get put} if j 7 eq {Yi i YEXP7 i get put} if j 8 eq {Yi i YEXP8 i get put} if j 9 eq {Yi i YEXP9 i get put} if j 10 eq {Yi i YEXP10 i get put} if j 11 eq {Yi i YEXP11 i get put} if } for %i=0,85: 400_700_400(81) } if %ILF=0 ILS 2 eq {%ILS=2 correction for j=0,4,5 %purity functions j 0 eq j 4 eq or j 5 eq or {%ILS=2 correction for j=0,4,5 0 1 85 {/i exch def %i=0,85: 400_700_400(81) Xi i i 5 mul 400 add put /Xx525 Xi i get 525 sub def Xx525 0 ge {%lambda>=525 %identical P0-P5/P5S-P0S /XRG YEXP1 i get YEXP0 i get sub RGX2 mul def} {/XRG YEXP1S i get YEXP0S i get sub RGX1 mul def } ifelse %lambda>=525 XJBA 525 ge {%XJBA>=525 /XJB YEXP0 i get YEXP11 i get sub def} {/XJB YEXP4 i get YEXP11 i get sub def } ifelse %XJBA>=525 j 0 eq {Yi i 0 put} if j 4 eq {Yi i XJB abs neg put} if j 5 eq {Yi i XRG abs neg put} if } for %i=0,85: 400_700_400(81) } if %ILS=2 correction for j=0,4,5 } if %ILS=2 correction for j=0,4,5 %purity functions ILF 1 eq {%ILF=1 %chromaticity diagram j 0 eq j 4 eq or j 5 eq or {%j=0,4,5 0 1 85 {/i exch def %i=0,85: 400_700_400(81) Xi i i 5 mul 400 add put /Xx525 Xi i get 525 sub def /XPXD2 0 def /XPXD1 0 def XJBA 525 ge {%XJBA>=525 j 4 eq j 5 eq or { i 0 ge i 25 le and {/XPXD1 YIXPS i get YIXUS i get sub YP1S sub YU1S add def} if i 26 ge i 60 le and {/XPXD2 YIXP i get YIXU i get sub YP1 sub YU1 add def} if j 5 eq {/XPXD1 XPXD1 neg def /XPXD2 XPXD2 neg def} if } if } %XJBA>=525 { %XJBA>=525 j 4 eq j 5 eq or { i 0 ge i 25 le and {/XPXD1 YIXPS i get YIXNS i get sub YP1S sub YN1S add def} if i 26 ge i 60 le and {/XPXD2 YIXP i get YIXN i get sub YP1 sub YN1 add def} if j 5 eq {/XPXD1 XPXD1 neg def /XPXD2 XPXD2 neg def} if } if } ifelse %XJBA>=525 /XUND YIXU i get YIXN i get sub def %IKOM=1 /XUHD YIXU i get YIXH i get sub def %IKOM=2 H adaptiertes W /XUWD YIXU i get YIXW i get sub def %IKOM=3 W=(U+N)*0.5 IKOM 0 eq {%IKOM=0 %U Xx525 0 ge {Yix i XUND RGX2 mul abs put} {Yix i XUND RGX1 mul abs put} ifelse Xx525 0 ge {Yiy i 0.00 put} {Yiy i XUND JBY1 mul put} ifelse } if %IKOM=0 IKOM 1 eq {%IKOM=1 %N Xx525 0 ge {Yix i XUND RGX2 mul abs put} {Yix i XUND RGX1 mul abs put} ifelse Xx525 0 ge {Yiy i XUND JBY2 mul put} {Yiy i XUND JBY1 mul put} ifelse } if %IKOM=1 IKOM 2 eq {%IKOM=2 %H=adaptiertes W Xx525 0 ge {Yix i XUHD RGX2 mul abs put} {Yix i XUHD RGX1 mul abs put} ifelse Xx525 0 ge {Yiy i XUHD JBY2 mul put} {Yiy i XUHD JBY1 mul put} ifelse } if %IKOM=2 IKOM 3 eq {%IKOM=3 %W=(U+N)*0.5 Xx525 0 ge {Yix i XUWD abs XPXD2 add RGX2 mul put} {Yix i XUWD abs XPXD1 add RGX1 mul put} ifelse Xx525 0 ge {Yiy i XUWD JBY2 mul put} {Yiy i XUWD JBY1 mul put} ifelse } if %IKOM=3 } for %i=0,85: 400_700_400(81) %correction for purple colours 61 1 80 {/i exch def %i=61,80: 700+_400(20) /alpha i 60 sub 20 div def /1malp 1 alpha sub def Yix i Yix 60 get 1malp mul Yix 0 get alpha mul add put Yiy i Yiy 60 get 1malp mul Yiy 0 get alpha mul add put } for %i=61,80: 700+_400(81) } if %j=0,4,5 } if %ILF=1 %chromaticity diagram ILS 0 eq {%ILS=0 FKUC1 j FKUCI00 j get put FKUM1 j FKUMI00 j get put FKUY1 j FKUYI00 j get put FKUN1 j FKUNI00 j get put FKUC2 j FKUCI01 j get put FKUM2 j FKUMI01 j get put FKUY2 j FKUYI01 j get put FKUN2 j FKUNI01 j get put IDAI1 j IDAI00 j get put IDAI2 j IDAI01 j get put KURVA j KURVA1 j get put } if %ILS=0 ILS 1 ge {%ILS>=1 FKUC1 j FKUCI10 j get put FKUM1 j FKUMI10 j get put FKUY1 j FKUYI10 j get put FKUN1 j FKUNI10 j get put FKUC2 j FKUCI11 j get put FKUM2 j FKUMI11 j get put FKUY2 j FKUYI11 j get put FKUN2 j FKUNI11 j get put IDAI1 j IDAI10 j get put IDAI2 j IDAI11 j get put KURVA j KURVA2 j get put } if %ILS=1 /KURVM {KURVA j get} def KURVM 0 gt {%if KURVM>0 then KURVE 1 1 KURVM {/KURV exch def %KURV=1,KURVM /IDA1 {IDAI1 j get cvi} def /IDA2 {IDAI2 j get cvi} def KURV 1 eq {[ ] 0 setdash} if KURV 2 eq {%KURV=2 %special for 475nm curve j=3 /IDA1 {IDAI1 j get} def /IDA2 {IDAI2 j get} def [IDA1 IDA2] 0 setdash } if %KURV=2 KURV 1 eq {%KURV=1 /jadd 0 def /FKUC {FKUC1 j jadd add get} def /FKUM {FKUM1 j jadd add get} def /FKUY {FKUY1 j jadd add get} def /FKUN {FKUN1 j jadd add get} def ILS 2 eq j 0 eq and {/FKUC 0 def /FKUM 0 def /FKUY 0 def /FKUN 0 def} if %W ILS 2 eq j 4 eq and {/FKUC 0 def /FKUM 0 def /FKUY 1 def /FKUN 0 def} if %Y ILS 2 eq j 5 eq and {/FKUC 1 def /FKUM 0 def /FKUY 1 def /FKUN 0 def} if %L ILF 1 eq j 4 eq and {/FKUC 1 def /FKUM 0 def /FKUY 1 def /FKUN 0 def} if %L ILF 1 eq j 5 eq and {/FKUC 0 def /FKUM 1 def /FKUY 1 def /FKUN 0 def} if %O } if %KURV=1 KURV 2 eq {%KURV=2 /FKUC {FKUC2 j get} def /FKUM {FKUM2 j get} def /FKUY {FKUY2 j get} def /FKUN {FKUN2 j get} def ILS 2 eq j 0 eq and {/FKUC 0 def /FKUM 0 def /FKUY 0 def /FKUN 0 def} if %W ILS 2 eq j 4 eq and {/FKUC 1 def /FKUM 1 def /FKUY 0 def /FKUN 0 def} if %V ILS 2 eq j 5 eq and {/FKUC 0 def /FKUM 1 def /FKUY 1 def /FKUN 0 def} if %O ILF 1 eq j 4 eq and {/FKUC 1 def /FKUM 0 def /FKUY 1 def /FKUN 0 def} if %L ILF 1 eq j 5 eq and {/FKUC 0 def /FKUM 1 def /FKUY 1 def /FKUN 0 def} if %O } if %KURV=2 FKUC FKUM FKUY FKUN setcmykcolor ILF 0 eq {%ILF=0 sensitivity or saturation or purity 50 setlinewidth j 0 eq j 4 eq or j 5 eq or {%j=0,4,5=U,N,W /I0 0 def /I1 0 def /I2 80 def /xst {Xi I0 get 550 sub CX div MULX mul} bind def /yst {IORY Yi I0 get MULY mul add} bind def xst yst moveto I1 3 I2 {/i exch def %i=1,80: 405_400 /xst {Xi i get 550 sub CX div MULX mul} bind def /yst {IORY Yi i get MULY mul add} bind def /x20 {Xi i 1 add get 550 sub CX div MULX mul} bind def /y20 {IORY Yi i 1 add get MULY mul add} bind def /x21 {Xi i 2 add get 550 sub CX div MULX mul} bind def /y21 {IORY Yi i 2 add get MULY mul add} bind def /x22 {Xi i 3 add get 550 sub CX div MULX mul} bind def /y22 {IORY Yi i 3 add get MULY mul add} bind def x21 y21 x21 y21 x22 y22 curveto } for %i=1,80: 405_400 stroke } if %j=0,4,5=U,N,W IED 1 eq {%IED=1 with Evans G0-data ILS 2 eq {%ILS=2 purity function xchart 8 eq xchart 12 eq or xchart 14 eq or {%15 Evans-G0-data %"The perception of Colour", page 134, backgrounds 475, 528, 608nm /XiALL 15 array def /Yi475 15 array def /Yi528 15 array def /Yi608 15 array def /Xip 15 array def /Yip 15 array def /XiALL [440 475 480 500 528 550 575 585 590 608 650 700 720 760 800] def /Yi475 [0.5 0.0 0.3 0.3 0.4 0.2 0.2 0.4 0.6 0.6 0.8 1.0 1.0 1.0 0.6] def /Yi528 [1.6 0.7 0.6 0.3 0.0 0.2 0.5 0.4 0.6 0.7 1.0 1.0 1.0 1.1 1.3] def /Yi608 [1.0 1.1 0.4 0.5 0.6 0.7 0.6 0.4 0.1 0.0 0.5 0.7 0.6 1.2 1.6] def 0 1 14 {/i exch def %i=0,14 Xip i XiALL i get 550 sub CX div MULX mul put xchart 8 eq {Yip i Yi528 i get neg put} if xchart 12 eq {Yip i Yi475 i get neg put} if xchart 14 eq {Yip i Yi608 i get neg put} if } for %i=0,14 0 setgray [ ] 0 setdash 0 1 14 {/i exch def %i=0,14 /xst {Xip i get} bind def /yst {IORY Yip i get MULY mul add} bind def newpath xst 50 sub yst 50 sub moveto 100 100 rlineto stroke xst 50 sub yst 50 add moveto 100 -100 rlineto stroke % xst yst 40 0 360 arc fill newpath } for %i=0,14 } if %IED=1 with Evans G0-data } if %xchart=8,12,14 } if %ILS=2 correction for j=0,4,5 %purity functions %} if %j=0,4,5=U,N,W } if %ILF=0 sensitivity or saturation or purity ILF 1 ge {%ILF=1 chromaticity diagram 30 setlinewidth j 0 eq j 4 eq or j 5 eq or {%j=0,4,5=U,U+P,U+D /xst {IORX Yix 0 get MULF mul add} bind def /yst {IORY Yiy 0 get MULF mul add} bind def xst yst moveto 0 3 80 {/i exch def %i=1,80: 405_700_400 /xst {IORX Yix i get MULF mul add} bind def /yst {IORY Yiy i get MULF mul add} bind def /x20 {IORX Yix i 1 add get MULF mul add} bind def /y20 {IORY Yiy i 1 add get MULF mul add} bind def /x21 {IORX Yix i 2 add get MULF mul add} bind def /y21 {IORY Yiy i 2 add get MULF mul add} bind def /x22 {IORX Yix i 3 add get MULF mul add} bind def /y22 {IORY Yiy i 3 add get MULF mul add} bind def x21 y21 x21 y21 x22 y22 curveto } for %i=1,80: 405_700_400 stroke TBK 0 10 70 {/i exch def %i=0,10,85: 400_700_400 /xst {IORX Yix i get MULF mul add} bind def /yst {IORY Yiy i get MULF mul add} bind def newpath xst yst 40 0 360 arc fill newpath %wavelength text IKOM 0 eq i 30 ge and {/xstc -200 def /ystc 100 def} {/xstc -400 def /ystc -100 def} ifelse i 0 eq {/xstc 100 def /ystc -100 def} if %400nm i 60 eq {/xstc 100 def /ystc -150 def} if %700nm i 70 eq {/xstc 100 def /ystc -100 def} if %525cnm j 0 eq {%nm-text only once xst xstc add yst ystc add moveto i 60 le {400 i 5 mul add cvishow} {(525c) show} ifelse } if %nm-text only once } for %i=0,10,85: 400_700_400 IKOM 0 eq {%IKOM=0 %U /XUND YU1 YN1 sub def /Yixs YU1 YN1 ge {XUND RGX2 mul abs def} {XUND RGX1 mul abs def} ifelse /Yiys YU1 YN1 ge {0.00 def} {XUND JBY1 mul def} ifelse } if %IKOM=0 IKOM 1 eq {%IKOM=1 %N /XUND YU1 YN1 sub def /Yixs YU1 YN1 ge {XUND RGX2 mul abs def} {XUND RGX1 mul abs def} ifelse /Yiys YU1 YN1 ge {XUND JBY2 mul def} {XUND JBY1 mul def} ifelse } if %IKOM=1 %N IKOM 2 eq {%IKOM=2 %H /YH1m YI1 YI2 sub YUN2 add def /XUHD YU1 YH1m sub def /Yixs YU1 YH1m ge {XUHD RGX2 mul abs def} {XUHD RGX1 mul abs def} ifelse /Yiys YU1 YH1m ge {XUHD JBY2 mul def} {XUHD JBY1 mul def} ifelse } if %IKOM=2 %H IKOM 3 eq {%IKOM=0 %W /YW1m YU1 YN1 add 0.5 mul def /XUWD YU1 YW1m sub def /Yixs YU1 YW1m ge {XUWD RGX2 mul abs def} {XUWD RGX1 mul abs def} ifelse /Yiys YU1 YW1m ge {XUWD JBY2 mul def} {XUWD JBY1 mul def} ifelse } if %IKOM=3 1 setgray /TRANX Yixs def /TRANY Yiys def /TRANXF TRANX MULF mul def /TRANYF TRANY MULF mul def /IXYM 1.0 MULF mul def IORX TRANXF add IORY TRANYF add moveto 0 IXYM rlineto stroke IORX TRANXF add IORY TRANYF add moveto 0 IXYM neg rlineto stroke IORX TRANXF add IORY TRANYF add moveto IXYM 0 rlineto stroke IORX TRANXF add IORY TRANYF add moveto IXYM neg 0 rlineto stroke } if %j=0,4,5=U,U+P,U+D } if %ILF=1 chromaticity diagram } for %KURV=1,KURVM } if %if KURVM>0 then KURVE } for %j=0,JPPM %end only for %j=0,4,5=U,N,W ILF 0 eq {X0t neg 0 translate} if -380 -280 translate showpage grestore %} for %xchart=0,15 %%Trailor