%!PS-Adobe-3.0 EPSF-3.0 www.ps.bam.de/XG12/10L/L12E00XX.PS 20080101 %%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/XG12/XG12.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:2008010112000) /ModDate (D:2008010112000) /DOCINFO pdfmark [ /View [ /Fit ] /DOCVIEW pdfmark /LAB*ioG { } bind def /ColSepG { } bind def /VisTol*ioG 1.0 def %BEG XG12/OUTLIN10.PS Output Linearization (OL) LAB* -> cmyolvnw* 20071001 %Early Binding: needed for colour separation /sgcmykcolor {setcmykcolor} bind def /sggray {setgray} bind def /sgrgbcolor {setrgbcolor} bind def %FILE PREPARED FOR MIXED MODE, e. g. input ORS18 and output TLS00 /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* setcolor to w* setgray /ISIN*ioG 0 def %default input for Offset Reflective System (ORS18) /ISOU*ioG 0 def %default output dto. %/ISIN*ioG 1 def %input for Television Luminous System (TLS00) %/ISOU*ioG 1 def %output dto. %/ISIN*ioG 2 def %input for Device Reflective measurement system (FRS06) %/ISOU*ioG 2 def %output dto. %/ISIN*ioG 3 def %input for Television Luminous Reflection System (TLS18) %/ISOU*ioG 3 def %output dto. %/ISIN*ioG 4 def %input for Natural Luminous System (NLS00) %/ISOU*ioG 4 def %output dto. %/ISIN*ioG 5 def %input for Natural Reflective System (NRS18) %/ISOU*ioG 5 def %output dto. %/ISIN*ioG 6 def %input for Standard Reflective System (SRS18) %/ISOU*ioG 6 def %output dto. %/ISIN*ioG 7 def %input for Standard Reflective System (TLS70) %/ISOU*ioG 7 def %output dto. /iLAB 0 def /ISIO*ioG 0 def /ISRL*ioG 0 def % for io-System, only once /auszg 8 def /halfg 0 def /ausz 8 def /half 0 def /VisTol*ioG 1.00 def %END XG12/OUTLIN10.PS Output Linearization (OL) LAB* -> cmyolvnw* 20071001 %BEG XG12/OUTLIN1X.PS Data and procedures for NP- and FP-file 20071101 /LAB*ioG {%BEG Procedure LAB*ioG %requires ISRL*ioG=0,1,3 /RJGBLAB* 12 array def /RJGBLAB*[ 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* 84 array def %12x3=36 including N,W + 16x3=48 elementary system /LAB*a 84 array def /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 /LAB*TE [(ORS18) (TLS00) (FRS06) (TSL18) (NLS00) (NLS18) (SRS18) (TLS70) (TLS00) (TLS06) (TLS11) (TLS18) (TLS27) (TLS38) (TLS52) (TLS70) (OLS00) (OLS06) (OLS11) (OLS18) (OLS27) (OLS38) (OLS52) (OLS70)] def ISRL*ioG 0 eq { %ISRL*ioG=0 /LAB*00 [%D=Device OYLCVMO+NW %for Offset Reflective System (ORS18) %BEG DMYY:ORS18LM.DAT 25.1.2008 Standard ORS18, see Shared/MESSD65 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 %END DMYY:ORS18LM.DAT /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 Luminous System OYLCVMO+NW (NLS18) 43.81 67.03 38.70 %O 0 77.40/2 = 38.70 69.61 00.00 77.40 %Y 1 C*ab = 77.40 43.81 -67.03 38.70 %L 2 0.866 C*ab = 67.03 69.61 -67.03 -38.70 %C 3 delta L*=25.8 43.81 00.00 -77.40 %V 4 43.81=18.01+25.80 69.61 67.03 -38.70 %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 %ISRL*ioG=0 ISRL*ioG 1 eq { %ISRL*ioG=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 %ISRL*ioG=1 ISRL*ioG 2 eq { %ISRL*ioG=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 %ISRL*ioG=2 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 ISIO*ioG 0 eq { %ORS18/TLS00/OLS00 LAB* i30 LAB*00 i30 get put LAB* i31 LAB*00 i31 get put LAB* i32 LAB*00 i32 get put } if ISIO*ioG 1 eq { %TLS00/TLS06/OLS06 LAB* i30 LAB*01 i30 get put LAB* i31 LAB*01 i31 get put LAB* i32 LAB*01 i32 get put } if ISIO*ioG 2 eq { %FRS06/TLS11/OLS11 LAB* i30 LAB*02 i30 get put LAB* i31 LAB*02 i31 get put LAB* i32 LAB*02 i32 get put } if ISIO*ioG 3 eq { %TLS18/TLS18/OLS18 LAB* i30 LAB*03 i30 get put LAB* i31 LAB*03 i31 get put LAB* i32 LAB*03 i32 get put } if ISIO*ioG 4 eq { %NLS00/TSL28/OLS28 LAB* i30 LAB*04 i30 get put LAB* i31 LAB*04 i31 get put LAB* i32 LAB*04 i32 get put } if ISIO*ioG 5 eq { %NRS18/TLS38/OLS38 LAB* i30 LAB*05 i30 get put LAB* i31 LAB*05 i31 get put LAB* i32 LAB*05 i32 get put } if ISIO*ioG 6 eq { %SRS18/TLS50/OLS50 LAB* i30 LAB*06 i30 get put LAB* i31 LAB*06 i31 get put LAB* i32 LAB*06 i32 get put } if ISIO*ioG 7 eq { %TLS70/TLS70/OLS70 LAB* i30 LAB*07 i30 get put LAB* i31 LAB*07 i31 get put LAB* i32 LAB*07 i32 get put } if } %sISO=0,7 {%sISO=8,11 %Definition 8 to 11 /jISO sISO 8 sub def /j30 jISO 3 mul def /j31 j30 1 add def /j32 j30 2 add def LAB* i30 RJGBLAB* j30 get put LAB* i31 RJGBLAB* j31 get put LAB* i32 RJGBLAB* j32 get put %Definition 12 to 24 (36 to 72) /jISO0 sISO 8 sub def sISO 11 eq {/jISO1 0 def} {/jISO1 jISO0 1 add def} ifelse 0 1 3 {/ij exch def ij 0 eq {/a0 1.00 def /b0 0.00 def} if ij 1 eq {/a0 0.75 def /b0 0.25 def} if ij 2 eq {/a0 0.50 def /b0 0.50 def} if ij 3 eq {/a0 0.25 def /b0 0.75 def} if LAB* 36 jISO0 12 mul add ij 3 mul add RJGBLAB* jISO0 3 mul get a0 mul RJGBLAB* jISO1 3 mul get b0 mul add put LAB* 37 jISO0 12 mul add ij 3 mul add RJGBLAB* jISO0 3 mul 1 add get a0 mul RJGBLAB* jISO1 3 mul 1 add get b0 mul add put LAB* 38 jISO0 12 mul add ij 3 mul add RJGBLAB* jISO0 3 mul 2 add get a0 mul RJGBLAB* jISO1 3 mul 2 add get b0 mul add put } for } ifelse %sISO=0,7 and 8,11 } for /L*Nio LAB* 18 get def /A*Nio LAB* 19 get def /B*Nio LAB* 20 get def /L*Wio LAB* 21 get def /A*Wio LAB* 22 get def /B*Wio LAB* 23 get def /A*Dio A*Wio A*Nio sub def /B*Dio B*Wio B*Nio sub def 0 1 27 {/sISO exch def /i30 sISO 3 mul def /i31 i30 1 add def /i32 i30 2 add def LAB*a i30 LAB* i30 get put /l*CIE LAB* i30 get L*Nio sub L*Wio L*Nio sub div def %system rel. lightn. /a*s A*Wio A*Nio sub l*CIE mul def /b*s B*Wio B*Nio sub l*CIE mul def LAB*a i31 LAB* i31 get A*Nio sub a*s sub put LAB*a i32 LAB* i32 get B*Nio sub b*s sub put } for VisTol*ioG 1 ne {%VisTol*ioG#1 %change to VisTol*ioG x 100% in chroma and blackness 0 1 27 {/sISO exch def %no change of white no. 7 sISO 7 ne {%sISO#7 /i30 sISO 3 mul def /i31 i30 1 add def /i32 i30 2 add def LAB*a i30 LAB*a 21 get dup %W-(W-N)*0.96 LAB*a i30 get sub VisTol*ioG mul sub put LAB*a i31 LAB*a i31 get VisTol*ioG mul put LAB*a i32 LAB*a i32 get VisTol*ioG mul put } if %sISO#7 } for } if %VisTol*ioG#1 /cLAB*s0 3 array def %C cyan blue /vLAB*s0 3 array def %V violet blue /mLAB*s0 3 array def %M magenta red /oLAB*s0 3 array def %O orange red /yLAB*s0 3 array def %Y yellow /lLAB*s0 3 array def %L leaf green /nLAB*s0 3 array def %N black /wLAB*s0 3 array def %W white /rLAB*s0 3 array def %R elementary red /jLAB*s0 3 array def %J elementary yellow /gLAB*s0 3 array def %G elementary green /bLAB*s0 3 array def %B elementary blue %Determine Matrix data input or output data oLAB*s0 0 LAB*a 0 get L*Nio sub put oLAB*s0 1 LAB*a 1 get put oLAB*s0 2 LAB*a 2 get put yLAB*s0 0 LAB*a 3 get L*Nio sub put yLAB*s0 1 LAB*a 4 get put yLAB*s0 2 LAB*a 5 get put lLAB*s0 0 LAB*a 6 get L*Nio sub put lLAB*s0 1 LAB*a 7 get put lLAB*s0 2 LAB*a 8 get put cLAB*s0 0 LAB*a 9 get L*Nio sub put cLAB*s0 1 LAB*a 10 get put cLAB*s0 2 LAB*a 11 get put vLAB*s0 0 LAB*a 12 get L*Nio sub put vLAB*s0 1 LAB*a 13 get put vLAB*s0 2 LAB*a 14 get put mLAB*s0 0 LAB*a 15 get L*Nio sub put mLAB*s0 1 LAB*a 16 get put mLAB*s0 2 LAB*a 17 get put nLAB*s0 0 LAB*a 18 get L*Nio sub put nLAB*s0 1 LAB*a 19 get put nLAB*s0 2 LAB*a 20 get put wLAB*s0 0 LAB*a 21 get L*Nio sub put wLAB*s0 1 LAB*a 22 get put wLAB*s0 2 LAB*a 23 get put rLAB*s0 0 LAB*a 24 get L*Nio sub put rLAB*s0 1 LAB*a 25 get put rLAB*s0 2 LAB*a 26 get put jLAB*s0 0 LAB*a 27 get L*Nio sub put jLAB*s0 1 LAB*a 28 get put jLAB*s0 2 LAB*a 29 get put gLAB*s0 0 LAB*a 30 get L*Nio sub put gLAB*s0 1 LAB*a 31 get put gLAB*s0 2 LAB*a 32 get put bLAB*s0 0 LAB*a 33 get L*Nio sub put bLAB*s0 1 LAB*a 34 get put bLAB*s0 2 LAB*a 35 get put % Determine the input or output angle in the A* B* plane % of each of the colours defined above /C*Ang cLAB*s0 2 get cLAB*s0 1 get 0.0001 add atan def /V*Ang vLAB*s0 2 get vLAB*s0 1 get 0.0001 add atan def /M*Ang mLAB*s0 2 get mLAB*s0 1 get 0.0001 add atan def /O*Ang oLAB*s0 2 get oLAB*s0 1 get 0.0001 add atan def /Y*Ang yLAB*s0 2 get yLAB*s0 1 get 0.0001 add atan def /L*Ang lLAB*s0 2 get mLAB*s0 1 get 0.0001 add atan def /N*Ang 0 def /W*Ang 0 def /R*Ang rLAB*s0 2 get rLAB*s0 1 get 0.0001 add atan def /J*Ang jLAB*s0 2 get jLAB*s0 1 get 0.0001 add atan def /G*Ang gLAB*s0 2 get gLAB*s0 1 get 0.0001 add atan def /B*Ang bLAB*s0 2 get bLAB*s0 1 get 0.0001 add atan def /detprocL { %BEG procedure detprocL % The detprocL below finds the determinant of the Matrix: % | A1 B1 C1 D1 | % | A2 B2 C2 D2 | % | A3 B3 C3 D3 | % | A4 B4 C4 D4 | % /term1 B2 C3 mul D4 mul C2 D3 mul B4 mul add D2 B3 mul C4 mul add B4 C3 mul D2 mul sub C4 D3 mul B2 mul sub D4 B3 mul C2 mul sub def /term2 A2 C3 mul D4 mul C2 D3 mul A4 mul add D2 A3 mul C4 mul add A4 C3 mul D2 mul sub C4 D3 mul A2 mul sub D4 A3 mul C2 mul sub def /term3 A2 B3 mul D4 mul B2 D3 mul A4 mul add D2 A3 mul B4 mul add A4 B3 mul D2 mul sub B4 D3 mul A2 mul sub D4 A3 mul B2 mul sub def /term4 A2 B3 mul C4 mul B2 C3 mul A4 mul add C2 A3 mul B4 mul add A4 B3 mul C2 mul sub B4 C3 mul A2 mul sub C4 A3 mul B2 mul sub def /det A1 term1 mul B1 term2 mul sub C1 term3 mul add D1 term4 mul sub def } bind def %END procedure detprocL /CoeffprocL { %BEG procedure CoeffprocL % The CoeffprocL proced. solves for WhiteCoeff, black Coeff, Col1Coeff and % Col2Coeff in the matrix equation below. It takes as inputs A1->A4 B1->B4 % C1->C4 D1->D4 and xD,yD,zD,tD. It solves for these using Cramer's rule. % Note: Cramer's rule is valid only for non-singular matrices, ie |A| not % equal to 0. % % | A1 B1 C1 D1 | |WhiteCoeff| |xD| % | A2 B2 C2 D2 | |BlackCoeff| = |yD| % | A3 B3 C3 D3 | |Col1Coeff | |zD| % | A4 B4 C4 D4 | |Col2Coeff | |tD| % A B = C % /tD exch def /zD exch def /yD exch def /xD exch def /D4 exch def /D3 exch def /D2 exch def /D1 exch def /C4 exch def /C3 exch def /C2 exch def /C1 exch def /B4 exch def /B3 exch def /B2 exch def /B1 exch def /A4 exch def /A3 exch def /A2 exch def /A1 exch def detprocL /den det def % determine white coefficient /temp1 A1 def /temp2 A2 def /temp3 A3 def /temp4 A4 def /A1 xD def /A2 yD def /A3 zD def /A4 tD def detprocL /numW det def /A1 temp1 def /A2 temp2 def /A3 temp3 def /A4 temp4 def % determine black coefficient /temp1 B1 def /temp2 B2 def /temp3 B3 def /temp4 B4 def /B1 xD def /B2 yD def /B3 zD def /B4 tD def detprocL /numB det def /B1 temp1 def /B2 temp2 def /B3 temp3 def /B4 temp4 def % determine colour1 coefficient /temp1 C1 def /temp2 C2 def /temp3 C3 def /temp4 C4 def /C1 xD def /C2 yD def /C3 zD def /C4 tD def detprocL /numCol1 det def /C1 temp1 def /C2 temp2 def /C3 temp3 def /C4 temp4 def % determine colour2 coefficient /temp1 D1 def /temp2 D2 def /temp3 D3 def /temp4 D4 def /D1 xD def /D2 yD def /D3 zD def /D4 tD def detprocL /numCol2 det def /D1 temp1 def /D2 temp2 def /D3 temp3 def /D4 temp4 def /WhiteCoeff numW den div def /BlackCoeff numB den div def /Col1Coeff numCol1 den div def /Col2Coeff numCol2 den div def WhiteCoeff BlackCoeff Col1Coeff Col2Coeff % returns these *color data } bind def %BEG procedure CoeffprocL } def %END Procedure LAB*ioG %*********************************************************** /cmyolv*io_to_LAB*ioG {%BEG Procedure transfer cmyolv*io_to_LAB*ioG %input olv* for IMODE=0 and cmy* for IMODE=1 %the following calculations based on olv* %Proced. LAB*inoutL is required in advance IMODE 1 eq {%IMODE=1, input cmy* /o* 1 c* sub def /l* 1 m* sub def /v* 1 y* sub def } if %skip of olv* data <0 and >1 o* 0 le {/o* 0.0001 def} if l* 0 le {/l* 0.0001 def} if v* 0 le {/v* 0.0001 def} if o* 1 ge {/o* 0.9999 def} if l* 1 ge {/l* 0.9999 def} if v* 1 ge {/v* 0.9999 def} if %output olv* and cmy* for both olv* and cmy* input %n*n: relative blackness %r*n: relative chromaticness %w*n: relative whiteness %L*F: CIE lightness L* %A*F: CIE chromaticness a* %B*F: CIE chromaticness b* %C*F: CIE radial chroma Cab* %x*F: x-position of colour F %y*F: y-position of colour F %e*w: eigencolour value of F o* 0 le {/o* 0.0001 def} if l* 0 le {/l* 0.0001 def} if v* 0 le {/v* 0.0001 def} if o* 1 ge {/o* 0.9999 def} if l* 1 ge {/l* 0.9999 def} if v* 1 ge {/v* 0.9999 def} if /tdel 0 def v* l* ge l* o* ge and tdel 0 eq and % v* >= l* >= o* equal y* <= m* <= c* %sector C-V of C-M, C>=M: i*p=0 {/w*n o* def /n*n 1 v* sub def /t*a v* l* sub def /array1 vLAB*s0 def % colour 1 is violet blue /t*b l* o* sub def /array2 cLAB*s0 def % colour 2 is cyan blue /i*p 0 def o* l* sub abs 0.001 le {/i*p 1 def} if /t*p l* l* v* add 0.0001 add div def /tdel 1 def } if % v* >= l* >= o* v* o* ge o* l* ge and tdel 0 eq and % v* >= o* >= l* equal y* <= c* <= m* %sector V-M of C-M, M>=C: i*p=1 {/w*n l* def /n*n 1 v* sub def /t*a v* o* sub def /array1 vLAB*s0 def % colour 1 is violet blue /t*b o* l* sub def /array2 mLAB*s0 def % colour 2 is magenta red /i*p 1 def v* o* sub abs 0.001 le {/i*p 2 def} if /t*p o* o* v* add 0.0001 add div def /tdel 1 def } if % v* >= o* >= l* o* v* ge v* l* ge and tdel 0 eq and % o* >= v* >= l* equal c* <= y* <= m* %sector M-O of M-Y, M>=Y: i*p=2 {/w*n l* def /n*n 1 o* sub def /t*a o* v* sub def /array1 oLAB*s0 def % colour 1 is orange /t*b v* l* sub def /array2 mLAB*s0 def % colour 2 is magenta red /i*p 2 def l* v* sub abs 0.001 le {/i*p 3 def} if /t*p v* v* o* add 0.0001 add div def /tdel 1 def } if % o* >= v* >= l* o* l* ge l* v* ge and tdel 0 eq and % o* >= l* >= v* equal c* <= m* <= y* %sector O-Y of M-Y, Y>=M: i*p=3 {/w*n v* def /n*n 1 o* sub def /t*a o* l* sub def /array1 oLAB*s0 def % colour 1 is orange red /t*b l* v* sub def /array2 yLAB*s0 def % colour 2 is yellow /i*p 3 def o* l* sub abs 0.001 le {/i*p 4 def} if /t*p l* l* o* add 0.0001 add div def /tdel 1 def } if % o* >= l* >= v* l* o* ge o* v* ge and tdel 0 eq and % l* >= o* >= v* equal m* <= c* <= y* %sector Y-L of Y-C, Y>=C: i*p=4 {/w*n v* def /n*n 1 l* sub def /t*a l* o* sub def /array1 lLAB*s0 def % colour 1 is leaf green /t*b o* v* sub def /array2 yLAB*s0 def % colour 2 is yellow /i*p 4 def o* v* sub abs 0.001 le {/i*p 5 def} if /t*p o* o* l* add 0.0001 add div def /tdel 1 def } if % l* >= o* >= v* l* v* ge v* o* ge and tdel 0 eq and % l* >= v* >= o* equal m* <= y* <= c* %sector L-C of Y-C, C>=Y: i*p=5 {/w*n o* def /n*n 1 l* sub def /t*a l* v* sub def /array1 lLAB*s0 def % colour 1 is leaf green /t*b v* o* sub def /array2 cLAB*s0 def % colour 2 is cyan blue /i*p 5 def l* v* sub abs 0.001 le {/i*p 0 def} if /t*p v* v* l* add 0.0001 add div def /tdel 1 def } if % l* >= v* >= o* %achromatic %W: o*, l*, v* = 1.00 1.0 o* sub abs 0.001 le 1.0 l* sub abs 0.001 le and 1.0 v* sub abs 0.001 le and %W special case {/i*p 6 def %W /e*w 0 def /n*n 0 def /w*n 1 def /t*a 0.0001 def /t*b 0.0001 def /t*p 0.0001 def } if %N: o*, l*, v* <= 0.001 o* abs 0.001 le l* abs 0.001 le and v* abs 0.001 le and %N special case {/i*p 6 def %N /e*w 0 def /n*n 1 def /w*n 0 def /t*a 0.0001 def /t*b 0.0001 def /t*p 0.0001 def } if %Achromatic o* l* sub abs 0.001 le l* v* sub abs 0.001 le and %Achromatic special case {/i*p 6 def %N /e*w 0 def /n*n 1 o* sub def /w*n o* def /t*a 0.0001 def /t*b 0.0001 def /t*p 0.0001 def } if /r*n 1 w*n sub n*n sub def /t*n 1 t*p sub def %w0-line of equal relative whiteness in colour triangle: y = 0.5 / h x + yw0 %n0-line of equal relative blackness in colour triangle: y = -0.5 / h x + yn0 %x*F = (yn0 - yw0) h %y*F = 0.5 (yn0 - yw0) + yw0 = 0.5 (yn0 + yw0) /h 0.75 sqrt def /yn0 1 n*n sub def /yw0 w*n def /x*F yn0 yw0 sub h mul def /y*F yn0 yw0 add 0.5 mul def /t*F y*F def /lab*tFa t*F def /lab*cFa r*n def /lab*wFa w*n def /lab*nFa n*n def %x*F / (1-y*F) = e*x / 1 %e*w = e*x /(2h) = [x*F / (1-y*F)]/(2h) %/e*w x*F 1 y*F sub div 2 h mul div def /e*w r*n n*n r*n add 0.0001 add div def %Eigencolor ratio r*n abs 0.001 le r*n abs 0.001 le and {/e*w 0.0001 def} if % with 0 for achromatic (c*n=0) and 1 for whitish colors (n*n=0) %cmyolv*_to_cmy* /c* 1 o* sub def /m* 1 l* sub def /y* 1 v* sub def %cmyolv*_to_LAB*LFs0 %L*Fs0 = w*n wLAB*s0 (0) + n*n nLAB*s0 (0) + t*a array1(0) + t*b array2(0) %A*Fs0 = w*n wLAB*s0 (1) + n*n nLAB*s0 (1) + t*a array1(1) + t*b array2(1) %B*Fs0 = w*n wLAB*s0 (2) + n*n nLAB*s0 (2) + t*a array1(2) + t*b array2(2) /L*Fs0 w*n wLAB*s0 0 get mul n*n nLAB*s0 0 get mul add t*a array1 0 get mul add t*b array2 0 get mul add def /A*Fs0 w*n wLAB*s0 1 get mul n*n nLAB*s0 1 get mul add t*a array1 1 get mul add t*b array2 1 get mul add def /B*Fs0 w*n wLAB*s0 2 get mul n*n nLAB*s0 2 get mul add t*a array1 2 get mul add t*b array2 2 get mul add def /L*Fsm t*a array1 0 get mul t*b array2 0 get mul add L*Nio add def %LAB*Fs0_to_LAB*F /L*F L*Fs0 L*Nio add def /l*CIE L*F L*Nio sub L*Wio L*Nio sub 0.0001 add div def /A*F A*Fs0 A*Nio add A*Dio l*CIE mul add def /B*F B*Fs0 B*Nio add B*Dio l*CIE mul add def /lab*lFa l*CIE def /LAB*LF L*F def /LAB*AF A*F def /LAB*BF B*F def /LAB*LFa L*F def /LAB*AFa A*Fs0 def /LAB*BFa B*Fs0 def %FOR CIELAB LCH /C*Fs0 A*Fs0 dup mul B*Fs0 dup mul add 0.000001 add sqrt def /H*Fs0 B*Fs0 A*Fs0 0.0001 add atan def /LAB*CFa C*Fs0 def /LAB*HFa H*Fs0 def /lab*hFa LAB*HFa 360 div def } bind def %END Procedure transfer cmyolv*io_to_LAB*ioG %********************************************************************* /LAB*io_to_cmyolv*ioG {%BEG Procedure LAB*io_to_cmyolv*ioG /B*F exch def /A*F exch def /L*F exch def %ISIO*ioG 0 eq ISOUP*ioG 3 eq and % {%achromatic transfer L*F,A*F,B*F (PR18) % % -> L*Fsa, A*Fsa, B*Fsa (PR18) % % -> L*F, A*F, B*F (TV18) % %LAB*F_to_LAB*Fsa % /l*CIE L*F L*Nio sub L*Wio L*Nio sub 0.0001 add div def % /A*Fs0 A*F A*Nio sub A*Dio l*CIE mul sub def % /B*Fs0 B*F B*Nio sub B*Dio l*CIE mul sub def % /A*F A*Fs0 def % /B*F B*Fs0 def % } if %achromatic transfer L*F,A*F,B*F (PR18) /l*CIE L*F L*Nio sub L*Wio L*Nio sub 0.0001 add div def /L*Fs0 L*F L*Nio sub def /A*Fs0 A*F A*Nio sub A*Dio l*CIE mul sub def /B*Fs0 B*F B*Nio sub B*Dio l*CIE mul sub def /C*Fs0 A*Fs0 dup mul B*Fs0 dup mul add 0.000001 add sqrt def /H*Fs0 B*Fs0 A*Fs0 0.0001 add atan def /LAB*LF L*F def /LAB*AF A*F def /LAB*BF B*F def /LAB*LFa L*F def /LAB*AFa A*Fs0 def /LAB*BFa B*Fs0 def % the angle formed by the input LAB* *color data in the A*B* plane /col_ang B*Fs0 A*Fs0 0.0001 add atan def %determine which two colours the LAB* *color data corresponds to %by testing the angles and solve the related four simultaneous equations %to find the olv *color data. % angle between magenta red and orange red, sector M-O of M-Y, M>=Y col_ang M*Ang ge col_ang O*Ang lt or {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 mLAB*s0 0 get mLAB*s0 1 get mLAB*s0 2 get 1 oLAB*s0 0 get oLAB*s0 1 get oLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %O /c2*w exch def %M /n*w exch def /w*w exch def %magenta is a mixture of orange red and voilet blue, therefore leaf green(l) = white, %orange(o) = 1-black(n), voilet blue(v) = white + magenta red (c2*w) /v*n w*w c2*w add def % /l*n w*w def /o*n 1 n*w sub def /i*p 2 def /t*p v*n v*n o*n add 0.0001 add div def } if % angle between orange red and yellow, sector O-Y of M-Y, Y>=M col_ang O*Ang ge col_ang Y*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 oLAB*s0 0 get oLAB*s0 1 get oLAB*s0 2 get 1 yLAB*s0 0 get yLAB*s0 1 get yLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %Y /c2*w exch def %O /n*w exch def /w*w exch def %yellow is a mixture of orange red and leaf green, therefore voilet blue(v) = white, %orange(o) = 1-black(n), leaf green(l) = white + yellow (c1*w) /l*n w*w c1*w add def /v*n w*w def /o*n 1 n*w sub def /i*p 3 def /t*p l*n l*n o*n add 0.0001 add div def } if % angle between yellow and leaf green, sector Y-L of Y-C, Y>=C col_ang Y*Ang ge col_ang L*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 yLAB*s0 0 get yLAB*s0 1 get yLAB*s0 2 get 1 lLAB*s0 0 get lLAB*s0 1 get lLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %L /c2*w exch def %Y /n*w exch def /w*w exch def %yellow is a mixture of orange red and leaf green, therefore voilet blue(v) = white , %leaf green(l) = 1-black(n), orange red(o) = white + yellow (c2*w) /v*n w*w def /l*n 1 n*w sub def /o*n w*w c2*w add def /i*p 4 def /t*p o*n o*n l*n add 0.0001 add div def } if % angle between leaf green and cyan blue, sector L-C of Y-C, C>=Y col_ang L*Ang ge col_ang C*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 lLAB*s0 0 get lLAB*s0 1 get lLAB*s0 2 get 1 cLAB*s0 0 get cLAB*s0 1 get cLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %C /c2*w exch def %L /n*w exch def /w*w exch def %cyan is a mixture of leaf green and voilet blue, therefore orange red(o) = white, %leaf green(l) = 1-black(n), voilet blue(v) = white + cyan blue (c1*w) /v*n w*w c1*w add def /l*n 1 n*w sub def /o*n w*w def /i*p 5 def /t*p v*n v*n l*n add 0.0001 add div def } if % angle between cyan blue and voilet blue, sector C-V of C-M, C>=M col_ang C*Ang ge col_ang V*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 cLAB*s0 0 get cLAB*s0 1 get cLAB*s0 2 get 1 vLAB*s0 0 get vLAB*s0 1 get vLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %V /c2*w exch def %C /n*w exch def /w*w exch def %cyan is a mixture of leaf green and voilet blue, therefore orange red(o) = white, %violet blue(v) = 1-black(n), leaf green(l) = white + cyan blue (c2*w) /v*n 1 n*w sub def /l*n w*w c2*w add def /o*n w*w def /i*p 0 def /t*p l*n l*n v*n add 0.0001 add div def } if % angle between voilet blue and magenta red, sector V-M of C-M, M>=C col_ang V*Ang ge col_ang M*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 vLAB*s0 0 get vLAB*s0 1 get vLAB*s0 2 get 1 mLAB*s0 0 get mLAB*s0 1 get mLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %M /c2*w exch def %V /n*w exch def /w*w exch def %magenta is a mixture of orange red and voilet blue, therefore leaf green(l) = white, %violet(o) = 1-black(n), orange red(o) = white + magenta red (c1*w) /v*n 1 n*w sub def /l*n w*w def /o*n w*w c1*w add def /i*p 1 def /t*p o*n o*n v*n add 0.0001 add div def } if %achromatic %W: o*n, l*n, v*n = 1.00 1.0 o*n sub abs 0.001 le 1.0 l*n sub abs 0.001 le and 1.0 v*n sub abs 0.001 le and %W special case {/i*p 6 def %W /e*w 0 def /n*n 0 def /w*n 1 def /t*p 0.0001 def } if %N: o*n, l*n, v*n <= 0.01 o*n abs 0.001 le l*n abs 0.001 le and v*n abs 0.001 le and %N special case {/i*p 6 def %N /e*w 0 def /n*n 1 def /w*n 0 def /t*p 0.0001 def } if %Achromatic o*n l*n sub abs 0.001 le l*n v*n sub abs 0.001 le and %Achromatic special case {/i*p 6 def %N /e*w 0 def /n*n o*n def /w*n 1 o*n sub def /t*p 0.0001 def } if /c*w 1 o*n sub def /m*w 1 l*n sub def /y*w 1 v*n sub def /t*n 1 t*p sub def /r*w 1 n*w sub w*w sub def %Ostwald equation for radial chromaticness: %with r*w=radial chromaticness, n*w=blackness, w*w=whiteness /t*w 1 n*w sub r*w 0.5 mul add def %triangle lightness /e*w r*w n*w r*w add 0.0001 add div def %Eigencolor ratio r*w abs 0.001 le r*w abs 0.001 le and {/e*w 0.0001 def} if % with 0 for achromatic (c*w=0) and 1 for whitish colors (n*w=0) /lab*rFa r*w def %/lab*tFa t*w def /h1* (-) def /h2* (-) def /H 0 def /H1* (-) def /H2* (-) def /H 0 def /IEND 0 def col_ang R*Ang gt col_ang J*Ang le and {/H* col_ang R*Ang sub J*Ang R*Ang sub div def /p*F 0.00 H* 0.25 mul add def /h1* (r) def /h2* (j) def /H1* (R) def /H2* (J) def /HM* R*Ang def /HP* J*Ang def /IEND 1 def} if col_ang J*Ang gt col_ang G*Ang le and {/H* col_ang J*Ang sub G*Ang J*Ang sub div def /p*F 0.25 H* 0.25 mul add def /h1* (j) def /h2* (g) def /H1* (J) def /H2* (G) def /HM* J*Ang def /HP* G*Ang def /IEND 1 def} if col_ang G*Ang gt col_ang B*Ang le and {/H* col_ang G*Ang sub B*Ang G*Ang sub div def /p*F 0.50 H* 0.25 mul add def /h1* (g) def /h2* (b) def /H1* (G) def /H2* (B) def /HM* G*Ang def /HP* B*Ang def /IEND 1 def} if col_ang R*Ang le IEND 0 eq and {/Pcol_ang col_ang 360 add def} {/Pcol_ang col_ang def} ifelse Pcol_ang B*Ang gt Pcol_ang R*Ang 360 add le and {/H* Pcol_ang B*Ang sub R*Ang 360 add B*Ang sub div def /p*F 0.75 H* 0.25 mul add def /h1* (b) def /h2* (r) def /H1* (B) def /H2* (R) def /HM* B*Ang def /HP* R*Ang 360 add def} if /lab*e1Fa h1* def /lab*EFa H* def /lab*e2Fa h2* def /lab*eFa p*F def /CIEF 100 88.60 div def /X* {L*F 16 add 116 div A*Fs0 500 div add } bind def /Y* {L*F 16 add 116 div } bind def /Z* {L*F 16 add 116 div B*Fs0 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 /XCIE {X* DecodeXYZ* 0.9505 mul} bind def /YCIE {Y* DecodeXYZ* } bind def /ZCIE {Z* DecodeXYZ* 1.0890 mul} bind def /XCIE1 {X* DecodeXYZ* 0.9505 mul CIEF mul} bind def /YCIE1 {Y* DecodeXYZ* CIEF mul} bind def /ZCIE1 {Z* DecodeXYZ* 1.0890 mul CIEF mul} bind def %Transformation X Y Z to RsRGB, GsRGB, BsRGB /RsRGB XCIE1 3.2406 mul YCIE1 -1.5372 mul add ZCIE1 -0.4986 mul add def /GsRGB XCIE1 -0.9686 mul YCIE1 1.8758 mul add ZCIE1 0.0415 mul add def /BsRGB XCIE1 0.0557 mul YCIE1 -0.2040 mul add ZCIE1 1.0570 mul add def /Slope 1.0 2.4 div def RsRGB 0.00313008 le {/R'sRGB RsRGB 12.92 mul def} {/R'sRGB RsRGB Slope exp 1.055 mul 0.055 sub def} ifelse GsRGB 0.00313008 le {/G'sRGB GsRGB 12.92 mul def} {/G'sRGB GsRGB Slope exp 1.055 mul 0.055 sub def} ifelse BsRGB 0.00313008 le {/B'sRGB BsRGB 12.92 mul def} {/B'sRGB BsRGB Slope exp 1.055 mul 0.055 sub def} ifelse c*w m*w y*w 0 %default output data definition } bind def %END Procedure LAB*io_to_cmyolv*ioG %********************************************************************* /ouTab*ioG {%BEG Procedure ouTab*ioG /Fontsize 152 Tabfakt mul def /TN {Fontsize /Times-ISOL1 FS} def /TI {Fontsize /TimesI-ISOL1 FS} def /TB {Fontsize /TimesB-ISOL1 FS} def /TBI {Fontsize /TimesBI-ISOL1 FS} def 0 0 0 setrgbcolor /o* r def /l* g def /v* b def %olv*, cmy* /yTABm ya ys 0.81 mul add def /yTABd 132 Tabfakt mul def /yTABx yTABm yTABd 1 mul sub def /yTAB0 yTABm yTABd 2 mul sub def /yTAB1 yTABm yTABd 3 mul sub def /yTAB2 yTABm yTABd 4 mul sub def /yTAB3 yTABm yTABd 5.1 mul sub def /yTAB4 yTABm yTABd 6.1 mul sub def /yTABn yTABm yTABd 7.1 mul sub def /yTAB5 yTABm yTABd 8.1 mul sub def /yTAB6 yTABm yTABd 9.2 mul sub def /yTAB7 yTABm yTABd 10.2 mul sub def /yTAB8 yTABm yTABd 11.2 mul sub def /yTAB9 yTABm yTABd 12.2 mul sub def /yTAB10 yTABm yTABd 13.3 mul sub def /yTAB11 yTABm yTABd 14.3 mul sub def /yTAB12 yTABm yTABd 15.2 mul sub def /yTAB13 yTABm yTABd 16.1 mul sub def /xTABm xa xs 0.84 mul sub def /xTABd 500 Tabfakt mul def /xTAB10 xTABm xTABd 1.15 mul add def /xTAB20 xTABm xTABd 2.00 mul add def /xTAB30 xTABm xTABd 2.85 mul add def /xTAB40 xTABm xTABd 3.70 mul add def /xTAB1 xTABm xTABd 1.60 mul add def /xTAB2 xTABm xTABd 2.55 mul add def /xTAB3 xTABm xTABd 3.50 mul add def /o3*Fa o* def /l3*Fa l* def /v3*Fa v* def xTABm yTABm moveto TBI (relative ) show TB (Inform. Technology (IT)) show xTABm yTABx moveto TI (olvi3*) show TN xTAB10 yTABx moveto o3*Fa cvsshow3 xTAB20 yTABx moveto l3*Fa cvsshow3 xTAB30 yTABx moveto v3*Fa cvsshow3 xTAB40 yTABx moveto ((1.0)) show /c3*Fa 1 o3*Fa sub def /m3*Fa 1 l3*Fa sub def /y3*Fa 1 v3*Fa sub def xTABm yTAB0 moveto TI (cmyn3*) show TN xTAB10 yTAB0 moveto c3*Fa cvsshow3 xTAB20 yTAB0 moveto m3*Fa cvsshow3 xTAB30 yTAB0 moveto y3*Fa cvsshow3 xTAB40 yTAB0 moveto ((0.0)) show LAB*ioG /c* c3*Fa def /m* m3*Fa def /y* y3*Fa def /n* 0.0 def /o* 1 c* sub def /l* 1 m* sub def /v* 1 y* sub def cmyolv*io_to_LAB*ioG xTABm yTAB3 moveto TBI (standard ) show TB (and ) show TBI (adapted ) show TB (CIELAB) show xTABm yTAB4 moveto TI (LAB*LAB) show TN xTAB1 yTAB4 moveto LAB*LF cvsshow2 xTAB2 yTAB4 moveto LAB*AF cvsshow2 xTAB3 yTAB4 moveto LAB*BF cvsshow2 xTABm yTABn moveto TI (LAB*LABa) show TN xTAB1 yTABn moveto LAB*LFa cvsshow2 xTAB2 yTABn moveto LAB*AFa cvsshow2 xTAB3 yTABn moveto LAB*BFa cvsshow2 xTABm yTAB5 moveto TI (LAB*TCHa) show TN xTAB1 yTAB5 moveto lab*tFa 100 mul cvsshow2 xTAB2 yTAB5 moveto LAB*CFa cvsshow2 xTAB3 yTAB5 moveto LAB*CFa 1.0 ge {LAB*HFa cvsshow2} {( -) show} ifelse L*F A*F B*F LAB*io_to_cmyolv*ioG %lab relative CIELAB /c4*Fa c3*Fa lab*nFa sub def %at least one of cmy will be cero /m4*Fa m3*Fa lab*nFa sub def /y4*Fa y3*Fa lab*nFa sub def /n4*Fa lab*nFa def /o4*Fa 1 c4*Fa sub def /l4*Fa 1 m4*Fa sub def /v4*Fa 1 y4*Fa sub def /i4*Fa 1 n4*Fa sub def colorm 0 eq {xTABm yTAB1 moveto TI (olvi4*) show TN xTAB10 yTAB1 moveto o4*Fa cvsshow3 xTAB20 yTAB1 moveto l4*Fa cvsshow3 xTAB30 yTAB1 moveto v4*Fa cvsshow3 xTAB40 yTAB1 moveto i4*Fa cvsshow3 xTABm yTAB2 moveto TI (cmyn4*) show TN xTAB10 yTAB2 moveto c4*Fa cvsshow3 xTAB20 yTAB2 moveto m4*Fa cvsshow3 xTAB30 yTAB2 moveto y4*Fa cvsshow3 xTAB40 yTAB2 moveto n4*Fa cvsshow3 } if colorm 1 eq {1 0 0 setrgbcolor xTABm yTAB1 moveto TI (olvi3*') show TN xTAB10 yTAB1 moveto o*sTab cvsshow3 xTAB20 yTAB1 moveto l*sTab cvsshow3 xTAB30 yTAB1 moveto v*sTab cvsshow3 xTAB40 yTAB1 moveto ((1.0)) show xTABm yTAB2 moveto TI (cmyn3*') show TN xTAB10 yTAB2 moveto 1 o*sTab sub cvsshow3 xTAB20 yTAB2 moveto 1 l*sTab sub cvsshow3 xTAB30 yTAB2 moveto 1 v*sTab sub cvsshow3 xTAB40 yTAB2 moveto ((0.0)) show 0 0 0 setrgbcolor } if xTABm yTAB6 moveto TBI (relative ) show TB (CIELAB ) show TBI (lab*) show xTABm yTAB7 moveto TI (lab*lab) show TN xTAB1 yTAB7 moveto lab*lFa cvsshow3 /lab*aFa lab*cFa LAB*HFa cos mul def /lab*bFa lab*cFa LAB*HFa sin mul def xTAB2 yTAB7 moveto lab*aFa cvsshow3 xTAB3 yTAB7 moveto lab*bFa cvsshow3 xTABm yTAB8 moveto TI (lab*tch) show TN xTAB1 yTAB8 moveto lab*tFa cvsshow3 xTAB2 yTAB8 moveto lab*cFa cvsshow3 xTAB3 yTAB8 moveto lab*cFa 0.01 ge {lab*hFa cvsshow3} {( -) show} ifelse xTABm yTAB9 moveto TI (lab*nch) show TN xTAB1 yTAB9 moveto lab*nFa cvsshow3 xTAB2 yTAB9 moveto lab*cFa cvsshow3 xTAB3 yTAB9 moveto lab*cFa 0.01 ge {lab*hFa cvsshow3} {( -) show} ifelse %lab*lrj,tce,ncE: similar to NCS xTABm yTAB10 moveto TBI (relative ) show TB (Natural Colour (NC)) show xTABm yTAB11 moveto TI (lab*lrj) show TN xTAB1 yTAB11 moveto lab*lFa cvsshow3 /lab*rFa lab*cFa lab*eFa 360 mul cos mul def /lab*jFa lab*cFa lab*eFa 360 mul sin mul def xTAB2 yTAB11 moveto lab*rFa cvsshow3 xTAB3 yTAB11 moveto lab*jFa cvsshow3 xTABm yTAB12 moveto TI (lab*tce) show TN xTAB1 yTAB12 moveto lab*tFa cvsshow3 xTAB2 yTAB12 moveto lab*cFa cvsshow3 xTAB3 yTAB12 moveto lab*cFa 0.01 ge {lab*eFa cvsshow3}{( -) show} ifelse xTABm yTAB13 moveto TI (lab*ncE) show TN xTAB1 yTAB13 moveto lab*nFa cvsshow3 xTAB2 yTAB13 moveto lab*cFa cvsshow3 xTAB3 yTAB13 moveto lab*cFa 0.01 ge {lab*e1Fa show lab*EFa 100 mul truncate cvi dup 10 lt {(0) show } if 6 string cvs show lab*e2Fa show} {( -) show} ifelse } bind def %END Procedure ouTab*ioG %********************************************************************* /ouCal*ioG {%BEG Procedure ouCal*ioG /v* exch def /l* exch def /o* exch def /o3*Fa o* def /l3*Fa l* def /v3*Fa v* def /c3*Fa 1 o3*Fa sub def /m3*Fa 1 l3*Fa sub def /y3*Fa 1 v3*Fa sub def LAB*ioG /c* c3*Fa def /m* m3*Fa def /y* y3*Fa def /n* 0.0 def /o* 1 c* sub def /l* 1 m* sub def /v* 1 y* sub def cmyolv*io_to_LAB*ioG L*F A*F B*F LAB*io_to_cmyolv*ioG %lab relative CIELAB /c4*Fa c3*Fa lab*nFa sub def %at least one of cmy will be cero /m4*Fa m3*Fa lab*nFa sub def /y4*Fa y3*Fa lab*nFa sub def /n4*Fa lab*nFa def /o4*Fa 1 c4*Fa sub def /l4*Fa 1 m4*Fa sub def /v4*Fa 1 y4*Fa sub def /i4*Fa 1 n4*Fa sub def } bind def %END Procedure ouCal*ioG %********************************************************************* /proc_LAB*Fa_LAB*MaNTABl_olvi3*cmyn3*Ma*ioG { %BEG procedure proc_LAB*Fa_LAB*MaNTABl_olvi3*cmyn3*Ma*ioG %only for calculation without hue tables %input LAB*Fa %input LAB*a (6 adapted colours OYLCVM) %input nLAB*s0 (colour white N for calculation of lab*l) %input wLAB*s0 (colour white W for achromatic axis) %output LAB*Ma %output olvi3*Ma %output cmyn3*Ma /UXF1a wLAB*s0 1 get B*Fa mul wLAB*s0 2 get A*Fa mul sub def /UXF2a wLAB*s0 2 get L*Fa mul wLAB*s0 0 get B*Fa mul sub def /UXF3a wLAB*s0 0 get A*Fa mul wLAB*s0 1 get L*Fa mul sub def /T1 0 def /T2 0 def 0 1 5 {/ia exch def /ia30 ia 3 mul def ia 5 eq {/ia31 0 def} {/ia31 ia30 3 add def} ifelse /T1 LAB*a ia30 get UXF1a mul LAB*a ia30 1 add get UXF2a mul add LAB*a ia30 2 add get UXF3a mul add def /T2 LAB*a ia31 get UXF1a mul LAB*a ia31 1 add get UXF2a mul add LAB*a ia31 2 add get UXF3a mul add def T1 0 le {/T1X (N) def} {/T1X (P) def} ifelse T2 0 gt {/T2X (P) def} {/T2X (N) def} ifelse T1 0 le T2 0 gt and {/ia3END ia30 def exit} if } for /L*11a LAB*a ia3END get def /A*11a LAB*a ia3END 1 add get def /B*11a LAB*a ia3END 2 add get def ia3END 15 ge {/ia3END -3 def} if /L*21a LAB*a ia3END 3 add get def /A*21a LAB*a ia3END 4 add get def /B*21a LAB*a ia3END 5 add get def /NENNER L*21a L*11a sub UXF1a mul A*21a A*11a sub UXF2a mul add B*21a B*11a sub UXF3a mul add def /ZAEHLE L*21a UXF1a mul A*21a UXF2a mul add B*21a UXF3a mul add def NENNER 0 ne {/ALPH ZAEHLE NENNER div def} {/ALPH 99999} ifelse /L*Ma ALPH L*11a mul 1 ALPH sub L*21a mul add def /A*Ma ALPH A*11a mul 1 ALPH sub A*21a mul add def /B*Ma ALPH B*11a mul 1 ALPH sub B*21a mul add def /C*Ma A*Ma dup mul B*Ma dup mul add 0.000001 add sqrt def /H*Ma B*Ma A*Ma 0.0001 add atan def /ia30 ia 3 mul def /iap 1 ALPH sub def /iam ALPH def ia 0 eq {/c3*Ma 0 def %L, c*=0, sector O->Y /m3*Ma iam def %L, m*=1->0 /y3*Ma 1 def %L, y*=1 } if ia 1 eq {/c3*Ma iap def %L, c*=0->1, sector Y->L /m3*Ma 0 def %L, m*=0 /y3*Ma 1 def %L, y*=1 } if ia 2 eq {/c3*Ma 1 def %L, c*=1, sector L->C /m3*Ma 0 def %L, m*=0 /y3*Ma iam def %L, y*=1->0 } if ia 3 eq {/c3*Ma 1 def %L, c*=1, sector C->V /m3*Ma iap def %L, m*=1->0 /y3*Ma 0 def %L, y*=0 } if ia 4 eq {/c3*Ma iam def %L, c*=1->0, sector V->M /m3*Ma 1 def %L, m*=1 /y3*Ma 0 def %L, y*=0 } if ia 5 eq {/c3*Ma 0 def %L, c*=0, sector M->O /m3*Ma 1 def %L, m*=1 /y3*Ma iap def %L, y*=0->1 } if /o3*Ma 1 c3*Ma sub def /l3*Ma 1 m3*Ma sub def /v3*Ma 1 y3*Ma sub def /i3*Ma 1 def /lab*nMa 0.00 def /lab*cMa 1.00 def /lab*wMa 0.00 def /lab*tMa 0.50 def /lab*hMa H*Ma 360 div def /lab*lMa L*Ma nLAB*s0 0 get sub wLAB*s0 0 get nLAB*s0 0 get sub 0.000001 add div def } bind def %END procedure proc_LAB*Fa_LAB*MaNTABl_olvi3*cmyn3*Ma*ioG %********************************************************************* /trans_rgb3*_cmyn4*ioG {%BEG Procedure trans_rgb3*_cmyn4*ioG %assumes input of olv* o* 0 le {/o* 0.0000 def} if l* 0 le {/l* 0.0000 def} if v* 0 le {/v* 0.0000 def} if o* 1 ge {/o* 1.0000 def} if l* 1 ge {/l* 1.0000 def} if v* 1 ge {/v* 1.0000 def} if /tdel 0 def v* l* ge l* o* ge and tdel 0 eq and % v* >= l* >= o* equal y* <= m* <= c* %sector C-V of C-M, C>=M: i*p=0 {/n*n 1 v* sub def /w*w o* def /tdel 1 def } if % v* >= l* >= o* v* o* ge o* l* ge and tdel 0 eq and % v* >= o* >= l* equal y* <= c* <= m* %sector V-M of C-M, M>=C: i*p=1 {/n*n 1 v* sub def /w*w l* def /tdel 1 def } if % v* >= o* >= l* o* v* ge v* l* ge and tdel 0 eq and % o* >= v* >= l* equal c* <= y* <= m* %sector M-O of M-Y, M>=Y: i*p=2 {/n*n 1 o* sub def /w*w l* def /tdel 1 def } if % o* >= v* >= l* o* l* ge l* v* ge and tdel 0 eq and % o* >= l* >= v* equal c* <= m* <= y* %sector O-Y of M-Y, Y>=M: i*p=3 {/n*n 1 o* sub def /w*w v* def /tdel 1 def } if % o* >= l* >= v* l* o* ge o* v* ge and tdel 0 eq and % l* >= o* >= v* equal m* <= c* <= y* %sector Y-L of Y-C, Y>=C: i*p=4 {/n*n 1 l* sub def /w*w v* def /tdel 1 def } if % l* >= o* >= v* l* v* ge v* o* ge and tdel 0 eq and % l* >= v* >= o* equal m* <= y* <= c* %sector L-C of Y-C, C>=Y: i*p=5 {/n*n 1 l* sub def /w*w o* def /tdel 1 def } if % l* >= v* >= o* %achromatic %W: o*, l*, v* = 1.00 1.0 o* sub abs 0.001 le 1.0 l* sub abs 0.001 le and 1.0 v* sub abs 0.001 le and %W special case {/n*n 0 def /w*w 1 def %W } if %N: o*, l*, v* <= 0.001 o* abs 0.001 le l* abs 0.001 le and v* abs 0.001 le and %N special case {/n*n 1 def /w*w 0 def %N } if %Achromatic o* l* sub abs 0.001 le l* v* sub abs 0.001 le and %Achromatic special case {/n*n 1 o* sub def /w*w o* def %grey } if /lab*wFa w*w def /lab*nFa n*n def /c3*Fa 1 o* sub def /m3*Fa 1 l* sub def /y3*Fa 1 v* sub def /c4*Fa c3*Fa lab*nFa sub def %at least one of cmy will be cero /m4*Fa m3*Fa lab*nFa sub def /y4*Fa y3*Fa lab*nFa sub def /n4*Fa lab*nFa def /o4*Fa 1 c4*Fa sub def /l4*Fa 1 m4*Fa sub def /v4*Fa 1 y4*Fa sub def /i4*Fa 1 n4*Fa sub def } def %END Procedure trans_rgb3*_cmyn4*ioG %********************************************************************* /ColSepG {%BEG Procedure ColSepG ColourSeparation for NP- and FP-file 20071101 /proz1 {pop} bind def /setgc {pop pop pop 1 exch sub sggray} bind def /setgm {pop pop 1 exch sub sggray pop} bind def /setgy {pop 1 exch sub sggray pop pop} bind def /setgn {1 exch sub sggray pop pop pop} bind def /setgf {/ncolor exch def /ycolor exch def /mcolor exch def /ccolor exch def 0 ccolor eq 0 mcolor eq and 0 ycolor eq and {1 ncolor sub sggray} {1 ccolor sub 0.71 mul 1 mcolor sub 0.22 mul add 1 ycolor sub 0.07 mul add sggray} ifelse } bind def %/setsc {075 135 {proz1} setscreen } bind def %/setsm {075 090 {proz1} setscreen } bind def %/setsy {075 000 {proz1} setscreen } bind def %/setsn {075 045 {proz1} setscreen } bind def %/setsf {075 135 {proz1} 075 090 {proz1} 075 000 {proz1} % 075 045 {proz1} setcolorscreen } bind def /setsc { } bind def /setsm { } bind def /setsy { } bind def /setsn { } bind def /setsf { } bind def /setcmykcolorf { sgcmykcolor setsf} bind def %fuer PSL1/2-Farbgeraet %ANFA HALBTON /Halbt { %wrbie:HALBTOA0.eps } bind def %ANFA SETCMYK /setcmyknew { %Ersatz setcolornew durch setcmykcolor1 ausz 1 eq {setgc half 0 eq {setsc} if} if %C ausz 2 eq {setgm half 0 eq {setsm} if} if %M ausz 3 eq {setgy half 0 eq {setsy} if} if %Y ausz 4 eq {pop pop pop /ccolor exch def ccolor 0 0 0 /setcmykcolor where %Abfrage Farb-/SW-Geraet {pop setcmykcolorf} %PSL1/2-Farb-Geraet {setgc setsc} %PSL1-SW-Geraet ifelse } if %Cbunt ausz 5 eq {pop pop /mcolor exch def pop 0 mcolor 0 0 /setcmykcolor where %Abfrage Farb-/SW-Geraet {pop setcmykcolorf} %PSL1/2-Farb-Geraet {setgm setsm} %PSL1-SW-Geraet ifelse } if %Mbunt ausz 6 eq {pop /ycolor exch def pop pop 0 0 ycolor 0 /setcmykcolor where %Abfrage Farb-/SW-Geraet {pop setcmykcolorf} %PSL1/2-Farb-Geraet {setgy setsy} %PSL1-SW-Geraet ifelse } if %Ybunt ausz 7 eq {setgn half 0 eq {setsn} if} if %N ausz 8 ge { /setcmykcolor where %Abfrage Farb-/SW-Geraet {pop setcmykcolorf} %PSL1/2-Farb-Geraet {setgf setsn} %PSL1-SW-Geraet ifelse } if %bei ausz=8: Farb- oder SW-Ausdruck je nach Drucker } bind def %********************************************************************* xcharti 1 ge {%xcharti>=1 COLM559LT.PS cmyn5* special for Table output colorm 0 eq {%BEG colorm=0 with change of olv* by white (1-VisTol*ioG x 100%) /olvtrans 0 def %no change of olv* to olvk* /setrgbcolor {/b exch def /g exch def /r exch def /o* r def /l* g def /v* b def /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioG %produces cmyn5*ioG as output /c7*Fa 1 m4*Fa sub def /m7*Fa 1 m4*Fa sub def /y7*Fa 1 y4*Fa sub def /n7*Fa 1 n4*Fa sub def c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def /setgray {/w*w exch def /b w*w def /g w*w def /r w*w def /o* r def /l* g def /v* b def /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioG %produces cmyn5*ioG as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def /setcmykcolor {/n*n exch def /y*n exch def /m*n exch def /c*n exch def %standard cmy0* or 000n* for input n*n 0 eq {/r 1 c*n sub def /g 1 m*n sub def /b 1 y*n sub def} {/r 1 n*n sub def /g 1 n*n sub def /b 1 n*n sub def} ifelse /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /o* r def /l* g def /v* b def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioG %produces cmyn5*ioG as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def }%END colorm=0 {%BEG colorm=1 /olvtrans 0 def %no change of olv* /setrgbcolor {/b exch def /g exch def /r exch def /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /IMODE 0 def r g b ouCal*ioG /c8*Fa L*F def /m8*Fa A*F def /y8*Fa B*F def /n8*Fa 0 def /c6*Fa LAB*LFa def /m6*Fa LAB*AFa def /y6*Fa LAB*BFa def /n6*Fa 0 def LAB*LFa LAB*AFa LAB*BFa Lab2RGBinterpolation /v* exch def /l* exch def /o* exch def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioG %produces cmyn5*ioG as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def /setgray {/w*w exch def /b w*w def /g w*w def /r w*w def /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /IMODE 0 def r g b ouCal*ioG LAB*LFa LAB*AFa LAB*BFa Lab2RGBinterpolation /v* exch def /l* exch def /o* exch def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioG %produces cmyn5*ioG as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def /setcmykcolor {/n*n exch def /y*n exch def /m*n exch def /c*n exch def %standard cmy0* or 000n* for input n*n 0 eq {/r 1 c*n sub def /g 1 m*n sub def /b 1 y*n sub def} {/r 1 n*n sub def /g 1 n*n sub def /b 1 n*n sub def} ifelse /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /IMODE 0 def r g b ouCal*ioG LAB*LFa LAB*AFa LAB*BFa Lab2RGBinterpolation /v* exch def /l* exch def /o* exch def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioG %produces cmyn5*ioG as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def } ifelse %END colorm=1 }%END %xcharti>=0 {%BEG %xcharti=0 /setrgbcolor {/b exch def /g exch def /r exch def /o* r def /l* g def /v* b def /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def /c4*Fa 1 o* sub def /m4*Fa 1 l* sub def /y4*Fa 1 v* sub def /n4*Fa 0 def o* l* v* sgrgbcolor } def /setgray {dup dup /b exch def /g exch def /r exch def /o* r def /l* g def /v* b def /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def /c4*Fa 1 o* sub def /m4*Fa 1 l* sub def /y4*Fa 1 v* sub def /n4*Fa 0 def o* sggray } def /setcmykcolor {/n*n exch def /y*n exch def /m*n exch def /c*n exch def n*n 0 eq {/o* 1 c*n sub def /l* 1 m*n sub def /v* 1 y*n sub def /n4*Fa 0 def} {/o* 1 def /l* 1 def /v* 1 def /n4*Fa n*n def} ifelse /ok* r 1 r sub 1 VisTol*ioG sub mul add def /lk* g 1 g sub 1 VisTol*ioG sub mul add def /vk* b 1 b sub 1 VisTol*ioG sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c4*Fa 1 o* sub def /m4*Fa 1 l* sub def /y4*Fa 1 v* sub def %/n4*Fa see above c4*Fa m4*Fa y4*Fa n4*Fa sgcmykcolor } def } ifelse %END %xcharti=0 COLM559LT.PS cmyn5* /trans_rgb3*_cmyn5*ioG {%BEG Procedure trans_rgb3*_cmyn5*ioG %assumes input of olv*, needs olvtrans=0 or 1 'zm60'CMYN559G.PS o* 0 le {/o* 0.0000 def} if l* 0 le {/l* 0.0000 def} if v* 0 le {/v* 0.0000 def} if o* 1 ge {/o* 1.0000 def} if l* 1 ge {/l* 1.0000 def} if v* 1 ge {/v* 1.0000 def} if olvtrans 0 eq {%olvtrans /ok* o* def /lk* l* def /vk* v* def} {/ok* o* 1 o* sub 1 VisTol*ioG sub mul add def /lk* l* 1 l* sub 1 VisTol*ioG sub mul add def /vk* v* 1 v* sub 1 VisTol*ioG sub mul add def} ifelse /tdel 0 def vk* lk* ge lk* ok* ge and tdel 0 eq and % v* >= l* >= o* equal y* <= m* <= c* %sector C-V of C-M, C>=M: i*p=0 {/n*n 1 vk* sub def /w*w ok* def /m*w lk* def /tdel 1 def /isec 3 def } if % v* >= l* >= o* vk* ok* ge ok* lk* ge and tdel 0 eq and % v* >= o* >= l* equal y* <= c* <= m* %sector V-M of C-M, M>=C: i*p=1 {/n*n 1 vk* sub def /w*w lk* def /m*w ok* def /tdel 1 def /isec 4 def } if % v* >= o* >= l* ok* vk* ge vk* lk* ge and tdel 0 eq and % o* >= v* >= l* equal c* <= y* <= m* %sector M-O of M-Y, M>=Y: i*p=2 {/n*n 1 ok* sub def /w*w lk* def /m*w vk* def /tdel 1 def /isec 5 def } if % o* >= v* >= l* ok* lk* ge lk* vk* ge and tdel 0 eq and % o* >= l* >= v* equal c* <= m* <= y* %sector O-Y of M-Y, Y>=M: i*p=3 {/n*n 1 ok* sub def /w*w vk* def /m*w lk* def /tdel 1 def /isec 0 def } if % o* >= l* >= v* lk* ok* ge ok* vk* ge and tdel 0 eq and % l* >= o* >= v* equal m* <= c* <= y* %sector Y-L of Y-C, Y>=C: i*p=4 {/n*n 1 lk* sub def /w*w vk* def /m*w ok* def /tdel 1 def /isec 1 def } if % l* >= o* >= v* lk* vk* ge vk* ok* ge and tdel 0 eq and % l* >= v* >= o* equal m* <= y* <= c* %sector L-C of Y-C, C>=Y: i*p=5 {/n*n 1 lk* sub def /w*w ok* def /m*w vk* def /tdel 1 def /isec 2 def } if % l* >= v* >= o* %achromatic %W: ok*, lk*, vk* = 1.00 1.0 ok* sub abs 0.001 le 1.0 lk* sub abs 0.001 le and 1.0 vk* sub abs 0.001 le and %W special case {/n*n 0 def /w*w 1 def /m*w 1 def %W /isec 6 def } if %N: ok*, lk*, vk* <= 0.001 ok* abs 0.001 le lk* abs 0.001 le and vk* abs 0.001 le and %N special case {/n*n 1 def /w*w 0 def /m*w 0 def %N /isec 6 def } if %Achromatic ok* lk* sub abs 0.001 le lk* vk* sub abs 0.001 le and %Achromatic special case {/n*n 1 ok* sub def /w*w ok* def /m*w ok* def %grey /isec 6 def } if /lab*wFa w*w def /lab*nFa n*n def /lab*cFa 1 n*n sub w*w sub def /argb 1 lab*nFa sub def /brgb m*w def /crgb lab*wFa def /c* lab*cFa def /lab*tFa 1 lab*nFa sub lab*cFa 0.5 mul sub def isec 6 eq {%BEG isec=6 achromatic /o*1 1 def /l*1 1 def /v*1 1 def }%END isec=6 achromatic {%BEG isec#6 chromatic /o*1 ok* argb 0.000001 add div def /l*1 lk* argb 0.000001 add div def /v*1 vk* argb 0.000001 add div def } ifelse %END isec#6 /c3*Fa 1 o*1 sub def /m3*Fa 1 l*1 sub def /y3*Fa 1 v*1 sub def /c4*Fa c3*Fa def %at least one of cmy will be cero /m4*Fa m3*Fa def /y4*Fa y3*Fa def /n4*Fa lab*nFa def /o4*Fa 1 c4*Fa sub def /l4*Fa 1 m4*Fa sub def /v4*Fa 1 y4*Fa sub def /i4*Fa 1 n4*Fa sub def } def %END Procedure trans_rgb3*_cmyn5*ioG 'zm60'CMYN559G.PS } bind def %END Procedure ColSepG ColourSeparation for NP- and FP-file 20071101 %*************************************************************** %END XG12/OUTLIN1X.PS Data and procedures for NP- and FP-file 20071101 /CFilenameS1g %START output of step S1g (www.ps.bam.de/XG12/10L/L12G00N) def %Link file name for data /CDateS1g (2006-01-01, Name) def %Date of calculation, Tester /CDeviceS1g (unknown ) def %Device name /CMeasS1g (XG12/10L/L12G00N) 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 9 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 languagelevel where % If level not equal to 1 then 1 ne {false setstrokeadjust false setoverprint } if } if } bind def /EndEPSF { % def count op_count sub {pop} repeat countdictstack dict_count sub {end} repeat % Clean up dict stack b4_Inc_state restore } bind def /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 % !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} {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 %ANFA CMYKDEF %CMYKDEA0 (A0=Standard-Drucker-CMYKDEF) 15.3.97 /tzac [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 /tzam [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 /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 -13.36] def /tzmLAB* [59.66 90.32 -19.65] def /tzyLAB* [93.76 -20.24 85.93] def /tzncmy0* {1.00 1.00 1.00 0.00} bind def %grey series /tzdcmy0* {0.75 0.75 0.75 0.00} bind def %cmy0* setcmykcolor /tzzcmy0* {0.50 0.50 0.50 0.00} bind def /tzhcmy0* {0.25 0.25 0.25 0.00} bind def /tzwcmy0* {0.00 0.00 0.00 0.00} bind def /tzn000n* {0.00 0.00 0.00 1.00} bind def %grey series 000n* /tzd000n* {0.00 0.00 0.00 0.75} bind def %000n* setcmykcolor /tzz000n* {0.00 0.00 0.00 0.50} bind def /tzh000n* {0.00 0.00 0.00 0.25} bind def /tzw000n* {0.00 0.00 0.00 0.00} bind def /tznw* {0.00} bind def %grey series /tzdw* {0.25} bind def %w* setgray /tzzw* {0.50} bind def /tzhw* {0.75} bind def /tzww* {1.00} bind def /tznolv* {0.00 0.00 0.00} bind def %grey series /tzdolv* {0.25 0.25 0.25} bind def %olv* setrgbcolor /tzzolv* {0.50 0.50 0.50} bind def /tzholv* {0.75 0.75 0.75} bind def /tzwolv* {1.00 1.00 1.00} bind def /tznLAB* [18.01 0.00 0.00] def %grey series /tzdLAB* [37.36 0.00 0.00] def %LAB* setcolor /tzzLAB* [56.71 0.00 0.00] def /tzhLAB* [76.06 0.00 0.00] def /tzwLAB* [95.41 0.00 0.00] def /tfn {0 setgray} bind def /tfw {1 setgray} bind def /A4quer {598 0 translate 90 rotate} def %0 %1 /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 /tzank [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 %BEG 61 lines comment or new PS operators possible %03 %04 %05 %06 %07 %08 %END 38 lines comment or new PS operators possible %%EndProlog %%BeginPageSetup /#copies 1 def %A4quer 0.5 0.5 scale /pgsave save def %%EndPageSetup 0.0 MM 0.0 MM translate %Verschiebung nach oben und links fuer Belichter gsave /SS$ [(G) (E) (S) (F) (I) (J) (M)] def /SC$ [(N) (F) (S) (D) (T) (E) (C)] def /SX$ [(0) (1) (2) (3) (4) (5) (6) (7) (8) (9) (A) (B) (C) (D) (E) (F)] def /SY$ [(0) (1) (2) (3) (4) (5) (6) (7) (8) (9) (A) (B) (C) (D) (E) (F)] def % 0 1 2 3 4 5 % 6 7 8 /EX$ [(1.PS/.TXT) (B.PS/.BMP) (G.PS/.GIF) (H.PS/.HTM) (I.PS/.HTM) (J.PS/.JPE) (P.PS/.PDF) (T.PS/.TIF)] def /EY$ [(1.DAT) (B.DAT) (G.DAT) (H.DAT) (I.DAT) (J.DAT) (P.DAT) (T.DAT)] def /lanindg1 0 def /lanindg2 0 def /colormg1 0 def /colormg2 0 def /xcolorg1 0 def /xcolorg2 0 def /xchartg1 0 def /xchartg2 0 def /lanindg lanindg1 def %no loops /colormg colormg1 def /xcolorg xcolorg1 def /xchartg xchartg1 def /pcount2x pcount2g xchart2g sub 2 add def %scount1g 1 scount2g {/scountg exch def %s=serie, e. g. 1,1,10 %1 1 1 {/pcountg exch def %p=page, e. g. 1,1,250 /xchart10 4 def /xchart20 04 def %special for Table %pcountg pcount1g eq {/xchart10 0 def /xchart20 0 def} % {/xchart10 1 def /xchart20 1 def} ifelse %%pcountg pcount2x eq {/xchart10 2 def /xchart20 9 def} if xchart10 1 xchart20 {/xchartg exch def /xcharti xchartg def xchartg 0 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Figure olv,cmy0 xchartg 1 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Figure olv xchartg 2 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Table olv xchartg 3 eq {/ausz 8 def /xchartt (F) def} if %Figure cmyn5* xchartg 4 eq {/ausz 8 def /xchartt (F) def} if %Table cmyn5* xchartg 5 eq {/ausz 1 def /xchartt (Cn) def} if xchartg 6 eq {/ausz 2 def /xchartt (Mn) def} if xchartg 7 eq {/ausz 3 def /xchartt (Yn) def} if xchartg 8 eq {/ausz 7 def /xchartt (N) def} if xchartg 9 eq {/ausz 4 def /xchartt (C) def} if xchartg 10 eq {/ausz 5 def /xchartt (M) def} if xchartg 11 eq {/ausz 6 def /xchartt (Y) def} if /xchartg0 0 def /colorm colormg def /xchart xchartg xchartg0 sub def %needs Definition, is only in OUTLIN1X.PS %to be deleted for tests of Y.. on VAX LAB*ioG ColSepG %2 MM /Times-Roman FS %274 MM 82 MM moveto -90 rotate (/XG12/ ) show (Form: ) show %xchartg 1 add cvi 6 string cvs show (/) show %xchart2g 1 add cvi 6 string cvs show (,) show 90 rotate %274 MM 65 MM moveto -90 rotate (Serie: ) show %scountg cvi 6 string cvs 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$ 0 get def /GEX$ EX$ 0 get def /GEY$ EY$ 0 get 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 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MM moveto ( ) show 1 1 scale -77 -91 translate %%BeginDocument: Bild 16 %line 389 %%EndDocument EndEPSF grestore gsave BeginEPSF 28 MM -1 MM add 20 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 XG120-7N %%BoundingBox: 70 82 770 575 %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:2007010112000) /ModDate (D:2007010112000) /DOCINFO pdfmark07 [ /View [ /FitB ] /DOCVIEW pdfmark07 %END PDFDE011 %Early binding /sggray where {pop /slgray {sggray} bind def} {/slgray {setgray} bind def} ifelse /sgcmykcolor where {pop /slcmykcolor {sgcmykcolor} bind def} {/slcmykcolor {setcmykcolor} bind def} ifelse /sgrgbcolor where {pop /slrgbcolor {sgrgbcolor} bind def} {/slrgbcolor {setrgbcolor} bind def} ifelse /halfg where {pop /half halfg def} {/half 0 def} ifelse /VisTol*ioL 1.00 def /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 %********************************************************************* /LAB*ioL {%BEG Procedure LAB*ioL %requires ISRL*ioL=0,1,3 /RJGBLAB* 12 array def /RJGBLAB*[ 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* 84 array def %12x3=36 including N,W + 16x3=48 elementary system /LAB*a 84 array def /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 /LAB*TE [(ORS18) (TLS00) (FRS06) (TSL18) (NLS00) (NLS18) (SRS18) (TLS70) (TLS00) (TLS06) (TLS11) (TLS18) (TLS27) (TLS38) (TLS52) (TLS70) (OLS00) (OLS06) (OLS11) (OLS18) (OLS27) (OLS38) (OLS52) (OLS70)] def ISRL*ioL 0 eq { %ISRL*ioL=0 /LAB*00 [%D=Device OYLCVMO+NW %for Offset Reflective System (ORS18) %BEG DMYY:ORS18LM.DAT 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 %END DMYY:ORS18LM.DAT 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 Luminous System OYLCVMO+NW (NLS18) 43.81 67.03 38.70 %O 0 77.40/2 = 38.70 69.61 00.00 77.40 %Y 1 C*ab = 77.40 43.81 -67.03 38.70 %L 2 0.866 C*ab = 67.03 69.61 -67.03 -38.70 %C 3 delta L*=25.8 43.81 00.00 -77.40 %V 4 43.81=18.01+25.80 69.61 67.03 -38.70 %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 %ISRL*ioL=0 ISRL*ioL 1 eq { %ISRL*ioL=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 %ISRL*ioL=1 ISRL*ioL 2 eq { %ISRL*ioL=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 %ISRL*ioL=2 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 ISIO*ioL 0 eq { %ORS18/TLS00/OLS00 LAB* i30 LAB*00 i30 get put LAB* i31 LAB*00 i31 get put LAB* i32 LAB*00 i32 get put } if ISIO*ioL 1 eq { %TLS00/TLS06/OLS06 LAB* i30 LAB*01 i30 get put LAB* i31 LAB*01 i31 get put LAB* i32 LAB*01 i32 get put } if ISIO*ioL 2 eq { %FRS06/TLS11/OLS11 LAB* i30 LAB*02 i30 get put LAB* i31 LAB*02 i31 get put LAB* i32 LAB*02 i32 get put } if ISIO*ioL 3 eq { %TLS18/TLS18/OLS18 LAB* i30 LAB*03 i30 get put LAB* i31 LAB*03 i31 get put LAB* i32 LAB*03 i32 get put } if ISIO*ioL 4 eq { %NLS00/TSL28/OLS28 LAB* i30 LAB*04 i30 get put LAB* i31 LAB*04 i31 get put LAB* i32 LAB*04 i32 get put } if ISIO*ioL 5 eq { %NRS18/TLS38/OLS38 LAB* i30 LAB*05 i30 get put LAB* i31 LAB*05 i31 get put LAB* i32 LAB*05 i32 get put } if ISIO*ioL 6 eq { %SRS18/TLS50/OLS50 LAB* i30 LAB*06 i30 get put LAB* i31 LAB*06 i31 get put LAB* i32 LAB*06 i32 get put } if ISIO*ioL 7 eq { %TLS70/TLS70/OLS70 LAB* i30 LAB*07 i30 get put LAB* i31 LAB*07 i31 get put LAB* i32 LAB*07 i32 get put } if } %sISO=0,7 {%sISO=8,11 %Definition 8 to 11 /jISO sISO 8 sub def /j30 jISO 3 mul def /j31 j30 1 add def /j32 j30 2 add def LAB* i30 RJGBLAB* j30 get put LAB* i31 RJGBLAB* j31 get put LAB* i32 RJGBLAB* j32 get put %Definition 12 to 24 (36 to 72) /jISO0 sISO 8 sub def sISO 11 eq {/jISO1 0 def} {/jISO1 jISO0 1 add def} ifelse 0 1 3 {/ij exch def ij 0 eq {/a0 1.00 def /b0 0.00 def} if ij 1 eq {/a0 0.75 def /b0 0.25 def} if ij 2 eq {/a0 0.50 def /b0 0.50 def} if ij 3 eq {/a0 0.25 def /b0 0.75 def} if LAB* 36 jISO0 12 mul add ij 3 mul add RJGBLAB* jISO0 3 mul get a0 mul RJGBLAB* jISO1 3 mul get b0 mul add put LAB* 37 jISO0 12 mul add ij 3 mul add RJGBLAB* jISO0 3 mul 1 add get a0 mul RJGBLAB* jISO1 3 mul 1 add get b0 mul add put LAB* 38 jISO0 12 mul add ij 3 mul add RJGBLAB* jISO0 3 mul 2 add get a0 mul RJGBLAB* jISO1 3 mul 2 add get b0 mul add put } for } ifelse %sISO=0,7 and 8,11 } for /L*Nio LAB* 18 get def /A*Nio LAB* 19 get def /B*Nio LAB* 20 get def /L*Wio LAB* 21 get def /A*Wio LAB* 22 get def /B*Wio LAB* 23 get def /A*Dio A*Wio A*Nio sub def /B*Dio B*Wio B*Nio sub def 0 1 27 {/sISO exch def /i30 sISO 3 mul def /i31 i30 1 add def /i32 i30 2 add def LAB*a i30 LAB* i30 get put /l*CIE LAB* i30 get L*Nio sub L*Wio L*Nio sub div def %system rel. lightn. /a*s A*Wio A*Nio sub l*CIE mul def /b*s B*Wio B*Nio sub l*CIE mul def LAB*a i31 LAB* i31 get A*Nio sub a*s sub put LAB*a i32 LAB* i32 get B*Nio sub b*s sub put } for /cLAB*s0 3 array def %C cyan blue /vLAB*s0 3 array def %V violet blue /mLAB*s0 3 array def %M magenta red /oLAB*s0 3 array def %O orange red /yLAB*s0 3 array def %Y yellow /lLAB*s0 3 array def %L leaf green /nLAB*s0 3 array def %N black /wLAB*s0 3 array def %W white /rLAB*s0 3 array def %R elementary red /jLAB*s0 3 array def %J elementary yellow /gLAB*s0 3 array def %G elementary green /bLAB*s0 3 array def %B elementary blue %Determine Matrix data input or output data oLAB*s0 0 LAB*a 0 get L*Nio sub put oLAB*s0 1 LAB*a 1 get put oLAB*s0 2 LAB*a 2 get put yLAB*s0 0 LAB*a 3 get L*Nio sub put yLAB*s0 1 LAB*a 4 get put yLAB*s0 2 LAB*a 5 get put lLAB*s0 0 LAB*a 6 get L*Nio sub put lLAB*s0 1 LAB*a 7 get put lLAB*s0 2 LAB*a 8 get put cLAB*s0 0 LAB*a 9 get L*Nio sub put cLAB*s0 1 LAB*a 10 get put cLAB*s0 2 LAB*a 11 get put vLAB*s0 0 LAB*a 12 get L*Nio sub put vLAB*s0 1 LAB*a 13 get put vLAB*s0 2 LAB*a 14 get put mLAB*s0 0 LAB*a 15 get L*Nio sub put mLAB*s0 1 LAB*a 16 get put mLAB*s0 2 LAB*a 17 get put nLAB*s0 0 LAB*a 18 get L*Nio sub put nLAB*s0 1 LAB*a 19 get put nLAB*s0 2 LAB*a 20 get put wLAB*s0 0 LAB*a 21 get L*Nio sub put wLAB*s0 1 LAB*a 22 get put wLAB*s0 2 LAB*a 23 get put rLAB*s0 0 LAB*a 24 get L*Nio sub put rLAB*s0 1 LAB*a 25 get put rLAB*s0 2 LAB*a 26 get put jLAB*s0 0 LAB*a 27 get L*Nio sub put jLAB*s0 1 LAB*a 28 get put jLAB*s0 2 LAB*a 29 get put gLAB*s0 0 LAB*a 30 get L*Nio sub put gLAB*s0 1 LAB*a 31 get put gLAB*s0 2 LAB*a 32 get put bLAB*s0 0 LAB*a 33 get L*Nio sub put bLAB*s0 1 LAB*a 34 get put bLAB*s0 2 LAB*a 35 get put % Determine the input or output angle in the A* B* plane % of each of the colours defined above /C*Ang cLAB*s0 2 get cLAB*s0 1 get 0.0001 add atan def /V*Ang vLAB*s0 2 get vLAB*s0 1 get 0.0001 add atan def /M*Ang mLAB*s0 2 get mLAB*s0 1 get 0.0001 add atan def /O*Ang oLAB*s0 2 get oLAB*s0 1 get 0.0001 add atan def /Y*Ang yLAB*s0 2 get yLAB*s0 1 get 0.0001 add atan def /L*Ang lLAB*s0 2 get mLAB*s0 1 get 0.0001 add atan def /N*Ang 0 def /W*Ang 0 def /R*Ang rLAB*s0 2 get rLAB*s0 1 get 0.0001 add atan def /J*Ang jLAB*s0 2 get jLAB*s0 1 get 0.0001 add atan def /G*Ang gLAB*s0 2 get gLAB*s0 1 get 0.0001 add atan def /B*Ang bLAB*s0 2 get bLAB*s0 1 get 0.0001 add atan def /detprocL { %BEG procedure detprocL % The detprocL below finds the determinant of the Matrix: % | A1 B1 C1 D1 | % | A2 B2 C2 D2 | % | A3 B3 C3 D3 | % | A4 B4 C4 D4 | % /term1 B2 C3 mul D4 mul C2 D3 mul B4 mul add D2 B3 mul C4 mul add B4 C3 mul D2 mul sub C4 D3 mul B2 mul sub D4 B3 mul C2 mul sub def /term2 A2 C3 mul D4 mul C2 D3 mul A4 mul add D2 A3 mul C4 mul add A4 C3 mul D2 mul sub C4 D3 mul A2 mul sub D4 A3 mul C2 mul sub def /term3 A2 B3 mul D4 mul B2 D3 mul A4 mul add D2 A3 mul B4 mul add A4 B3 mul D2 mul sub B4 D3 mul A2 mul sub D4 A3 mul B2 mul sub def /term4 A2 B3 mul C4 mul B2 C3 mul A4 mul add C2 A3 mul B4 mul add A4 B3 mul C2 mul sub B4 C3 mul A2 mul sub C4 A3 mul B2 mul sub def /det A1 term1 mul B1 term2 mul sub C1 term3 mul add D1 term4 mul sub def } bind def %END procedure detprocL /CoeffprocL { %BEG procedure CoeffprocL % The CoeffprocL proced. solves for WhiteCoeff, black Coeff, Col1Coeff and % Col2Coeff in the matrix equation below. It takes as inputs A1->A4 B1->B4 % C1->C4 D1->D4 and s,y,z,t. It solves for these using Cramer's rule. % Note: Cramer's rule is valid only for non-singular matrices, ie |A| not % equal to 0. % % | A1 B1 C1 D1 | |WhiteCoeff| |xD| % | A2 B2 C2 D2 | |BlackCoeff| = |yD| % | A3 B3 C3 D3 | |Col1Coeff | |zD| % | A4 B4 C4 D4 | |Col2Coeff | |tD| % A B = C % /tD exch def /zD exch def /yD exch def /xD exch def /D4 exch def /D3 exch def /D2 exch def /D1 exch def /C4 exch def /C3 exch def /C2 exch def /C1 exch def /B4 exch def /B3 exch def /B2 exch def /B1 exch def /A4 exch def /A3 exch def /A2 exch def /A1 exch def detprocL /den det def % determine white coefficient /temp1 A1 def /temp2 A2 def /temp3 A3 def /temp4 A4 def /A1 xD def /A2 yD def /A3 zD def /A4 tD def detprocL /numW det def /A1 temp1 def /A2 temp2 def /A3 temp3 def /A4 temp4 def % determine black coefficient /temp1 B1 def /temp2 B2 def /temp3 B3 def /temp4 B4 def /B1 xD def /B2 yD def /B3 zD def /B4 tD def detprocL /numB det def /B1 temp1 def /B2 temp2 def /B3 temp3 def /B4 temp4 def % determine colour1 coefficient /temp1 C1 def /temp2 C2 def /temp3 C3 def /temp4 C4 def /C1 xD def /C2 yD def /C3 zD def /C4 tD def detprocL /numCol1 det def /C1 temp1 def /C2 temp2 def /C3 temp3 def /C4 temp4 def % determine colour2 coefficient /temp1 D1 def /temp2 D2 def /temp3 D3 def /temp4 D4 def /D1 xD def /D2 yD def /D3 zD def /D4 tD def detprocL /numCol2 det def /D1 temp1 def /D2 temp2 def /D3 temp3 def /D4 temp4 def /WhiteCoeff numW den div def /BlackCoeff numB den div def /Col1Coeff numCol1 den div def /Col2Coeff numCol2 den div def WhiteCoeff BlackCoeff Col1Coeff Col2Coeff % returns these *color data } bind def %BEG procedure CoeffprocL } def %END Procedure LAB*ioL %*********************************************************** /cmyolv*io_to_LAB*ioL { %BEG Procedure transfer cmyolv*io_to_LAB*ioL %input olv* for IMODE=0 and cmy* for IMODE=1 %the following calculations based on olv* %Procedure LAB*inoutL is required in advance IMODE 1 eq {%IMODE=1, input cmy* /o* 1 c* sub def /l* 1 m* sub def /v* 1 y* sub def } if %skip of olv* data <0 and >1 o* 0 le {/o* 0.0001 def} if l* 0 le {/l* 0.0001 def} if v* 0 le {/v* 0.0001 def} if o* 1 ge {/o* 0.9999 def} if l* 1 ge {/l* 0.9999 def} if v* 1 ge {/v* 0.9999 def} if %output olv* and cmy* for both olv* and cmy* input %n*n: relative blackness %r*n: relative chromaticness %w*n: relative whiteness %L*F: CIE lightness L* %A*F: CIE chromaticness a* %B*F: CIE chromaticness b* %C*F: CIE radial chroma Cab* %x*F: x-position of colour F %y*F: y-position of colour F %e*w: eigencolour value of F o* 0 le {/o* 0.0001 def} if l* 0 le {/l* 0.0001 def} if v* 0 le {/v* 0.0001 def} if o* 1 ge {/o* 0.9999 def} if l* 1 ge {/l* 0.9999 def} if v* 1 ge {/v* 0.9999 def} if /tdel 0 def v* l* ge l* o* ge and tdel 0 eq and % v* >= l* >= o* equal y* <= m* <= c* %sector C-V of C-M, C>=M: i*p=0 {/w*n o* def /n*n 1 v* sub def /t*a v* l* sub def /array1 vLAB*s0 def % colour 1 is violet blue /t*b l* o* sub def /array2 cLAB*s0 def % colour 2 is cyan blue /i*p 0 def o* l* sub abs 0.001 le {/i*p 1 def} if /t*p l* l* v* add 0.0001 add div def /tdel 1 def } if % v* >= l* >= o* v* o* ge o* l* ge and tdel 0 eq and % v* >= o* >= l* equal y* <= c* <= m* %sector V-M of C-M, M>=C: i*p=1 {/w*n l* def /n*n 1 v* sub def /t*a v* o* sub def /array1 vLAB*s0 def % colour 1 is violet blue /t*b o* l* sub def /array2 mLAB*s0 def % colour 2 is magenta red /i*p 1 def v* o* sub abs 0.001 le {/i*p 2 def} if /t*p o* o* v* add 0.0001 add div def /tdel 1 def } if % v* >= o* >= l* o* v* ge v* l* ge and tdel 0 eq and % o* >= v* >= l* equal c* <= y* <= m* %sector M-O of M-Y, M>=Y: i*p=2 {/w*n l* def /n*n 1 o* sub def /t*a o* v* sub def /array1 oLAB*s0 def % colour 1 is orange /t*b v* l* sub def /array2 mLAB*s0 def % colour 2 is magenta red /i*p 2 def l* v* sub abs 0.001 le {/i*p 3 def} if /t*p v* v* o* add 0.0001 add div def /tdel 1 def } if % o* >= v* >= l* o* l* ge l* v* ge and tdel 0 eq and % o* >= l* >= v* equal c* <= m* <= y* %sector O-Y of M-Y, Y>=M: i*p=3 {/w*n v* def /n*n 1 o* sub def /t*a o* l* sub def /array1 oLAB*s0 def % colour 1 is orange red /t*b l* v* sub def /array2 yLAB*s0 def % colour 2 is yellow /i*p 3 def o* l* sub abs 0.001 le {/i*p 4 def} if /t*p l* l* o* add 0.0001 add div def /tdel 1 def } if % o* >= l* >= v* l* o* ge o* v* ge and tdel 0 eq and % l* >= o* >= v* equal m* <= c* <= y* %sector Y-L of Y-C, Y>=C: i*p=4 {/w*n v* def /n*n 1 l* sub def /t*a l* o* sub def /array1 lLAB*s0 def % colour 1 is leaf green /t*b o* v* sub def /array2 yLAB*s0 def % colour 2 is yellow /i*p 4 def o* v* sub abs 0.001 le {/i*p 5 def} if /t*p o* o* l* add 0.0001 add div def /tdel 1 def } if % l* >= o* >= v* l* v* ge v* o* ge and tdel 0 eq and % l* >= v* >= o* equal m* <= y* <= c* %sector L-C of Y-C, C>=Y: i*p=5 {/w*n o* def /n*n 1 l* sub def /t*a l* v* sub def /array1 lLAB*s0 def % colour 1 is leaf green /t*b v* o* sub def /array2 cLAB*s0 def % colour 2 is cyan blue /i*p 5 def l* v* sub abs 0.001 le {/i*p 0 def} if /t*p v* v* l* add 0.0001 add div def /tdel 1 def } if % l* >= v* >= o* %achromatic %W: o*, l*, v* = 1.00 1.0 o* sub abs 0.001 le 1.0 l* sub abs 0.001 le and 1.0 v* sub abs 0.001 le and %W special case {/i*p 6 def %W /e*w 0 def /n*n 0 def /w*n 1 def /t*a 0.0001 def /t*b 0.0001 def /t*p 0.0001 def } if %N: o*, l*, v* <= 0.001 o* abs 0.001 le l* abs 0.001 le and v* abs 0.001 le and %N special case {/i*p 6 def %N /e*w 0 def /n*n 1 def /w*n 0 def /t*a 0.0001 def /t*b 0.0001 def /t*p 0.0001 def } if %Achromatic o* l* sub abs 0.001 le l* v* sub abs 0.001 le and %Achromatic special case {/i*p 6 def %N /e*w 0 def /n*n 1 o* sub def /w*n o* def /t*a 0.0001 def /t*b 0.0001 def /t*p 0.0001 def } if /r*n 1 w*n sub n*n sub def /t*n 1 t*p sub def %w0-line of equal relative whiteness in colour triangle: y = 0.5 / h x + yw0 %n0-line of equal relative blackness in colour triangle: y = -0.5 / h x + yn0 %x*F = (yn0 - yw0) h %y*F = 0.5 (yn0 - yw0) + yw0 = 0.5 (yn0 + yw0) /h 0.75 sqrt def /yn0 1 n*n sub def /yw0 w*n def /x*F yn0 yw0 sub h mul def /y*F yn0 yw0 add 0.5 mul def /t*F y*F def /lab*tFa t*F def /lab*cFa r*n def /lab*wFa w*n def /lab*nFa n*n def %x*F / (1-y*F) = e*x / 1 %e*w = e*x /(2h) = [x*F / (1-y*F)]/(2h) %/e*w x*F 1 y*F sub div 2 h mul div def /e*w r*n n*n r*n add 0.0001 add div def %Eigencolor ratio r*n abs 0.001 le r*n abs 0.001 le and {/e*w 0.0001 def} if % with 0 for achromatic (c*n=0) and 1 for whitish colors (n*n=0) %cmyolv*_to_cmy* /c* 1 o* sub def /m* 1 l* sub def /y* 1 v* sub def %cmyolv*_to_LAB*LFs0 %L*Fs0 = w*n wLAB*s0 (0) + n*n nLAB*s0 (0) + t*a array1(0) + t*b array2(0) %A*Fs0 = w*n wLAB*s0 (1) + n*n nLAB*s0 (1) + t*a array1(1) + t*b array2(1) %B*Fs0 = w*n wLAB*s0 (2) + n*n nLAB*s0 (2) + t*a array1(2) + t*b array2(2) /L*Fs0 w*n wLAB*s0 0 get mul n*n nLAB*s0 0 get mul add t*a array1 0 get mul add t*b array2 0 get mul add def /A*Fs0 w*n wLAB*s0 1 get mul n*n nLAB*s0 1 get mul add t*a array1 1 get mul add t*b array2 1 get mul add def /B*Fs0 w*n wLAB*s0 2 get mul n*n nLAB*s0 2 get mul add t*a array1 2 get mul add t*b array2 2 get mul add def /L*Fsm t*a array1 0 get mul t*b array2 0 get mul add L*Nio add def %LAB*Fs0_to_LAB*F /L*F L*Fs0 L*Nio add def /l*CIE L*F L*Nio sub L*Wio L*Nio sub 0.0001 add div def /A*F A*Fs0 A*Nio add A*Dio l*CIE mul add def /B*F B*Fs0 B*Nio add B*Dio l*CIE mul add def /lab*lFa l*CIE def /LAB*LF L*F def /LAB*AF A*F def /LAB*BF B*F def /LAB*LFa L*F def /LAB*AFa A*Fs0 def /LAB*BFa B*Fs0 def %FOR CIELAB LCH /C*Fs0 A*Fs0 dup mul B*Fs0 dup mul add 0.000001 add sqrt def /H*Fs0 B*Fs0 A*Fs0 0.0001 add atan def /LAB*CFa C*Fs0 def /LAB*HFa H*Fs0 def /lab*hFa LAB*HFa 360 div def } bind def %END Procedure transfer cmyolv*io_to_LAB*ioL %*************************************************************** /LAB*io_to_cmyolv*ioL {%BEG Procedure LAB*io_to_cmyolv*ioL /B*F exch def /A*F exch def /L*F exch def /l*CIE L*F L*Nio sub L*Wio L*Nio sub 0.0001 add div def /L*Fs0 L*F L*Nio sub def /A*Fs0 A*F A*Nio sub A*Dio l*CIE mul sub def /B*Fs0 B*F B*Nio sub B*Dio l*CIE mul sub def /C*Fs0 A*Fs0 dup mul B*Fs0 dup mul add 0.000001 add sqrt def /H*Fs0 B*Fs0 A*Fs0 0.0001 add atan def /LAB*LF L*F def /LAB*AF A*F def /LAB*BF B*F def /LAB*LFa L*F def /LAB*AFa A*Fs0 def /LAB*BFa B*Fs0 def % the angle formed by the input LAB* *color data in the A*B* plane /col_ang B*Fs0 A*Fs0 0.0001 add atan def %determine which two colours the LAB* *color data corresponds to %by testing the angles and solve the related four simultaneous equations %to find the olv *color data. % angle between magenta red and orange red, sector M-O of M-Y, M>=Y col_ang M*Ang ge col_ang O*Ang lt or {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 mLAB*s0 0 get mLAB*s0 1 get mLAB*s0 2 get 1 oLAB*s0 0 get oLAB*s0 1 get oLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %O /c2*w exch def %M /n*w exch def /w*w exch def %magenta is a mixture of orange red and voilet blue, therefore leaf green(l) = white, %orange(o) = 1-black(n), voilet blue(v) = white + magenta red (c2*w) /v*n w*w c2*w add def % /l*n w*w def /o*n 1 n*w sub def /i*p 2 def /t*p v*n v*n o*n add 0.0001 add div def } if % angle between orange red and yellow, sector O-Y of M-Y, Y>=M col_ang O*Ang ge col_ang Y*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 oLAB*s0 0 get oLAB*s0 1 get oLAB*s0 2 get 1 yLAB*s0 0 get yLAB*s0 1 get yLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %Y /c2*w exch def %O /n*w exch def /w*w exch def %yellow is a mixture of orange red and leaf green, therefore voilet blue(v) = white, %orange(o) = 1-black(n), leaf green(l) = white + yellow (c1*w) /l*n w*w c1*w add def /v*n w*w def /o*n 1 n*w sub def /i*p 3 def /t*p l*n l*n o*n add 0.0001 add div def } if % angle between yellow and leaf green, sector Y-L of Y-C, Y>=C col_ang Y*Ang ge col_ang L*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 yLAB*s0 0 get yLAB*s0 1 get yLAB*s0 2 get 1 lLAB*s0 0 get lLAB*s0 1 get lLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %L /c2*w exch def %Y /n*w exch def /w*w exch def %yellow is a mixture of orange red and leaf green, therefore voilet blue(v) = white , %leaf green(l) = 1-black(n), orange red(o) = white + yellow (c2*w) /v*n w*w def /l*n 1 n*w sub def /o*n w*w c2*w add def /i*p 4 def /t*p o*n o*n l*n add 0.0001 add div def } if % angle between leaf green and cyan blue, sector L-C of Y-C, C>=Y col_ang L*Ang ge col_ang C*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 lLAB*s0 0 get lLAB*s0 1 get lLAB*s0 2 get 1 cLAB*s0 0 get cLAB*s0 1 get cLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %C /c2*w exch def %L /n*w exch def /w*w exch def %cyan is a mixture of leaf green and voilet blue, therefore orange red(o) = white, %leaf green(l) = 1-black(n), voilet blue(v) = white + cyan blue (c1*w) /v*n w*w c1*w add def /l*n 1 n*w sub def /o*n w*w def /i*p 5 def /t*p v*n v*n l*n add 0.0001 add div def } if % angle between cyan blue and voilet blue, sector C-V of C-M, C>=M col_ang C*Ang ge col_ang V*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 cLAB*s0 0 get cLAB*s0 1 get cLAB*s0 2 get 1 vLAB*s0 0 get vLAB*s0 1 get vLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %V /c2*w exch def %C /n*w exch def /w*w exch def %cyan is a mixture of leaf green and voilet blue, therefore orange red(o) = white, %violet blue(v) = 1-black(n), leaf green(l) = white + cyan blue (c2*w) /v*n 1 n*w sub def /l*n w*w c2*w add def /o*n w*w def /i*p 0 def /t*p l*n l*n v*n add 0.0001 add div def } if % angle between voilet blue and magenta red, sector V-M of C-M, M>=C col_ang V*Ang ge col_ang M*Ang lt and {1 wLAB*s0 0 get wLAB*s0 1 get wLAB*s0 2 get 1 nLAB*s0 0 get nLAB*s0 1 get nLAB*s0 2 get 1 vLAB*s0 0 get vLAB*s0 1 get vLAB*s0 2 get 1 mLAB*s0 0 get mLAB*s0 1 get mLAB*s0 2 get 1 L*Fs0 A*Fs0 B*Fs0 CoeffprocL /c1*w exch def %M /c2*w exch def %V /n*w exch def /w*w exch def %magenta is a mixture of orange red and voilet blue, therefore leaf green(l) = white, %violet(o) = 1-black(n), orange red(o) = white + magenta red (c1*w) /v*n 1 n*w sub def /l*n w*w def /o*n w*w c1*w add def /i*p 1 def /t*p o*n o*n v*n add 0.0001 add div def } if %achromatic %W: o*n, l*n, v*n = 1.00 1.0 o*n sub abs 0.001 le 1.0 l*n sub abs 0.001 le and 1.0 v*n sub abs 0.001 le and %W special case {/i*p 6 def %W /e*w 0 def /n*n 0 def /w*n 1 def /t*p 0.0001 def } if %N: o*n, l*n, v*n <= 0.01 o*n abs 0.001 le l*n abs 0.001 le and v*n abs 0.001 le and %N special case {/i*p 6 def %N /e*w 0 def /n*n 1 def /w*n 0 def /t*p 0.0001 def } if %Achromatic o*n l*n sub abs 0.001 le l*n v*n sub abs 0.001 le and %Achromatic special case {/i*p 6 def %N /e*w 0 def /n*n o*n def /w*n 1 o*n sub def /t*p 0.0001 def } if /c*w 1 o*n sub def /m*w 1 l*n sub def /y*w 1 v*n sub def /t*n 1 t*p sub def /r*w 1 n*w sub w*w sub def %Ostwald equation for radial chromaticness: %with r*w=radial chromaticness, n*w=blackness, w*w=whiteness /t*w 1 n*w sub r*w 0.5 mul add def %triangle lightness /e*w r*w n*w r*w add 0.0001 add div def %Eigencolor ratio r*w abs 0.001 le r*w abs 0.001 le and {/e*w 0.0001 def} if % with 0 for achromatic (c*w=0) and 1 for whitish colors (n*w=0) /lab*rFa r*w def %/lab*tFa t*w def /h1* (-) def /h2* (-) def /H 0 def /H1* (-) def /H2* (-) def /H 0 def /IEND 0 def col_ang R*Ang gt col_ang J*Ang le and {/H* col_ang R*Ang sub J*Ang R*Ang sub div def /p*F 0.00 H* 0.25 mul add def /h1* (r) def /h2* (j) def /H1* (R) def /H2* (J) def /HM* R*Ang def /HP* J*Ang def /IEND 1 def} if col_ang J*Ang gt col_ang G*Ang le and {/H* col_ang J*Ang sub G*Ang J*Ang sub div def /p*F 0.25 H* 0.25 mul add def /h1* (j) def /h2* (g) def /H1* (J) def /H2* (G) def /HM* J*Ang def /HP* G*Ang def /IEND 1 def} if col_ang G*Ang gt col_ang B*Ang le and {/H* col_ang G*Ang sub B*Ang G*Ang sub div def /p*F 0.50 H* 0.25 mul add def /h1* (g) def /h2* (b) def /H1* (G) def /H2* (B) def /HM* G*Ang def /HP* B*Ang def /IEND 1 def} if col_ang R*Ang le IEND 0 eq and {/Pcol_ang col_ang 360 add def} {/Pcol_ang col_ang def} ifelse Pcol_ang B*Ang gt Pcol_ang R*Ang 360 add le and {/H* Pcol_ang B*Ang sub R*Ang 360 add B*Ang sub div def /p*F 0.75 H* 0.25 mul add def /h1* (b) def /h2* (r) def /H1* (B) def /H2* (R) def /HM* B*Ang def /HP* R*Ang 360 add def} if /lab*e1Fa h1* def /lab*EFa H* def /lab*e2Fa h2* def /lab*eFa p*F def /CIEF 100 88.60 div def /X* {L*F 16 add 116 div A*Fs0 500 div add } bind def /Y* {L*F 16 add 116 div } bind def /Z* {L*F 16 add 116 div B*Fs0 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 /XCIE {X* DecodeXYZ* 0.9505 mul} bind def /YCIE {Y* DecodeXYZ* } bind def /ZCIE {Z* DecodeXYZ* 1.0890 mul} bind def /XCIE1 {X* DecodeXYZ* 0.9505 mul CIEF mul} bind def /YCIE1 {Y* DecodeXYZ* CIEF mul} bind def /ZCIE1 {Z* DecodeXYZ* 1.0890 mul CIEF mul} bind def %Transformation X Y Z to RsRGB, GsRGB, BsRGB /RsRGB XCIE1 3.2406 mul YCIE1 -1.5372 mul add ZCIE1 -0.4986 mul add def /GsRGB XCIE1 -0.9686 mul YCIE1 1.8758 mul add ZCIE1 0.0415 mul add def /BsRGB XCIE1 0.0557 mul YCIE1 -0.2040 mul add ZCIE1 1.0570 mul add def /Slope 1.0 2.4 div def RsRGB 0.00313008 le {/R'sRGB RsRGB 12.92 mul def} {/R'sRGB RsRGB Slope exp 1.055 mul 0.055 sub def} ifelse GsRGB 0.00313008 le {/G'sRGB GsRGB 12.92 mul def} {/G'sRGB GsRGB Slope exp 1.055 mul 0.055 sub def} ifelse BsRGB 0.00313008 le {/B'sRGB BsRGB 12.92 mul def} {/B'sRGB BsRGB Slope exp 1.055 mul 0.055 sub def} ifelse c*w m*w y*w 0 %default output data definition } bind def %END Procedure LAB*io_to_cmyolv*ioL %*************************************************************** /ouTab*ioL {%BEG Procedure ouTab*ioL /Fontsize 152 Tabfakt mul def /TN {Fontsize /Times-ISOL1 FS} def /TI {Fontsize /TimesI-ISOL1 FS} def /TB {Fontsize /TimesB-ISOL1 FS} def /TBI {Fontsize /TimesBI-ISOL1 FS} def 0 0 0 setrgbcolor /o* r def /l* g def /v* b def %olv*, cmy* /yTABm ya ys 0.81 mul add def /yTABd 132 Tabfakt mul def /yTABx yTABm yTABd 1 mul sub def /yTAB0 yTABm yTABd 2 mul sub def /yTAB1 yTABm yTABd 3 mul sub def /yTAB2 yTABm yTABd 4 mul sub def /yTAB3 yTABm yTABd 5.1 mul sub def /yTAB4 yTABm yTABd 6.1 mul sub def /yTABn yTABm yTABd 7.1 mul sub def /yTAB5 yTABm yTABd 8.1 mul sub def /yTAB6 yTABm yTABd 9.2 mul sub def /yTAB7 yTABm yTABd 10.2 mul sub def /yTAB8 yTABm yTABd 11.2 mul sub def /yTAB9 yTABm yTABd 12.2 mul sub def /yTAB10 yTABm yTABd 13.3 mul sub def /yTAB11 yTABm yTABd 14.3 mul sub def /yTAB12 yTABm yTABd 15.2 mul sub def /yTAB13 yTABm yTABd 16.1 mul sub def /xTABm xa xs 0.84 mul sub def /xTABd 500 Tabfakt mul def /xTAB10 xTABm xTABd 1.15 mul add def /xTAB20 xTABm xTABd 2.00 mul add def /xTAB30 xTABm xTABd 2.85 mul add def /xTAB40 xTABm xTABd 3.70 mul add def /xTAB1 xTABm xTABd 1.60 mul add def /xTAB2 xTABm xTABd 2.55 mul add def /xTAB3 xTABm xTABd 3.50 mul add def /o3*Fa o* def /l3*Fa l* def /v3*Fa v* def xTABm yTABm moveto TBI (relative ) show TB (Inform. Technology (IT)) show xTABm yTABx moveto TI (olvi3*) show TN xTAB10 yTABx moveto o3*Fa cvsshow3 xTAB20 yTABx moveto l3*Fa cvsshow3 xTAB30 yTABx moveto v3*Fa cvsshow3 xTAB40 yTABx moveto ((1.0)) show /c3*Fa 1 o3*Fa sub def /m3*Fa 1 l3*Fa sub def /y3*Fa 1 v3*Fa sub def xTABm yTAB0 moveto TI (cmyn3*) show TN xTAB10 yTAB0 moveto c3*Fa cvsshow3 xTAB20 yTAB0 moveto m3*Fa cvsshow3 xTAB30 yTAB0 moveto y3*Fa cvsshow3 xTAB40 yTAB0 moveto ((0.0)) show LAB*ioL /c* c3*Fa def /m* m3*Fa def /y* y3*Fa def /n* 0.0 def /o* 1 c* sub def /l* 1 m* sub def /v* 1 y* sub def cmyolv*io_to_LAB*ioL xTABm yTAB3 moveto TBI (standard ) show TB (and ) show TBI (adapted ) show TB (CIELAB) show xTABm yTAB4 moveto TI (LAB*LAB) show TN xTAB1 yTAB4 moveto LAB*LF cvsshow2 xTAB2 yTAB4 moveto LAB*AF cvsshow2 xTAB3 yTAB4 moveto LAB*BF cvsshow2 xTABm yTABn moveto TI (LAB*LABa) show TN xTAB1 yTABn moveto LAB*LFa cvsshow2 xTAB2 yTABn moveto LAB*AFa cvsshow2 xTAB3 yTABn moveto LAB*BFa cvsshow2 xTABm yTAB5 moveto TI (LAB*TCHa) show TN xTAB1 yTAB5 moveto lab*tFa 100 mul cvsshow2 xTAB2 yTAB5 moveto LAB*CFa cvsshow2 xTAB3 yTAB5 moveto LAB*CFa 1.0 ge {LAB*HFa cvsshow2} {( -) show} ifelse L*F A*F B*F LAB*io_to_cmyolv*ioL %lab relative CIELAB /c4*Fa c3*Fa lab*nFa sub def %at least one of cmy will be cero /m4*Fa m3*Fa lab*nFa sub def /y4*Fa y3*Fa lab*nFa sub def /n4*Fa lab*nFa def /o4*Fa 1 c4*Fa sub def /l4*Fa 1 m4*Fa sub def /v4*Fa 1 y4*Fa sub def /i4*Fa 1 n4*Fa sub def colorm 0 eq {xTABm yTAB1 moveto TI (olvi4*) show TN xTAB10 yTAB1 moveto o4*Fa cvsshow3 xTAB20 yTAB1 moveto l4*Fa cvsshow3 xTAB30 yTAB1 moveto v4*Fa cvsshow3 xTAB40 yTAB1 moveto i4*Fa cvsshow3 xTABm yTAB2 moveto TI (cmyn4*) show TN xTAB10 yTAB2 moveto c4*Fa cvsshow3 xTAB20 yTAB2 moveto m4*Fa cvsshow3 xTAB30 yTAB2 moveto y4*Fa cvsshow3 xTAB40 yTAB2 moveto n4*Fa cvsshow3 } if colorm 1 eq {1 0 0 setrgbcolor xTABm yTAB1 moveto TI (olvi3*') show TN xTAB10 yTAB1 moveto o*sTab cvsshow3 xTAB20 yTAB1 moveto l*sTab cvsshow3 xTAB30 yTAB1 moveto v*sTab cvsshow3 xTAB40 yTAB1 moveto ((1.0)) show xTABm yTAB2 moveto TI (cmyn3*') show TN xTAB10 yTAB2 moveto 1 o*sTab sub cvsshow3 xTAB20 yTAB2 moveto 1 l*sTab sub cvsshow3 xTAB30 yTAB2 moveto 1 v*sTab sub cvsshow3 xTAB40 yTAB2 moveto ((0.0)) show 0 0 0 setrgbcolor } if xTABm yTAB6 moveto TBI (relative ) show TB (CIELAB ) show TBI (lab*) show xTABm yTAB7 moveto TI (lab*lab) show TN xTAB1 yTAB7 moveto lab*lFa cvsshow3 /lab*aFa lab*cFa LAB*HFa cos mul def /lab*bFa lab*cFa LAB*HFa sin mul def xTAB2 yTAB7 moveto lab*aFa cvsshow3 xTAB3 yTAB7 moveto lab*bFa cvsshow3 xTABm yTAB8 moveto TI (lab*tch) show TN xTAB1 yTAB8 moveto lab*tFa cvsshow3 xTAB2 yTAB8 moveto lab*cFa cvsshow3 xTAB3 yTAB8 moveto lab*cFa 0.01 ge {lab*hFa cvsshow3} {( -) show} ifelse xTABm yTAB9 moveto TI (lab*nch) show TN xTAB1 yTAB9 moveto lab*nFa cvsshow3 xTAB2 yTAB9 moveto lab*cFa cvsshow3 xTAB3 yTAB9 moveto lab*cFa 0.01 ge {lab*hFa cvsshow3} {( -) show} ifelse %lab*lrj,tce,ncE: similar to NCS xTABm yTAB10 moveto TBI (relative ) show TB (Natural Colour (NC)) show xTABm yTAB11 moveto TI (lab*lrj) show TN xTAB1 yTAB11 moveto lab*lFa cvsshow3 /lab*rFa lab*cFa lab*eFa 360 mul cos mul def /lab*jFa lab*cFa lab*eFa 360 mul sin mul def xTAB2 yTAB11 moveto lab*rFa cvsshow3 xTAB3 yTAB11 moveto lab*jFa cvsshow3 xTABm yTAB12 moveto TI (lab*tce) show TN xTAB1 yTAB12 moveto lab*tFa cvsshow3 xTAB2 yTAB12 moveto lab*cFa cvsshow3 xTAB3 yTAB12 moveto lab*cFa 0.01 ge {lab*eFa cvsshow3}{( -) show} ifelse xTABm yTAB13 moveto TI (lab*ncE) show TN xTAB1 yTAB13 moveto lab*nFa cvsshow3 xTAB2 yTAB13 moveto lab*cFa cvsshow3 xTAB3 yTAB13 moveto lab*cFa 0.01 ge {lab*e1Fa show lab*EFa 100 mul truncate cvi dup 10 lt {(0) show } if 6 string cvs show lab*e2Fa show} {( -) show} ifelse } bind def %END Procedure ouTab*ioL %*************************************************************** /ouCal*ioL {%BEG Procedure ouCal*ioL /v* exch def /l* exch def /o* exch def /o3*Fa o* def /l3*Fa l* def /v3*Fa v* def /c3*Fa 1 o3*Fa sub def /m3*Fa 1 l3*Fa sub def /y3*Fa 1 v3*Fa sub def LAB*ioL /c* c3*Fa def /m* m3*Fa def /y* y3*Fa def /n* 0.0 def /o* 1 c* sub def /l* 1 m* sub def /v* 1 y* sub def cmyolv*io_to_LAB*ioL L*F A*F B*F LAB*io_to_cmyolv*ioL %lab relative CIELAB /c4*Fa c3*Fa lab*nFa sub def %at least one of cmy will be cero /m4*Fa m3*Fa lab*nFa sub def /y4*Fa y3*Fa lab*nFa sub def /n4*Fa lab*nFa def /o4*Fa 1 c4*Fa sub def /l4*Fa 1 m4*Fa sub def /v4*Fa 1 y4*Fa sub def /i4*Fa 1 n4*Fa sub def } bind def %END Procedure ouCal*ioL %*************************************************************** /proc_LAB*Fa_LAB*MaNTABl_olvi3*cmyn3*Ma*ioL { %BEG procedure proc_LAB*Fa_LAB*MaNTABl_olvi3*cmyn3*Ma*ioL %only for calculation without hue tables %input LAB*Fa %input LAB*a (6 adapted colours OYLCVM) %input nLAB*s0 (colour white N for calculation of lab*l) %input wLAB*s0 (colour white W for achromatic axis) %output LAB*Ma %output olvi3*Ma %output cmyn3*Ma /UXF1a wLAB*s0 1 get B*Fa mul wLAB*s0 2 get A*Fa mul sub def /UXF2a wLAB*s0 2 get L*Fa mul wLAB*s0 0 get B*Fa mul sub def /UXF3a wLAB*s0 0 get A*Fa mul wLAB*s0 1 get L*Fa mul sub def /T1 0 def /T2 0 def 0 1 5 {/ia exch def /ia30 ia 3 mul def ia 5 eq {/ia31 0 def} {/ia31 ia30 3 add def} ifelse /T1 LAB*a ia30 get UXF1a mul LAB*a ia30 1 add get UXF2a mul add LAB*a ia30 2 add get UXF3a mul add def /T2 LAB*a ia31 get UXF1a mul LAB*a ia31 1 add get UXF2a mul add LAB*a ia31 2 add get UXF3a mul add def T1 0 le {/T1X (N) def} {/T1X (P) def} ifelse T2 0 gt {/T2X (P) def} {/T2X (N) def} ifelse T1 0 le T2 0 gt and {/ia3END ia30 def exit} if } for /L*11a LAB*a ia3END get def /A*11a LAB*a ia3END 1 add get def /B*11a LAB*a ia3END 2 add get def ia3END 15 ge {/ia3END -3 def} if /L*21a LAB*a ia3END 3 add get def /A*21a LAB*a ia3END 4 add get def /B*21a LAB*a ia3END 5 add get def /NENNER L*21a L*11a sub UXF1a mul A*21a A*11a sub UXF2a mul add B*21a B*11a sub UXF3a mul add def /ZAEHLE L*21a UXF1a mul A*21a UXF2a mul add B*21a UXF3a mul add def NENNER 0 ne {/ALPH ZAEHLE NENNER div def} {/ALPH 99999} ifelse /L*Ma ALPH L*11a mul 1 ALPH sub L*21a mul add def /A*Ma ALPH A*11a mul 1 ALPH sub A*21a mul add def /B*Ma ALPH B*11a mul 1 ALPH sub B*21a mul add def /C*Ma A*Ma dup mul B*Ma dup mul add 0.000001 add sqrt def /H*Ma B*Ma A*Ma 0.0001 add atan def /ia30 ia 3 mul def /iap 1 ALPH sub def /iam ALPH def ia 0 eq {/c3*Ma 0 def %L, c*=0, sector O->Y /m3*Ma iam def %L, m*=1->0 /y3*Ma 1 def %L, y*=1 } if ia 1 eq {/c3*Ma iap def %L, c*=0->1, sector Y->L /m3*Ma 0 def %L, m*=0 /y3*Ma 1 def %L, y*=1 } if ia 2 eq {/c3*Ma 1 def %L, c*=1, sector L->C /m3*Ma 0 def %L, m*=0 /y3*Ma iam def %L, y*=1->0 } if ia 3 eq {/c3*Ma 1 def %L, c*=1, sector C->V /m3*Ma iap def %L, m*=1->0 /y3*Ma 0 def %L, y*=0 } if ia 4 eq {/c3*Ma iam def %L, c*=1->0, sector V->M /m3*Ma 1 def %L, m*=1 /y3*Ma 0 def %L, y*=0 } if ia 5 eq {/c3*Ma 0 def %L, c*=0, sector M->O /m3*Ma 1 def %L, m*=1 /y3*Ma iap def %L, y*=0->1 } if /o3*Ma 1 c3*Ma sub def /l3*Ma 1 m3*Ma sub def /v3*Ma 1 y3*Ma sub def /i3*Ma 1 def /lab*nMa 0.00 def /lab*cMa 1.00 def /lab*wMa 0.00 def /lab*tMa 0.50 def /lab*hMa H*Ma 360 div def /lab*lMa L*Ma nLAB*s0 0 get sub wLAB*s0 0 get nLAB*s0 0 get sub 0.000001 add div def } bind def %END procedure proc_LAB*Fa_LAB*MaNTABl_olvi3*cmyn3*Ma*ioL %******************************************************************* /trans_rgb3*_cmyn4*ioL {%BEG Procedure trans_rgb3*_cmyn4*ioL %assumes input of olv* o* 0 le {/o* 0.0000 def} if l* 0 le {/l* 0.0000 def} if v* 0 le {/v* 0.0000 def} if o* 1 ge {/o* 1.0000 def} if l* 1 ge {/l* 1.0000 def} if v* 1 ge {/v* 1.0000 def} if /tdel 0 def v* l* ge l* o* ge and tdel 0 eq and % v* >= l* >= o* equal y* <= m* <= c* %sector C-V of C-M, C>=M: i*p=0 {/n*n 1 v* sub def /w*w o* def /tdel 1 def } if % v* >= l* >= o* v* o* ge o* l* ge and tdel 0 eq and % v* >= o* >= l* equal y* <= c* <= m* %sector V-M of C-M, M>=C: i*p=1 {/n*n 1 v* sub def /w*w l* def /tdel 1 def } if % v* >= o* >= l* o* v* ge v* l* ge and tdel 0 eq and % o* >= v* >= l* equal c* <= y* <= m* %sector M-O of M-Y, M>=Y: i*p=2 {/n*n 1 o* sub def /w*w l* def /tdel 1 def } if % o* >= v* >= l* o* l* ge l* v* ge and tdel 0 eq and % o* >= l* >= v* equal c* <= m* <= y* %sector O-Y of M-Y, Y>=M: i*p=3 {/n*n 1 o* sub def /w*w v* def /tdel 1 def } if % o* >= l* >= v* l* o* ge o* v* ge and tdel 0 eq and % l* >= o* >= v* equal m* <= c* <= y* %sector Y-L of Y-C, Y>=C: i*p=4 {/n*n 1 l* sub def /w*w v* def /tdel 1 def } if % l* >= o* >= v* l* v* ge v* o* ge and tdel 0 eq and % l* >= v* >= o* equal m* <= y* <= c* %sector L-C of Y-C, C>=Y: i*p=5 {/n*n 1 l* sub def /w*w o* def /tdel 1 def } if % l* >= v* >= o* %achromatic %W: o*, l*, v* = 1.00 1.0 o* sub abs 0.001 le 1.0 l* sub abs 0.001 le and 1.0 v* sub abs 0.001 le and %W special case {/n*n 0 def /w*w 1 def %W } if %N: o*, l*, v* <= 0.001 o* abs 0.001 le l* abs 0.001 le and v* abs 0.001 le and %N special case {/n*n 1 def /w*w 0 def %N } if %Achromatic o* l* sub abs 0.001 le l* v* sub abs 0.001 le and %Achromatic special case {/n*n 1 o* sub def /w*w o* def %grey } if /lab*wFa w*w def /lab*nFa n*n def /c3*Fa 1 o* sub def /m3*Fa 1 l* sub def /y3*Fa 1 v* sub def /c4*Fa c3*Fa lab*nFa sub def %at least one of cmy will be cero /m4*Fa m3*Fa lab*nFa sub def /y4*Fa y3*Fa lab*nFa sub def /n4*Fa lab*nFa def /o4*Fa 1 c4*Fa sub def /l4*Fa 1 m4*Fa sub def /v4*Fa 1 y4*Fa sub def /i4*Fa 1 n4*Fa sub def } def %END Procedure trans_rgb3*_cmyn4*ioL %********************************************************************* /ColSepL {%BEG Procedure ColSepL ColourSeparation for NP-file 20071001 /proz1 {pop} bind def /setgc {pop pop pop 1 exch sub slgray} bind def /setgm {pop pop 1 exch sub slgray pop} bind def /setgy {pop 1 exch sub slgray pop pop} bind def /setgn {1 exch sub slgray pop pop pop} bind def /setgf {/ncolor exch def /ycolor exch def /mcolor exch def /ccolor exch def 0 ccolor eq 0 mcolor eq and 0 ycolor eq and {1 ncolor sub slgray} {1 ccolor sub 0.71 mul 1 mcolor sub 0.22 mul add 1 ycolor sub 0.07 mul add slgray} ifelse } bind def %/setsc {075 135 {proz1} setscreen } bind def %/setsm {075 090 {proz1} setscreen } bind def %/setsy {075 000 {proz1} setscreen } bind def %/setsn {075 045 {proz1} setscreen } bind def %/setsf {075 135 {proz1} 075 090 {proz1} 075 000 {proz1} % 075 045 {proz1} setcolorscreen } bind def /setsc { } bind def /setsm { } bind def /setsy { } bind def /setsn { } bind def /setsf { } bind def /setcmykcolorf { slcmykcolor setsf} bind def %fuer PSL1/2-Farbgeraet %ANFA HALBTON /Halbt { %wrbie:HALBTOA0.eps } bind def %ANFA SETCMYK /setcmyknew { %Ersatz setcolornew durch setcmykcolor1 ausz 1 eq {setgc half 0 eq {setsc} if} if %C ausz 2 eq {setgm half 0 eq {setsm} if} if %M ausz 3 eq {setgy half 0 eq {setsy} if} if %Y ausz 4 eq {pop pop pop /ccolor exch def ccolor 0 0 0 /setcmykcolor where %Abfrage Farb-/SW-Geraet {pop setcmykcolorf} %PSL1/2-Farb-Geraet {setgc setsc} %PSL1-SW-Geraet ifelse } if %Cbunt ausz 5 eq {pop pop /mcolor exch def pop 0 mcolor 0 0 /setcmykcolor where %Abfrage Farb-/SW-Geraet {pop setcmykcolorf} %PSL1/2-Farb-Geraet {setgm setsm} %PSL1-SW-Geraet ifelse } if %Mbunt ausz 6 eq {pop /ycolor exch def pop pop 0 0 ycolor 0 /setcmykcolor where %Abfrage Farb-/SW-Geraet {pop setcmykcolorf} %PSL1/2-Farb-Geraet {setgy setsy} %PSL1-SW-Geraet ifelse } if %Ybunt ausz 7 eq {setgn half 0 eq {setsn} if} if %N ausz 8 ge { /setcmykcolor where %Abfrage Farb-/SW-Geraet {pop setcmykcolorf} %PSL1/2-Farb-Geraet {setgf setsn} %PSL1-SW-Geraet ifelse } if %bei ausz=8: Farb- oder SW-Ausdruck je nach Drucker } bind def %********************************************************************* xcharti 1 ge {%xcharti>=1 COLM559LT.PS cmyn5* special for Table output colorm 0 eq {%BEG colorm=0 with change of olv* by white (1-VisTol*ioL x 100%) /olvtrans 0 def %no change of olv* to olvk* /setrgbcolor {/b exch def /g exch def /r exch def /o* r def /l* g def /v* b def /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioL %produces cmyn5*ioL as output /c7*Fa 1 m4*Fa sub def /m7*Fa 1 m4*Fa sub def /y7*Fa 1 y4*Fa sub def /n7*Fa 1 n4*Fa sub def c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def /setgray {/w*w exch def /b w*w def /g w*w def /r w*w def /o* r def /l* g def /v* b def /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioL %produces cmyn5*ioL as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def /setcmykcolor {/n*n exch def /y*n exch def /m*n exch def /c*n exch def %standard cmy0* or 000n* for input n*n 0 eq {/r 1 c*n sub def /g 1 m*n sub def /b 1 y*n sub def} {/r 1 n*n sub def /g 1 n*n sub def /b 1 n*n sub def} ifelse /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /o* r def /l* g def /v* b def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioL %produces cmyn5*ioL as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def }%END colorm=0 {%BEG colorm=1 /olvtrans 0 def %no change of olv* /setrgbcolor {/b exch def /g exch def /r exch def /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /IMODE 0 def r g b ouCal*ioL /c8*Fa L*F def /m8*Fa A*F def /y8*Fa B*F def /n8*Fa 0 def /c6*Fa LAB*LFa def /m6*Fa LAB*AFa def /y6*Fa LAB*BFa def /n6*Fa 0 def LAB*LFa LAB*AFa LAB*BFa Lab2RGBinterpolation /v* exch def /l* exch def /o* exch def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioL %produces cmyn5*ioL as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def /setgray {/w*w exch def /b w*w def /g w*w def /r w*w def /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /IMODE 0 def r g b ouCal*ioL LAB*LFa LAB*AFa LAB*BFa Lab2RGBinterpolation /v* exch def /l* exch def /o* exch def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioL %produces cmyn5*ioL as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def /setcmykcolor {/n*n exch def /y*n exch def /m*n exch def /c*n exch def %standard cmy0* or 000n* for input n*n 0 eq {/r 1 c*n sub def /g 1 m*n sub def /b 1 y*n sub def} {/r 1 n*n sub def /g 1 n*n sub def /b 1 n*n sub def} ifelse /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /IMODE 0 def r g b ouCal*ioL LAB*LFa LAB*AFa LAB*BFa Lab2RGBinterpolation /v* exch def /l* exch def /o* exch def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def %needs olv* for input trans_rgb3*_cmyn5*ioL %produces cmyn5*ioL as output c4*Fa m4*Fa y4*Fa n4*Fa setcmyknew } def } ifelse %END colorm=1 }%END %xcharti>=0 {%BEG %xcharti=0 /setrgbcolor {/b exch def /g exch def /r exch def /o* r def /l* g def /v* b def /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def /c4*Fa 1 o* sub def /m4*Fa 1 l* sub def /y4*Fa 1 v* sub def /n4*Fa 0 def o* l* v* slrgbcolor } def /setgray {dup dup /b exch def /g exch def /r exch def /o* r def /l* g def /v* b def /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c8*Fa 1 o* sub def /m8*Fa 1 l* sub def /y8*Fa 1 v* sub def /n8*Fa 0 def /c6*Fa 1 ok* sub def /m6*Fa 1 lk* sub def /y6*Fa 1 vk* sub def /n6*Fa 0 def /c7*Fa o* def /m7*Fa l* def /y7*Fa v* def /n7*Fa 0 def /c4*Fa 1 o* sub def /m4*Fa 1 l* sub def /y4*Fa 1 v* sub def /n4*Fa 0 def o* slgray } def /setcmykcolor {/n*n exch def /y*n exch def /m*n exch def /c*n exch def n*n 0 eq {/o* 1 c*n sub def /l* 1 m*n sub def /v* 1 y*n sub def /n4*Fa 0 def} {/o* 1 def /l* 1 def /v* 1 def /n4*Fa n*n def} ifelse /ok* r 1 r sub 1 VisTol*ioL sub mul add def /lk* g 1 g sub 1 VisTol*ioL sub mul add def /vk* b 1 b sub 1 VisTol*ioL sub mul add def /cA*Fa r def /mA*Fa g def /yA*Fa b def /nA*Fa 0 def /c9*Fa ok* def /m9*Fa lk* def /y9*Fa vk* def /n9*Fa 0 def /c4*Fa 1 o* sub def /m4*Fa 1 l* sub def /y4*Fa 1 v* sub def %/n4*Fa see above c4*Fa m4*Fa y4*Fa n4*Fa slcmykcolor } def } ifelse %END %xcharti=0 COLM559LT.PS cmyn5* /trans_rgb3*_cmyn5*ioL {%BEG Procedure trans_rgb3*_cmyn5*ioL %assumes input of olv*, needs olvtrans=0 or 1 'zm60'CMYN559L.PS o* 0 le {/o* 0.0000 def} if l* 0 le {/l* 0.0000 def} if v* 0 le {/v* 0.0000 def} if o* 1 ge {/o* 1.0000 def} if l* 1 ge {/l* 1.0000 def} if v* 1 ge {/v* 1.0000 def} if olvtrans 0 eq {%olvtrans /ok* o* def /lk* l* def /vk* v* def} {/ok* o* 1 o* sub 1 VisTol*ioL sub mul add def /lk* l* 1 l* sub 1 VisTol*ioL sub mul add def /vk* v* 1 v* sub 1 VisTol*ioL sub mul add def} ifelse /tdel 0 def vk* lk* ge lk* ok* ge and tdel 0 eq and % v* >= l* >= o* equal y* <= m* <= c* %sector C-V of C-M, C>=M: i*p=0 {/n*n 1 vk* sub def /w*w ok* def /m*w lk* def /tdel 1 def /isec 3 def } if % v* >= l* >= o* vk* ok* ge ok* lk* ge and tdel 0 eq and % v* >= o* >= l* equal y* <= c* <= m* %sector V-M of C-M, M>=C: i*p=1 {/n*n 1 vk* sub def /w*w lk* def /m*w ok* def /tdel 1 def /isec 4 def } if % v* >= o* >= l* ok* vk* ge vk* lk* ge and tdel 0 eq and % o* >= v* >= l* equal c* <= y* <= m* %sector M-O of M-Y, M>=Y: i*p=2 {/n*n 1 ok* sub def /w*w lk* def /m*w vk* def /tdel 1 def /isec 5 def } if % o* >= v* >= l* ok* lk* ge lk* vk* ge and tdel 0 eq and % o* >= l* >= v* equal c* <= m* <= y* %sector O-Y of M-Y, Y>=M: i*p=3 {/n*n 1 ok* sub def /w*w vk* def /m*w lk* def /tdel 1 def /isec 0 def } if % o* >= l* >= v* lk* ok* ge ok* vk* ge and tdel 0 eq and % l* >= o* >= v* equal m* <= c* <= y* %sector Y-L of Y-C, Y>=C: i*p=4 {/n*n 1 lk* sub def /w*w vk* def /m*w ok* def /tdel 1 def /isec 1 def } if % l* >= o* >= v* lk* vk* ge vk* ok* ge and tdel 0 eq and % l* >= v* >= o* equal m* <= y* <= c* %sector L-C of Y-C, C>=Y: i*p=5 {/n*n 1 lk* sub def /w*w ok* def /m*w vk* def /tdel 1 def /isec 2 def } if % l* >= v* >= o* %achromatic %W: ok*, lk*, vk* = 1.00 1.0 ok* sub abs 0.001 le 1.0 lk* sub abs 0.001 le and 1.0 vk* sub abs 0.001 le and %W special case {/n*n 0 def /w*w 1 def /m*w 1 def %W /isec 6 def } if %N: ok*, lk*, vk* <= 0.001 ok* abs 0.001 le lk* abs 0.001 le and vk* abs 0.001 le and %N special case {/n*n 1 def /w*w 0 def /m*w 0 def %N /isec 6 def } if %Achromatic ok* lk* sub abs 0.001 le lk* vk* sub abs 0.001 le and %Achromatic special case {/n*n 1 ok* sub def /w*w ok* def /m*w ok* def %grey /isec 6 def } if /lab*wFa w*w def /lab*nFa n*n def /lab*cFa 1 n*n sub w*w sub def /argb 1 lab*nFa sub def /brgb m*w def /crgb lab*wFa def /c* lab*cFa def /lab*tFa 1 lab*nFa sub lab*cFa 0.5 mul sub def isec 6 eq {%BEG isec=6 achromatic /o*1 1 def /l*1 1 def /v*1 1 def }%END isec=6 achromatic {%BEG isec#6 chromatic /o*1 ok* argb 0.000001 add div def /l*1 lk* argb 0.000001 add div def /v*1 vk* argb 0.000001 add div def } ifelse %END isec#6 /c3*Fa 1 o*1 sub def /m3*Fa 1 l*1 sub def /y3*Fa 1 v*1 sub def /c4*Fa c3*Fa def %at least one of cmy will be cero /m4*Fa m3*Fa def /y4*Fa y3*Fa def /n4*Fa lab*nFa def /o4*Fa 1 c4*Fa sub def /l4*Fa 1 m4*Fa sub def /v4*Fa 1 y4*Fa sub def /i4*Fa 1 n4*Fa sub def } def %END Procedure trans_rgb3*_cmyn5*ioL 'zm60'CMYN559G.PS } bind def %BEG Procedure ColSepL ColourSeparation for NP-file 20071001 %*************************************************************** /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 /rem %x0, y0 width heigth {/heigth exch def /width exch def /y0 exch def /x0 exch def x0 width 0.5 mul add y0 heigth 0.5 mul add moveto width 0 rlineto 0 heigth rlineto width neg 0 rlineto closepath } bind 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 0 def /lanind2 0 def} ifelse /colormg where {pop /colorm1 colormg def /colorm2 colormg def} {/colorm1 1 def /colorm2 1 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 /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 /nr1 27 array def /tx1 52 array def /nr1 [(01) (02) (03) (04) (05) (06) (07) (08) (09) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22) (23) (24) (25) (26) (27)] 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) (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 /xchartx xchartg def} {/xchartx 4 def} ifelse /colormg where {pop /colorm colormg def} {/colorm 0 def} ifelse /xcharti xchartx def %needed for steering output in ColSep %only table %04 1 04 {/xcharti exch def %BEG xcharti=04,04 gsave 72 90 translate /xchart xcharti def /ISRL*ioL 0 def %main series ORS18 /ISRL*ioG 0 def /ISIO*ioL 0 def xcharti 0 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Figure olv,cmy0 xcharti 1 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Figure olv xcharti 2 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Table olv xcharti 3 eq {/ausz 8 def /xchartt (F) def} if %Figure cmyn5* xcharti 4 eq {/ausz 8 def /xchartt (F) def} if %Table cmyn5* xcharti 5 eq {/ausz 1 def /xchartt (Cn) def} if xcharti 6 eq {/ausz 2 def /xchartt (Mn) def} if xcharti 7 eq {/ausz 3 def /xchartt (Yn) def} if xcharti 8 eq {/ausz 7 def /xchartt (N) def} if xcharti 9 eq {/ausz 4 def /xchartt (C) def} if xcharti 10 eq {/ausz 5 def /xchartt (M) def} if xcharti 11 eq {/ausz 6 def /xchartt (Y) def} if /colormg where {pop LAB*ioG ColSepG} {LAB*ioL ColSepL} ifelse /VisTol*ioG where {pop /VisTol*ioL VisTol*ioG def} if %8 Systems OLS18(ISRL*ioL=0), TLS00(ISRL*ioL=1), OLS00(ISRL*ioL=2) /xs 900 3 div 2 mul def /ys xs def /d2 xs 2 div def /d8 xs 8 div def 0.5 dup dup setrgbcolor 8 /Times-ISOL1 FS 11 -7 moveto (XG120-7) show colorm 0 eq {(N, ) show} {(F, ) show} ifelse (Test chart with 40x27=1080 colours) showen (Pr\374fvorlage mit 40x27=1080 Farben) showde (; digital equidistant 9 or 16 step colour scales;) showen (; digital gleichabst\344ndige 9 oder 16stufige Farbreihen;) showde ( Farbdaten in Spalte (A-n):) showde ( Colour data in column (A-n):) showen ( rgb (A-j, n), 000n (k), w (l), nnn0 (m)) show (, 245mm x 170mm) show (, Page ) showen (, Seite ) showde xcharti 1 add cvishow (/9, ) show ISRL*ioL 0 eq {LAB*TE 0 get show} if ISRL*ioL 1 eq {LAB*TE 8 get show} if ISRL*ioL 2 eq {LAB*TE 16 get show} if xcharti 4 ge {665 -7 moveto 0 1 1 setrgbcolor (c) show 1 0 1 setrgbcolor (m) show 1 1 0 setrgbcolor (y) show 0 0 0 setrgbcolor (n) show colorm 1 eq {0 0 0 setrgbcolor (*) show} if } if 0.010 MM dup scale /xmin 650 3 div 2.2 mul def /ymax 15800 def /xd 800 3 div 2 mul def /yd 800 3 div 2 mul def /xsd xs xd sub 0.5 mul def /ysd xs xd sub 0.5 mul def 0.5 0.5 0.5 setrgbcolor 0 0 moveto 24500 0 rlineto 0 17000 rlineto 24500 neg 0 rlineto closepath fill 20 setlinewidth 500 3 div 2 mul /Times-ISOL1 FS 0 0 0 setrgbcolor 1 1 27 {/i exch def %i=1,27 /x xs 0.15 mul def /y 27.6 ys mul ys i mul sub def x y moveto nr1 i 1 sub get show } for %i=1,27 1 1 40 {/i exch def %i=1,36 /x xs i mul 000 add def /y 27.5 ys mul def x y moveto tx1 i 1 sub get show } for %i=1,36 /IMODE 0 def %input rgb for output LAB* %row no.1 and 2: 9xrgb /imax 08 def /jmax 08 def /kmax 08 def /TKK2 {200 3 div 2 mul /Times-ISOL1 FS} bind def TKK2 /xdat 1 def xdat 0 eq {%xdat=0 0 1 kmax {/k exch def %beg k=0,08 /k0 k 3 idiv def /k1 k k0 3 mul sub def /xadd k1 xs 9 mul mul def /yadd k0 xs 9 mul mul def 0 1 jmax {/j exch def %beg j=0,jmax 0 1 imax {/i exch def %beg i=0,imax /n i j 9 mul add k 81 mul add def /j1 j k1 9 mul add def /j1$ tx1 j1 get def /i1 i 1 add k0 9 mul add def /xa xmin j xs mul add xadd add xsd add def /ya ymax i ys mul sub yadd sub ysd add def /r k kmax div def /g j jmax div def /b i imax div def /r*x r def /g*x g def /b*x b def xchart 2 eq { %xchart=2 1 1 1 setrgbcolor xa ya xd dup rec fill 0 0 0 setrgbcolor xa ya 625 3 div 2 mul add moveto n 9 le {(000) show} if n 10 ge n 99 le and {(00) show} if n 100 ge n 999 le and {(0) show} if n cvishow ( ) show j1$ show i1 9 le {(0) show} if i1 cvishow xa ya 425 3 div 2 mul add moveto r*x cvsshow3 xa ya 225 3 div 2 mul add moveto g*x cvsshow3 xa ya 025 3 div 2 mul add moveto b*x cvsshow3 } if %xchart=2 xchart 4 eq { %xchart=4 1 1 1 setrgbcolor xa ya xd dup rec fill 0 0 0 setrgbcolor xa xd add 220 sub ya 625 3 div 2 mul add moveto j1$ show i1 9 le {(0) show} if i1 cvishow r*x g*x b*x setrgbcolor %to determine cmyn4*Fa /c*t cA*Fa def /m*t mA*Fa def %RGB /y*t yA*Fa def /n*t nA*Fa def 0 0 1 setrgbcolor xa 05 add ya 625 3 div 2 mul add moveto c*t cvsshow3 xa 05 add ya 425 3 div 2 mul add moveto m*t cvsshow3 xa 05 add ya 225 3 div 2 mul add moveto y*t cvsshow3 xa 05 add ya 025 3 div 2 mul add moveto n*t cvsshow3 } if %xchart=4 xchart 2 ne xchart 4 ne and {%xchart#2,4 r g b setrgbcolor xa ya xd dup rec fill 1 r sub 1 g sub 1 b sub 0 setcmykcolor xa ya xd 0.5 mul dup rem fill xcharti 0 eq {%xcharti=0 [100 300] 0 setdash r 0 eq g 0 eq and b 0 eq and {1 setgray} {0 setgray} ifelse xa ya xd 0.5 mul dup rem stroke [ ] 0 setdash } if %xcharti=0 } if %xchart#2,4 } for %end i=0,jmax } for %end j=0,jmax } for %end k=0,kmax } if %xdat=0 0 1 5 {/ks exch def %ks=0,5 shift %transfer 9x600=5400 ks 0 eq {-10800 0 translate} if ks 1 eq { 0 0 translate} if ks 2 eq {-10800 -5400 translate} if ks 3 eq { 0 -5400 translate} if ks 4 eq {-10800 -10800 translate} if ks 5 eq { 0 -10800 translate} if 400 3 div 2 mul /Times-ISOL1 FS 0 setgray 11500 ymax moveto ks 0 eq colorm 0 eq and {(rgb*->olv*->olvk*->cmyn*) show} if ks 0 eq colorm 1 eq and {(rgb*->LAB*a->Interpolation->olv*->cmyn*) show} if 15500 ymax 300 sub moveto ks 0 eq {(cmyn*) show} if ks 1 eq colorm 0 eq and {(1-cmyn*) show} if ks 1 eq colorm 1 eq and {(LABa*) show} if ks 2 eq {(olv*) show} if ks 3 eq colorm 0 eq and {(1-olv*) show} if ks 3 eq colorm 1 eq and {(LAB*) show} if ks 4 eq {(olvk*) show} if ks 5 eq {(rgb*) show} if /TKK2 {200 3 div 2 mul /Times-ISOL1 FS} bind def TKK2 %3x rgbcmy /id 1 8 div def /rijn 81 array def %for intermediate storage /gijn 81 array def /bijn 81 array def /lmax 0 def /n 728 def 0 1 lmax {/l exch def %beg k=0,kmax /xadd 3 xs 9 mul mul def /yadd l ys 9 mul mul def %for intermediate storage of l=0,lmax 0 1 01 {/jchart exch def %jchart=0,1 /xchartj l jchart 3 mul add def 0 1 08 {/j exch def %j=0,7 /im 8 j sub def jchart 1 im {/i exch def %i=0,8 /ia 1 id j mul sub def /argb ia def /brgb ia i id mul sub def xchartj 0 eq {/r argb def /g brgb def /b brgb def} if xchartj 1 eq {/r argb def /g argb def /b brgb def} if xchartj 2 eq {/r brgb def /g argb def /b brgb def} if xchartj 3 eq {/r brgb def /g argb def /b argb def} if xchartj 4 eq {/r brgb def /g brgb def /b argb def} if xchartj 5 eq {/r argb def /g brgb def /b argb def} if jchart 0 eq {/in i j add def /jn j def} {/in j def /jn i j add def} ifelse rijn in 9 mul jn add r put gijn in 9 mul jn add g put bijn in 9 mul jn add b put } for %i=0,7 } for %j=0,8 } for %jchart=0,1 %for output of l=0,lmax 0 1 08 {/j exch def %j=0,8 0 1 08 {/i exch def %i=0,8 /r rijn i j 9 mul add get def /g gijn i j 9 mul add get def /b bijn i j 9 mul add get def /xa xmin xs j mul add xadd add xsd add def /ya ymax xs i mul sub yadd sub ysd add def /r*x r def /g*x g def /b*x b def xchart 2 eq { %xchart=2 1 1 1 setrgbcolor xa ya xd dup rec fill 0 0 0 setrgbcolor /n n 1 add def /i1 i 1 add l 9 mul add def /j1 j 27 add def /j1$ tx1 j1 get def xa 20 add ya 625 3 div 2 mul add moveto n 9 le {(00) show} if n 10 ge n 99 le and {(0) show} if n cvishow ( ) show j1$ show i1 9 le {(0) show} if i1 cvishow xa 20 add ya 425 3 div 2 mul add moveto r*x cvsshow3 xa 20 add ya 225 3 div 2 mul add moveto g*x cvsshow3 xa 20 add ya 025 3 div 2 mul add moveto b*x cvsshow3 } if %xchart=2 xchart 4 eq { %xchart=4 1 1 1 setrgbcolor xa ya xd dup rec fill 0 0 0 setrgbcolor /n n 1 add def /i1 i 1 add l 9 mul add def /j1 j 27 add def /j1$ tx1 j1 get def xa xd add 220 sub ya 625 3 div 2 mul add moveto j1$ show i1 9 le {(0) show} if i1 cvishow r*x g*x b*x setrgbcolor %to determine cmyn4*Fa ks 0 eq {/c*t c4*Fa def} if %CMYN ks 1 eq {/c*t c6*Fa def} if %LABa ks 2 eq {/c*t c7*Fa def} if %OLV ks 3 eq {/c*t c8*Fa def} if %LAB ks 4 eq {/c*t c9*Fa def} if %OLVk ks 5 eq {/c*t cA*Fa def} if %RGB ks 0 eq {/m*t m4*Fa def} if ks 1 eq {/m*t m6*Fa def} if ks 2 eq {/m*t m7*Fa def} if ks 3 eq {/m*t m8*Fa def} if ks 4 eq {/m*t m9*Fa def} if ks 5 eq {/m*t mA*Fa def} if ks 0 eq {/y*t y4*Fa def} if ks 1 eq {/y*t y6*Fa def} if ks 2 eq {/y*t y7*Fa def} if ks 3 eq {/y*t y8*Fa def} if ks 4 eq {/y*t y9*Fa def} if ks 5 eq {/y*t yA*Fa def} if ks 0 eq {/n*t n4*Fa def} if ks 1 eq {/n*t n6*Fa def} if ks 2 eq {/n*t n7*Fa def} if ks 3 eq {/n*t n8*Fa def} if ks 4 eq {/n*t n9*Fa def} if ks 5 eq {/n*t nA*Fa def} if 0 0 1 setrgbcolor /xts 05 def xa xts add ya 625 3 div 2 mul add moveto c*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 425 3 div 2 mul add moveto m*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 225 3 div 2 mul add moveto y*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 025 3 div 2 mul add moveto n*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse } if xchart 2 ne xchart 4 ne and {%xchart#2,4 r g b setrgbcolor xa ya xd dup rec fill 1 r sub 1 g sub 1 b sub 0 setcmykcolor xa ya xd 0.5 mul dup rem fill xcharti 0 eq {%xcharti=0 [100 300] 0 setdash r 0 eq g 0 eq and b 0 eq and {1 setgray} {0 setgray} ifelse xa ya xd 0.5 mul dup rem stroke [ ] 0 setdash } if %xcharti=0 } if %xchart#2,4 } for %i=0,7 } for %j=0,8 } for %end l=0,lmax %6wrgbcmy /n 971 /lmax 03 def %4 rows with geys /kmax 1 def %9 or 16 steps 0 1 0 {/k exch def % k 0 eq {/jmax 08 def} {/jmax 15 def} ifelse 0 1 lmax {/l exch def %beg l=0,lmax /xadd 36 l add xs mul def /yadd k 9 xs mul mul def /j1 l 36 add def /j1$ tx1 j1 get def 0 1 jmax {/j exch def %j=0,08 /n n 1 add def /i1 j k 9 mul add 1 add def %9 steps, 16 steps /argb j jmax div def /xa xmin xadd add xsd add def /ya ymax xs j mul sub yadd sub ysd add def /r*x argb def /g*x argb def /b*x argb def l 0 eq {0 0 0 1 argb sub setcmykcolor} if l 1 eq {argb setgray} if l 2 eq {1 argb sub dup dup 0 setcmykcolor} if l 3 eq {argb dup dup setrgbcolor} if xchart 2 eq { %xchart=2 1 1 1 setrgbcolor xa ya xd dup rec fill 0 0 0 setrgbcolor xa ya 625 3 div 2 mul add moveto n 9 le {(000) show} if n 10 ge n 99 le and {(00) show} if n 100 ge n 999 le and {(0) show} if n cvishow ( ) show j1$ show i1 9 le {(0) show} if i1 cvishow xa ya 425 3 div 2 mul add moveto l 0 eq l 2 eq or {(n*=) show 1 argb sub cvsshow3} if l 1 eq l 3 eq or {(w*=) show argb cvsshow3} if xa ya 225 3 div 2 mul add moveto l 0 eq {(000n*) show} if l 1 eq {(w*) show} if l 2 eq {(nnn0*) show} if l 3 eq {(www*) show} if xa ya 025 3 div 2 mul add moveto l 0 eq {(setcmyk) show} if l 1 eq {(setgray) show} if l 2 eq {(setcmyk) show} if l 3 eq {(setrgb) show} if } if %xchart=2 xchart 4 eq { %xchart=4 1 1 1 setrgbcolor xa ya xd dup rec fill 0 0 0 setrgbcolor xa xd add 220 sub ya 625 3 div 2 mul add moveto j1$ show i1 9 le {(0) show} if i1 cvishow r*x g*x b*x setrgbcolor %to determine cmyn4*Fa ks 0 eq {/c*t c4*Fa def} if ks 1 eq {/c*t c6*Fa def} if ks 2 eq {/c*t c7*Fa def} if ks 3 eq {/c*t c8*Fa def} if ks 4 eq {/c*t c9*Fa def} if ks 5 eq {/c*t cA*Fa def} if ks 0 eq {/m*t m4*Fa def} if ks 1 eq {/m*t m6*Fa def} if ks 2 eq {/m*t m7*Fa def} if ks 3 eq {/m*t m8*Fa def} if ks 4 eq {/m*t m9*Fa def} if ks 5 eq {/m*t mA*Fa def} if ks 0 eq {/y*t y4*Fa def} if ks 1 eq {/y*t y6*Fa def} if ks 2 eq {/y*t y7*Fa def} if ks 3 eq {/y*t y8*Fa def} if ks 4 eq {/y*t y9*Fa def} if ks 5 eq {/y*t yA*Fa def} if ks 0 eq {/n*t n4*Fa def} if ks 1 eq {/n*t n6*Fa def} if ks 2 eq {/n*t n7*Fa def} if ks 3 eq {/n*t n8*Fa def} if ks 4 eq {/n*t n9*Fa def} if ks 5 eq {/n*t nA*Fa def} if l 2 eq {0 setgray} {0 0 1 setrgbcolor} ifelse /xts 05 def xa xts add ya 625 3 div 2 mul add moveto c*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 425 3 div 2 mul add moveto m*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 225 3 div 2 mul add moveto y*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 025 3 div 2 mul add moveto n*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse } if %xchart=4 xchart 2 ne xchart 4 ne and {%xchart#2,4 xa ya xd dup rec fill 1 r*x sub 1 g*x sub 1 b*x sub 0 setcmykcolor xa ya xd 0.5 mul dup rem fill xcharti 0 eq {%xcharti=0 [100 300] 0 setdash r*x 0 eq g*x 0 eq and b*x 0 eq and {1 setgray} {0 setgray} ifelse xa ya xd 0.5 mul dup rem stroke [ ] 0 setdash } if %xcharti=0 } if %xchart#2,4 } for %j=0,jmax } for %l=0,lmax } for %k=0,kmax %ks 5 eq {%ks=0 standard colours -7800 10800 translate %basic colours 1072 - 1080 /basrgb 24 array def /basrgb [0 0 0 1 1 1 1 0 0 0 1 1 1 1 0 0 0 1 0 1 0 1 0 1 ] def /n 1071 def 0 1 7 {/i exch def %i=0,7 /n n 1 add def /i3 i 3 mul def /xadd 36 xs mul def /yadd 25 xs mul def i 0 eq {/l 0 def /j 0 def /j1$ (k) def /i1 26 def} if i 1 eq {/l 0 def /j 1 def /j1$ (k) def /i1 27 def} if i 2 eq {/l 1 def /j 0 def /j1$ (l) def /i1 26 def} if i 3 eq {/l 1 def /j 1 def /j1$ (l) def /i1 27 def} if i 4 eq {/l 2 def /j 0 def /j1$ (m) def /i1 26 def} if i 5 eq {/l 2 def /j 1 def /j1$ (m) def /i1 27 def} if i 6 eq {/l 3 def /j 0 def /j1$ (n) def /i1 26 def} if i 7 eq {/l 3 def /j 1 def /j1$ (n) def /i1 27 def} if /xa xmin xs l mul add xadd add xsd add def /ya ymax xs j mul sub yadd sub ysd add def /r basrgb i3 get def /g basrgb i3 1 add get def /b basrgb i3 2 add get def /r*x r def /g*x g def /b*x b def xchart 2 eq { %xchart=2 1 1 1 setrgbcolor xa ya xd dup rec fill 0 0 0 setrgbcolor xa ya 625 3 div 2 mul add moveto n 9 le {(000) show} if n 10 ge n 99 le and {(00) show} if n 100 ge n 999 le and {(0) show} if n cvishow ( ) show j1$ show i1 cvishow xa ya 425 3 div 2 mul add moveto r cvsshow3 xa ya 225 3 div 2 mul add moveto g cvsshow3 xa ya 025 3 div 2 mul add moveto b cvsshow3 } if %xchart=2 xchart 4 eq { %xchart=4 1 1 1 setrgbcolor xa ya xd dup rec fill 0 0 0 setrgbcolor xa xd add 220 sub ya 625 3 div 2 mul add moveto j1$ show i1 9 le {(0) show} if i1 cvishow r*x g*x b*x setrgbcolor %to determine cmyn4*Fa ks 0 eq {/c*t c4*Fa def} if ks 1 eq {/c*t c6*Fa def} if ks 2 eq {/c*t c7*Fa def} if ks 3 eq {/c*t c8*Fa def} if ks 4 eq {/c*t c9*Fa def} if ks 5 eq {/c*t cA*Fa def} if ks 0 eq {/m*t m4*Fa def} if ks 1 eq {/m*t m6*Fa def} if ks 2 eq {/m*t m7*Fa def} if ks 3 eq {/m*t m8*Fa def} if ks 4 eq {/m*t m9*Fa def} if ks 5 eq {/m*t mA*Fa def} if ks 0 eq {/y*t y4*Fa def} if ks 1 eq {/y*t y6*Fa def} if ks 2 eq {/y*t y7*Fa def} if ks 3 eq {/y*t y8*Fa def} if ks 4 eq {/y*t y9*Fa def} if ks 5 eq {/y*t yA*Fa def} if ks 0 eq {/n*t n4*Fa def} if ks 1 eq {/n*t n6*Fa def} if ks 2 eq {/n*t n7*Fa def} if ks 3 eq {/n*t n8*Fa def} if ks 4 eq {/n*t n9*Fa def} if ks 5 eq {/n*t nA*Fa def} if 0 0 1 setrgbcolor /xts 05 def xa xts add ya 625 3 div 2 mul add moveto c*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 425 3 div 2 mul add moveto m*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 225 3 div 2 mul add moveto y*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse xa xts add ya 025 3 div 2 mul add moveto n*t ks 1 ne ks 3 ne and {cvsshow3} {cvsshow1} ifelse } if %xchart=4 xchart 2 ne xchart 4 ne and {%xchart#2,4 r g b setrgbcolor xa ya xd dup rec fill 1 r sub 1 g sub 1 b sub 0 setcmykcolor xa ya xd 0.5 mul dup rem fill xcharti 0 eq {%xcharti=0 [100 300] 0 setdash r 0 eq g 0 eq and b 0 eq and {1 setgray} {0 setgray} ifelse xa ya xd 0.5 mul dup rem stroke [ ] 0 setdash } if %xcharti=0 } if %xchart#2,4 } for %i=0,7 7800 -10800 translate %} if %ks=5 ks 0 eq { 10800 0 translate} if ks 1 eq { 0 0 translate} if ks 2 eq { 10800 5400 translate} if ks 3 eq { 0 5400 translate} if ks 4 eq { 10800 10800 translate} if ks 5 eq { 0 10800 translate} if } for %ks=0,5 xchart 1 ge xchart 4 le and {%BEG 1<=xchart<=4 40 3 div 2 mul setlinewidth /xtmin xmin def /ytmax ymax xs 01 mul add def /ytmin ytmax xs 27 mul sub def /xtmax xtmin xs 36 mul add def /ytmean1 ytmin ytmax ytmin sub 0.3333 mul add def /ytmean2 ytmin ytmax ytmin sub 0.6667 mul add def 1 0 0 setrgbcolor 1 1 4 {/k exch def /xta xtmin xs 9 mul k mul add def xta ytmin 100 sub moveto xta ytmax 100 add lineto stroke } for xtmin 100 sub ytmean1 moveto xtmax xs 4 mul add 100 add ytmean1 lineto stroke xtmin 100 sub ytmean2 moveto xtmax xs 4 mul add 100 add ytmean2 lineto stroke %/ytmean3 ytmin 2 xs mul add def %xtmax ytmean3 moveto xtmax xs 4 mul add 100 add ytmean3 lineto stroke } if %END 1<=xchart<=4 showpage grestore %} for %xcharti END xcharti=04,04 %%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 XG121-1, %%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 (XG121-1,) 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 XG121-3, %%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 (XG121-3,) 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 XG121-5, %%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 (XG121-5,) 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 XG121-7, %%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 (XG121-7,) 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 20080101 %%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 /xchartx xchartg def} {/xchartx 0 def} ifelse /colormg where {pop /colorm colormg def} {/colorm 0 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 /xcharti xchartx def xcharti 0 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Figure olv,cmy0 xcharti 1 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Figure olv xcharti 2 eq {/ausz 8 def /xchartt (A) def /colorm 0 def} if %Table olv xcharti 3 eq {/ausz 8 def /xchartt (F) def} if %Figure cmyn5* xcharti 4 eq {/ausz 8 def /xchartt (F) def} if %Table cmyn5* xcharti 5 eq {/ausz 1 def /xchartt (Cn) def} if xcharti 6 eq {/ausz 2 def /xchartt (Mn) def} if xcharti 7 eq {/ausz 3 def /xchartt (Yn) def} if xcharti 8 eq {/ausz 7 def /xchartt (N) def} if xcharti 9 eq {/ausz 4 def /xchartt (C) def} if xcharti 10 eq {/ausz 5 def /xchartt (M) def} if xcharti 11 eq {/ausz 6 def /xchartt (Y) def} if /xchart0 0 def /xchart xchartx xchart0 sub def %needs Definition, is only in OUTLIN1X.PS, %delete for test of Y.. on VAX LAB*ioG ColSepG %ColSepG needs xcharti %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 /xx 20 array def /yy 20 array def /dd 20 array def /xx [000 296 296 000 002 294 294 002 005 291 291 005 %speziell 006 290 290 006 008 288 288 008 ] def /yy [000 000 210 210 002 002 208 208 005 005 205 205 %speziell 006 006 204 204 008 008 202 202 ] def /dd [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 -16 MM 0 rlineto stroke xro yro 8 MM add moveto 0 -16 MM rlineto stroke xru 8 MM sub yru moveto 16 MM 0 rlineto stroke xru yru 8 MM sub moveto 0 16 MM rlineto stroke xlo 8 MM add ylo moveto -16 MM 0 rlineto stroke xlo ylo 8 MM add moveto 0 -16 MM rlineto stroke 1 2 7 {/i exch def %Zentrierkreise xlu ylu i MM 0 360 arc stroke xro yro i MM 0 360 arc stroke xru yru i MM 0 360 arc stroke xlo ylo i MM 0 360 arc stroke } for %i 12 4 16 {/i exch def /i0 i def %i=0,16 %0 4 16 {/i exch def /i0 i def %i=0,16 /i1 i0 1 add def /i2 i0 2 add def /i3 i0 3 add def i 16 eq {0.30 MM setlinewidth} {0.15 MM setlinewidth} ifelse 0 setgray xx i0 get MM yy i0 get MM moveto xx i1 get MM yy i1 get MM lineto xx i2 get MM yy i2 get MM lineto xx i3 get MM yy i3 get MM lineto xx i0 get MM yy 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 {tzcolv* setrgbcolor} if j0 1 eq {0 setgray} if j0 2 eq {tzmolv* setrgbcolor} if j0 3 eq {0 setgray} if j0 4 eq {tzyolv* setrgbcolor} if j0 5 eq {0 setgray} if j0 6 eq {tzoolv* setrgbcolor} if j0 7 eq {0 setgray} if j0 8 eq {tzlolv* setrgbcolor} if j0 9 eq {0 setgray} if j0 10 eq {tzvolv* setrgbcolor} 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 xx i0 get dd i0 get add 16 j0 mul add MM yy i0 get MM moveto xx i0 get dd i0 get add 16 j1 mul add MM yy i0 get MM lineto stroke xx i1 get MM yy i1 get dd i1 get add 16 j0 mul add MM moveto xx i1 get MM yy i1 get dd i1 get add 16 j1 mul add MM lineto stroke xx i2 get dd i2 get add 16 j0 mul sub MM yy i2 get MM moveto xx i2 get dd i2 get add 16 j1 mul sub MM yy i2 get MM lineto stroke xx i3 get MM yy i3 get dd i3 get add 16 j0 mul sub MM moveto xx i3 get MM yy i3 get dd 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 setgray %N ix0 0.5 MM sub iy0 0.5 MM sub s5 s1 rec fill} if /wg 1 tzan j get sub def wg setgray %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 (9stufige Standard\255Farbreihen, Koordinaten\255Transformation) showde (9 step standard colour scales, coordinate transformations) showen (9 and 16 step colour scales) showes (9 and 16 step colour scales) showfr (9 and 16 step colour scales) showit (9 and 16 step colour scales) showjp (9 and 16 step colour scales) showm 61 MM 13 MM moveto (BAM\255Pr\374fvorlage XG12; Farbmetrik\255Systeme, ORS18) showde (BAM\255test chart XG12; Colorimetric systems, ORS18) showen (BAM\255test chart XG12; Colorimetric systems) showes (BAM\255test chart XG12; Colorimetric systems) showfr (BAM\255test chart XG12; Colorimetric systems) showit (BAM\255test chart XG12; Colorimetric systems) showjp (BAM\255test chart nXG12; Colorimetric systems) showm (, Page ) showen (, Seite ) showde xchart 1 add cvishow ( ) show 165 MM 13 MM moveto ( input: ) showen (Eingabe: ) showde 12 /TimesI-ISOL1 FS (000n / w / nnn0 / rgb set...) show 12 /Times-ISOL1 FS 165 MM 9 MM moveto ( output: ) showen (Ausgabe: ) showde LSC$ (N) eq {%LSC$=N 12 /Times-ISOL1 FS xchart 0 eq {(no change compared to input) showen (keine Eingabe\344nderung) showde} {12 /TimesI-ISOL1 FS (->cmyn5* setcmyk..) show 12 /Times-ISOL1 FS} ifelse } if %LSC$=N LSC$ (S) eq { (Startup (S) data dependend) showen (Startup(S)Daten abh\344ngig) showde } if LSC$ (F) eq { 12 /TimesI-ISOL1 FS i*ptrsc 0 eq {(cmy0* / 000n* setcmykcolor) show} if i*ptrsc 1 eq {xchart 0 eq {12 /Times-ISOL1 FS (no change compared to input) showen (keine Eingabe\344nderung) showde } {(->LAB*->cmyn5* setcmyk..) show } ifelse } if 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/XG12/L12) show LSS$ show (00) show LSC$ show LEX$ show (, Page ) showen (, Seite ) showde xchart 1 add cvishow (/9) show %1 setgray %start white and unvisible (; ) show LSC$ (N) eq { xchart 0 eq {(Start\255Ausgabe) showde (start output) showen} {(Transfer und Ausgabe) showde (transfer and output) showen} ifelse (start) showes (start) showfr (start) showit (start) showjp (start) showm } if LSC$ (C) eq { (Start) showde (start) showen (start) showes (start) showfr (start) showit (start) showjp (start) showm } if LSC$ (F) eq { xchart 0 eq {(Start\255Ausgabe) showde (start output) showen} {(Linearisierte Ausgabe) showde (linearized output) showen} ifelse (linearized) showes (linearized) showfr (linearized) showit (linearized) showjp (linearized) showm } if (, VT=) show VisTol*ioG cvsshow2 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 (Linearisierte\255Ausgabe) showde (linearized output) showen (linearized output) showes (linearized output) showfr (linearized output) showit (linearized output) showjp (linearized output) showm (XG12/L12) 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 xchart 2 ge {(; Separation: ) show tzcolv* setrgbcolor (c) show tzmolv* setrgbcolor (m) show tzyolv* setrgbcolor (y) show tznolv* setrgbcolor (n) show LSC$ (F) eq {tznolv* setrgbcolor (*) show} if } 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/XG12/; www.ps.bam.de/XG.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: 20080101\255XG12/L12) showde (BAM registration: 20080101\255XG12/L12) showen (BAM registration: 20080101\255XG12/L12) showes (BAM registration: 20080101\255XG12/L12) showfr (BAM registration: 20080101\255XG12/L12) showit (BAM registration: 20080101\255XG12/L12) showjp (BAM registration: 20080101\255XG12/L12) 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 xx i0 get MM yy i0 get MM moveto xx i1 get MM yy i1 get MM lineto xx i2 get MM yy i2 get MM lineto xx i3 get MM yy i3 get MM lineto xx i0 get MM yy 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