%!PS-Adobe-3.0 EPSF-3.0 DM100/PK0X_FRAME_A6_F1_MK00.PS DM100-00 20120601 %%BoundingBox: 70 83 226 206 /pdfmarkF where {pop} {userdict /pdfmarkF /cleartomark load put} ifelse /languagelevel where {pop languagelevel} {1} ifelse 2 lt { userdict (<<) cvn ([) cvn load put userdict (>>) cvn (]) cvn load put } if [ /Title (PostScript pictures: http://130.149.60.445/~farbmetrik/DM10) /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1) /Subject (goto: http://www.ps.bam.de or http://130.149.60.445/~farbmetrik) /Keywords (image reproduction, colour devices) /Creator (klaus.richter@mac.com) /CreationDate (D:2012060112000) /ModDate (D:2012060112000) /DOCINFO pdfmarkF [ /View [ /Fit ] /DOCVIEW pdfmarkF %************************************************************ %Early Frame File (f) definition /sfgray {setgray} bind def /sfrgbcolor {setrgbcolor} bind def /sfcmykcolor {setcmykcolor} bind def %********************************************* %line 29, %BEG Include Procedures for output linearization at line 30 %**************************************************** %BEG 'DM10'OUTLIN11.PS for output 3D-linearization %**************************************************** /PROC_COLINT_IOF {%BEG procedure PROC_COLINT_IOF /Lab2RGB {%BEG Procedure Lab2RGB % --- Lab2RGB ----------------- % % --- Eingabe (stack): L* a* b* % --- Ausgabe (stack): iR iG iB ; die Indizes des LUT-Wertes mit dem geringsten Delta-E bzgl. Eingabewert % ---- : delta-E ; und das Delta-E dazu % /Zielb exch def /Ziela exch def /ZielL exch def /dE 1000 def /opt 0 def 1 1 nges { 1 sub 3 mul /ii exch def /dL lut ii get ZielL sub abs def dE dL ge { %dE>dL /da lut ii 1 add get Ziela sub abs def dE da ge { %dE>da /db lut ii 2 add get Zielb sub abs def dE db ge { %dE>db /dEneu dL dL mul da da mul db db mul add add sqrt def dE dEneu ge { % test ob dEneu < dE /dE dEneu def /opt ii def } if } if } if } if } for /opt opt 3 idiv def opt nG nB mul idiv % R auf den stack (Wertebereich real: 0-(nr-1)) opt nG nB mul mod nB idiv % G auf den stack opt nG nB mul mod nB mod % B auf den stack dEneu } def %END Procedure Lab2RGB %********************************************************************* /indexkonv {%BEG Procedure indexkonv % --- indexkonv ----------------- % % --- Eingabe (stack): iR iG iB ; Indizes eines LUT-Wertes % --- Ausgabe (stack): Position des LUT-Wertes im 1-dim Lut-Array % %errechnet aus r g b index auf stack den fortlaufenden index exch nB mul add exch nB nG mul mul add 3 mul } def %END Procedure indexkonv %********************************************************************* /set_oktant {%BEG Procedure set_oktant % --- set_oktant ----------------- % % --- Eingabe (stack): iR iG iB ; Indizes eines LUT-Wertes, % kennzeichnet die dem Ursprung entfernteste Ecke des ausgewaehlten Raumbereiches % sortierung v1->v8: RGB, RGB+1, RG+1B, RG+1B+1, usw.. % --- Ausgabe (stack): keine % /B_index exch def /G_index exch def /R_index exch def R_index G_index B_index indexkonv /tempindex exch def % /eswird R_index G_index B_index /zu tempindex /lin_v8L lut tempindex get def /lin_v8a lut tempindex 1 add get def /lin_v8b lut tempindex 2 add get def R_index G_index B_index 1 sub indexkonv /tempindex exch def % /eswird R_index G_index B_index 1 sub /zu tempindex jens /lin_v7L lut tempindex get def /lin_v7a lut tempindex 1 add get def /lin_v7b lut tempindex 2 add get def R_index G_index 1 sub B_index indexkonv /tempindex exch def /lin_v6L lut tempindex get def /lin_v6a lut tempindex 1 add get def /lin_v6b lut tempindex 2 add get def R_index G_index 1 sub B_index 1 sub indexkonv /tempindex exch def /lin_v5L lut tempindex get def /lin_v5a lut tempindex 1 add get def /lin_v5b lut tempindex 2 add get def R_index 1 sub G_index B_index indexkonv /tempindex exch def /lin_v4L lut tempindex get def /lin_v4a lut tempindex 1 add get def /lin_v4b lut tempindex 2 add get def R_index 1 sub G_index B_index 1 sub indexkonv /tempindex exch def /lin_v3L lut tempindex get def /lin_v3a lut tempindex 1 add get def /lin_v3b lut tempindex 2 add get def R_index 1 sub G_index 1 sub B_index indexkonv /tempindex exch def /lin_v2L lut tempindex get def /lin_v2a lut tempindex 1 add get def /lin_v2b lut tempindex 2 add get def R_index 1 sub G_index 1 sub B_index 1 sub indexkonv /tempindex exch def /lin_v1L lut tempindex get def /lin_v1a lut tempindex 1 add get def /lin_v1b lut tempindex 2 add get def } def %END Procedure set_oktant %********************************************************************* /L_abc {%BEG Procedure L_abc % --- L_abc ----------------- % % --- Eingabe (stack): alpha (R-Richtung) beta (G-Richtung) gamma (B-Richtung) % --- Ausgabe (stack): L* interpoliert aus LUT im aktuellen Oktanten % /gamma exch def /beta exch def /alpha exch def /alpham 1 alpha sub def /betam 1 beta sub def /gammam 1 gamma sub def lin_v8L alpha beta gamma mul mul mul lin_v7L alpha beta gammam mul mul mul add lin_v6L alpha betam gamma mul mul mul add lin_v5L alpha betam gammam mul mul mul add lin_v4L alpham beta gamma mul mul mul add lin_v3L alpham beta gammam mul mul mul add lin_v2L alpham betam gamma mul mul mul add lin_v1L alpham betam gammam mul mul mul add } def %END Procedure L_abc %********************************************************************* /a_abc {%BEG Procedure a_abc % --- a_abc ----------------- % % --- Eingabe (stack): alpha (R-Richtung) beta (G-Richtung) gamma (B-Richtung) % --- Ausgabe (stack): L* interpoliert aus LUT im aktuellen Oktanten % /gamma exch def /beta exch def /alpha exch def /alpham 1 alpha sub def /betam 1 beta sub def /gammam 1 gamma sub def lin_v8a alpha beta gamma mul mul mul lin_v7a alpha beta gammam mul mul mul add lin_v6a alpha betam gamma mul mul mul add lin_v5a alpha betam gammam mul mul mul add lin_v4a alpham beta gamma mul mul mul add lin_v3a alpham beta gammam mul mul mul add lin_v2a alpham betam gamma mul mul mul add lin_v1a alpham betam gammam mul mul mul add } def %END Procedure a_abc %********************************************************************* /b_abc {%BEG Procedure b_abc % --- b_abc ----------------- % % --- Eingabe (stack): alpha (R-Richtung) beta (G-Richtung) gamma (B-Richtung) % --- Ausgabe (stack): L* interpoliert aus LUT im aktuellen Oktanten % /gamma exch def /beta exch def /alpha exch def /alpham 1 alpha sub def /betam 1 beta sub def /gammam 1 gamma sub def lin_v8b alpha beta gamma mul mul mul lin_v7b alpha beta gammam mul mul mul add lin_v6b alpha betam gamma mul mul mul add lin_v5b alpha betam gammam mul mul mul add lin_v4b alpham beta gamma mul mul mul add lin_v3b alpham beta gammam mul mul mul add lin_v2b alpham betam gamma mul mul mul add lin_v1b alpham betam gammam mul mul mul add } def %END Procedure b_abc %********************************************************************* /Jacobi_abc {%BEG Procedure Jacobi_abc % --- Jacobi_abc ----------------- % % --- Eingabe (stack): alpha (R-Richtung) beta (G-Richtung) gamma (B-Richtung) % --- Ausgabe (stack): Jacobi Matrix an der stelle abc im aktuellen Oktanten % in der reihenfolge abcdefghi % (a b c) % (d e f) % (g h i) % /gamma exch def /beta exch def /alpha exch def /alpham 1 alpha sub def /betam 1 beta sub def /gammam 1 gamma sub def lin_v5L lin_v1L sub betam gammam mul mul lin_v6L lin_v2L sub betam gamma mul mul add lin_v7L lin_v3L sub beta gammam mul mul add lin_v8L lin_v4L sub beta gamma mul mul add lin_v3L lin_v1L sub alpham gammam mul mul lin_v4L lin_v2L sub alpham gamma mul mul add lin_v7L lin_v5L sub alpha gammam mul mul add lin_v8L lin_v6L sub alpha gamma mul mul add lin_v2L lin_v1L sub alpham betam mul mul lin_v4L lin_v3L sub alpham beta mul mul add lin_v6L lin_v5L sub alpha betam mul mul add lin_v8L lin_v7L sub alpha beta mul mul add lin_v5a lin_v1a sub betam gammam mul mul lin_v6a lin_v2a sub betam gamma mul mul add lin_v7a lin_v3a sub beta gammam mul mul add lin_v8a lin_v4a sub beta gamma mul mul add lin_v3a lin_v1a sub alpham gammam mul mul lin_v4a lin_v2a sub alpham gamma mul mul add lin_v7a lin_v5a sub alpha gammam mul mul add lin_v8a lin_v6a sub alpha gamma mul mul add lin_v2a lin_v1a sub alpham betam mul mul lin_v4a lin_v3a sub alpham beta mul mul add lin_v6a lin_v5a sub alpha betam mul mul add lin_v8a lin_v7a sub alpha beta mul mul add lin_v5b lin_v1b sub betam gammam mul mul lin_v6b lin_v2b sub betam gamma mul mul add lin_v7b lin_v3b sub beta gammam mul mul add lin_v8b lin_v4b sub beta gamma mul mul add lin_v3b lin_v1b sub alpham gammam mul mul lin_v4b lin_v2b sub alpham gamma mul mul add lin_v7b lin_v5b sub alpha gammam mul mul add lin_v8b lin_v6b sub alpha gamma mul mul add lin_v2b lin_v1b sub alpham betam mul mul lin_v4b lin_v3b sub alpham beta mul mul add lin_v6b lin_v5b sub alpha betam mul mul add lin_v8b lin_v7b sub alpha beta mul mul add } def %END Procedure Jacobi_abc %********************************************************************* /Inverse_mat {%BEG Procedure Inverse_mat % --- Inverse_mat ----------------- % % --- Eingabe (stack): Matrix in der reihenfolge abcdefghi % invertiert die Matrix (a b c) % (d e f) % (g h i) % --- Ausgabe (stack): Matrix % /i_i exch def /i_h exch def /i_g exch def /i_f exch def /i_e exch def /i_d exch def /i_c exch def /i_b exch def /i_a exch def /i_det i_a i_e i_i mul mul i_b i_d i_i mul mul sub i_a i_f i_h mul mul sub i_c i_d i_h mul mul add i_b i_f i_g mul mul add i_c i_e i_g mul mul sub def i_e i_i mul i_f i_h mul sub i_det div %a der inversen auf stack i_c i_h mul i_b i_i mul sub i_det div %b der inversen auf stack i_b i_f mul i_c i_e mul sub i_det div %c der inversen auf stack i_f i_g mul i_d i_i mul sub i_det div %d der inversen auf stack i_a i_i mul i_c i_g mul sub i_det div %e der inversen auf stack i_c i_d mul i_a i_f mul sub i_det div %f der inversen auf stack i_d i_h mul i_e i_g mul sub i_det div %g der inversen auf stack i_b i_g mul i_a i_h mul sub i_det div %h der inversen auf stack i_a i_e mul i_b i_d mul sub i_det div %i der inversen auf stack } def %END Procedure Inverse_mat %********************************************************************* /linear_finden {%BEG Procedure linear_finden % --- linear_finden ----------------- % % --- Eingabe (stack): iR iG iB ; Indizes eines LUT-Wertes, % kennzeichnet die dem Ursprung entfernteste Ecke des ausgewaehlten Raumbereiches % L* a* b* ; danach der zielpunkt als lab wert % --- Ausgabe (stack): Delta-E: Abstand zum Zielpunkt % alpha, beta, gamma die den kürzesten abstand zum gegebenen zielpunkt aufweisen % /lin_zielb exch def /lin_ziela exch def /lin_zielL exch def set_oktant /akt_a 0.5 def /akt_b 0.5 def /akt_c 0.5 def /last_L akt_a akt_b akt_c L_abc def /last_a akt_a akt_b akt_c a_abc def /last_b akt_a akt_b akt_c b_abc def /diff_L last_L lin_zielL sub def /diff_a last_a lin_ziela sub def /diff_b last_b lin_zielb sub def 0 %default rueckgabewert fuer delta-e (wird nie benutzt, aber fuer pop wichtig) 1 1 10 { pop %pop schleifenzaehler pop %pop letzes Delta-E akt_a akt_b akt_c Jacobi_abc Inverse_mat diff_b mul exch diff_a mul add exch diff_L mul add /delta_c exch def diff_b mul exch diff_a mul add exch diff_L mul add /delta_b exch def diff_b mul exch diff_a mul add exch diff_L mul add /delta_a exch def % akt_a akt_b akt_c % delta_a delta_b delta_c /akt_a akt_a delta_a sub def /akt_b akt_b delta_b sub def /akt_c akt_c delta_c sub def akt_a 0 lt {/akt_a 0 def} if akt_b 0 lt {/akt_b 0 def} if akt_c 0 lt {/akt_c 0 def} if 1 akt_a lt {/akt_a 1 def} if 1 akt_b lt {/akt_b 1 def} if 1 akt_c lt {/akt_c 1 def} if /last_L akt_a akt_b akt_c L_abc def /last_a akt_a akt_b akt_c a_abc def /last_b akt_a akt_b akt_c b_abc def /diff_L last_L lin_zielL sub def /diff_a last_a lin_ziela sub def /diff_b last_b lin_zielb sub def %/naechster %akt_a %akt_b %akt_c %last_L %last_a %last_b diff_L dup mul diff_a dup mul diff_b dup mul add add sqrt dup %Abbruch wenn Delta_e<0.1 0.1 lt {exit} if } for akt_a akt_b akt_c } def %END Procedure linear_finden %********************************************************************* /Lab2RGBinterpolation {%BEG Procedure Lab2RGBinterpolation /Ziel_b exch def /Ziel_a exch def /Ziel_L exch def Ziel_L Ziel_a Ziel_b Lab2RGB /now_delta_e exch def /B_next exch def /G_next exch def /R_next exch def /R_fin R_next nR 1 sub div def % defaults falls kein besserer wert gefunden /G_fin G_next nG 1 sub div def /B_fin B_next nB 1 sub div def -1 1 2 { R_next add /R_now exch def -1 1 2 { G_next add /G_now exch def -1 1 2 { B_next add /B_now exch def B_now 0 gt G_now 0 gt R_now 0 gt nB B_now gt nG G_now gt nR R_now gt and and and and and { R_now G_now B_now Ziel_L Ziel_a Ziel_b linear_finden /now_c exch def /now_b exch def /now_a exch def dup %rueckgabe delta-e doppeln now_delta_e lt { /now_delta_e exch def /Bs0 B_now 1 sub nB 1 sub div 255 mul round 255 div def /Bs1 B_now nB 1 sub div 255 mul round 255 div def /B_fin Bs0 1 now_c sub mul Bs1 now_c mul add def /Gs0 G_now 1 sub nG 1 sub div 255 mul round 255 div def /Gs1 G_now nG 1 sub div 255 mul round 255 div def /G_fin Gs0 1 now_b sub mul Gs1 now_b mul add def /Rs0 R_now 1 sub nR 1 sub div 255 mul round 255 div def /Rs1 R_now nR 1 sub div 255 mul round 255 div def /R_fin Rs0 1 now_a sub mul Rs1 now_a mul add def } { pop } ifelse } if } for } for } for R_fin G_fin B_fin } bind def %END Procedure Lab2RGBinterpolation } bind def %END procedure PROC_COLINT_IOF %**************************************************** %END 'DM10'OUTLIN11.PS for output 3D-linearization %**************************************************** %**************************************************** %BEG 'DM10'OUTLIN1X.PS Other procedures for sRGB output linearization %**************************************************** %BEG COLDATA_SRGB_00.PS %BEG TRANSFER_EARLY_F.TXT **********************************2012-02-01 %Early definition of FF_LM_setgray_F0 identical to former setgray /FF_LM_setgray_F0 {setgray} bind def /FF_LM_setrgbcolor_F0 {setrgbcolor} bind def /FF_LM_setcmykcolor_F0 {setcmykcolor} bind def /FF_LM_transfer_F0 {settransfer} bind def /FF_LM_colortransfer_F0 {setcolortransfer} bind def %END TRANSFER_EARLY_F.TXT **********************************2012-02-01 %***************************************************************************** /setcolortrans_F {%BEG procedure setcolortrans_F %1MR-Transform of setgray and setcmykcolor to FF_LM_de_setrgbcolor_F %Three procedures and use of the procedure FF_LM_de_setrgbcolor_F of main FF /setgray {%BEG procedure setgray_F dup dup FF_LM_de_setrgbcolor_F %STOPs } def %END procedure setgray_F /setcmykcolor {%BEG procedure setcmykcolor_F /FF_LM_k exch def /FF_LM_y exch def /FF_LM_m exch def /FF_LM_c exch def FF_LM_k 0 eq {%FF_LM_k=0 1 FF_LM_c sub 1 FF_LM_m sub 1 FF_LM_y sub FF_LM_de_setrgbcolor_F }%FF_LM_k=0 {%FF_LM_k#0 FF_LM_c 0 eq FF_LM_m 0 eq and FF_LM_y 0 eq and {%FF_LM_k#0 and c=m=y=0 achromatic 1 FF_LM_k sub dup dup FF_LM_de_setrgbcolor_F }%FF_LM_k#0 and c=m=y=0 achromatic {%FF_LM_k#0 and c or m or y#0 chromatic 1 FF_LM_c sub 1 FF_LM_k sub mul 1 FF_LM_m sub 1 FF_LM_k sub mul 1 FF_LM_y sub 1 FF_LM_k sub mul FF_LM_de_setrgbcolor_F } ifelse %FF_LM_k#0 and c or m or y#0 chromatic } ifelse %FF_LM_k#0 } def %END procedure setcmykcolor_F /setrgbcolor {%BEG procedure setrgbcolor_F /FF_LM_b exch def /FF_LM_g exch def /FF_LM_r exch def FF_LM_r FF_LM_g FF_LM_b FF_LM_de_setrgbcolor_F %STOPr } def %BEG procedure setrgbcolor_F /settransfer {FF_LM_transfer_F} def /setcolortransfer {FF_LM_colortransfer_F} def %******************************************************************* /FF_LM_de_setrgbcolor_F { %BEG FF_LM_de_setrgbcolor_F %assumes input of rgb, which is called rgb_dyF %calculation of intended rgb*dyF, LABCh*dyF %Lab2RGBinterpolation for colorm=1 %calculation of inverse rgb'*dyF, LABCh'*dyF, which produces rgb*dyF, LABCh*dyF %requires /hab*dy362Mi 362 array def %(y=s,d,e) %requires /rgb*dy362Mi 362 array def %(y=s,d,e) %requires /LAB*dyx362Mi 362 array def %(y=s,d,e, x=LabCh) /b_dyF exch def /g_dyF exch def /r_dyF exch def %calculation of i_dyF, c_dyF, and t_dyF /maxd r_dyF def g_dyF maxd gt {/maxd g_dyF def} if b_dyF maxd gt {/maxd b_dyF def} if /mind r_dyF def g_dyF mind lt {/mind g_dyF def} if b_dyF mind lt {/mind b_dyF def} if /i_dyF maxd def /c_dyF maxd mind sub def /t_dyF i_dyF c_dyF 0.5 mul sub def /hsiF r_dyF 030 sin mul g_dyF 150 sin mul add b_dyF 270 sin mul add %y_e r_dyF 030 cos mul g_dyF 150 cos mul add %x_e 0.0001 add atan 0.5 add cvi def %range 30 ... 390 %perhaps change %to decide hab*dyF/dsF/deF ! hsiF hab*ds362Mi 0 get sub 0 le {/hsiF hsiF 360 add def} if /hsiFm30 hsiF 30 sub def %range 00 ... 360 %test grey r_dyF g_dyF sub abs 0.002 le g_dyF b_dyF sub abs 0.002 le and {%grey, not grey /r*dyM 1 def /g*dyM 1 def /b*dyM 1 def /hsiM r*dyM 030 sin mul g*dyM 150 sin mul add b*dyM 270 sin mul add %y_d r*dyM 030 cos mul g*dyM 150 cos mul add %x_d 0.0001 add atan def hsiM hab*ds362Mi 0 get sub 0 le {/hsiM hsiM 360 add def} if /hsiMm30 hsiM 30 sub def /LAB*LdyM L*Wioa def /LAB*adyM 0 def /LAB*bdyM 0 def /LAB*LdyF L*Nioa r_dyF L*Wioa L*Nioa sub mul add def /LAB*adyF 0 def /LAB*bdyF 0 def /r*dyF r_dyF def /g*dyF g_dyF def /b*dyF b_dyF def /r'*dyF r_dyF def /g'*dyF g_dyF def /b'*dyF b_dyF def }%grey {%color hsiFm30 0 lt {/hsiFm30 0 def} if %for correction to be deleted! hsiFm30 360 gt {/hsiFm30 360 def} if %calculation of intended rgb*dyM, LAB*LabdyM deintp 0 eq {%deintp=0 /r*dyM r*dd362Mi hsiFm30 get def /g*dyM g*dd362Mi hsiFm30 get def /b*dyM b*dd362Mi hsiFm30 get def /LAB*LdyM LAB*Ldd362Mi hsiFm30 get def /LAB*adyM LAB*add362Mi hsiFm30 get def /LAB*bdyM LAB*bdd362Mi hsiFm30 get def } if %deintp=0 deintp 1 eq {%deintp=1 /r*dyM r*de362Mi hsiFm30 get def /g*dyM g*de362Mi hsiFm30 get def /b*dyM b*de362Mi hsiFm30 get def /LAB*LdyM LAB*Lde362Mi hsiFm30 get def /LAB*adyM LAB*ade362Mi hsiFm30 get def /LAB*bdyM LAB*bde362Mi hsiFm30 get def } if %deintp=1 %calculation of intended rgb*dyF, LAB*LabdyF c_dyF 1 eq {%c_dy=1,#1 /r*dyF r*dyM def /g*dyF g*dyM def /b*dyF b*dyM def /LAB*LdyF LAB*LdyM def /LAB*adyF LAB*adyM def /LAB*bdyF LAB*bdyM def }%c_dyF=1 {%c_dyF#1 /t00 1.0 c_dyF 0.5 mul sub def /t0x 0.5 t_dyF 0.5 sub 0.5 mul t00 0.5 sub div add def /r*dyF t0x r*dyM t0x sub c_dyF mul add def /g*dyF t0x g*dyM t0x sub c_dyF mul add def /b*dyF t0x b*dyM t0x sub c_dyF mul add def /L*Xioa L*Nioa t0x L*Wioa L*Nioa sub mul add def /LAB*LdyF L*Xioa LAB*LdyM L*Xioa sub c_dyF mul add def /LAB*adyF 0 LAB*adyM 0 sub c_dyF mul add def /LAB*bdyF 0 LAB*bdyM 0 sub c_dyF mul add def } ifelse %c_dyF=1,#1 } ifelse %grey or color %only for control, not used: calculation of hsiM /hsiM r*dyM 030 sin mul g*dyM 150 sin mul add b*dyM 270 sin mul add %y_d r*dyM 030 cos mul g*dyM 150 cos mul add %x_d 0.0001 add atan def hsiM hab*ds362Mi 0 get sub 0 le {/hsiM hsiM 360 add def} if /hsiMm30 hsiM 30 sub def %only for control, not used: calculation of ict*dyM and ict*dyF %calculation of i*dyM, c*dyM, and t*dyM /maxd r*dyM def g*dyM maxd gt {/maxd g*dyM def} if b*dyM maxd gt {/maxd b*dyM def} if /mind r*dyM def g*dyM mind lt {/mind g*dyM def} if b*dyM mind lt {/mind b*dyM def} if /i*dyM maxd def /c*dyM maxd mind sub def /t*dyM i*dyM c*dyM 0.5 mul sub def %%only for control, not used: calculation of i*dyF, c*dyF, and t*dyF /maxd r*dyF def g*dyF maxd gt {/maxd g*dyF def} if b*dyF maxd gt {/maxd b*dyF def} if /mind r*dyF def g*dyF mind lt {/mind g*dyF def} if b*dyF mind lt {/mind b*dyF def} if /i*dyF maxd def /c*dyF maxd mind sub def /t*dyF i*dyF c*dyF 0.5 mul sub def colorm 0 eq {%colorm=0 r*dyF g*dyF b*dyF }%colorm=0 {%colorm=1 LAB*LdyF LAB*adyF LAB*bdyF Lab2RGBinterpolation /b'*dyF exch def /g'*dyF exch def /r'*dyF exch def r'*dyF g'*dyF b'*dyF } ifelse %colorm=1 FF_LM_setrgbcolor_F } bind def %END FF_LM_de_setrgbcolor_F /FF_LM_xchart_gamma_F {/xchart where {pop /xchartN xchart 8 idiv def /xchartP xchart xchart 8 idiv 8 mul sub def} {/xchartN 2.0 def %default /xchartP 0.5 def} ifelse /gamma_F 2.4 xchartP 0.18 mul sub 2.4 div 1 2.4 xchartN 0.18 mul sub 2.4 div div mul def gamma_F exp } def /FF_LM_setrgbcolor_F {%FF_LM_setrgbcolor_F /FF_LM_b0L exch def /FF_LM_g0L exch def /FF_LM_r0L exch def FF_LM_r0L 0 le {/FF_LM_r0L 0.0001 def} if FF_LM_g0L 0 le {/FF_LM_g0L 0.0001 def} if FF_LM_b0L 0 le {/FF_LM_b0L 0.0001 def} if /FF_LM_r1F FF_LM_r0L FF_LM_xchart_gamma_F def /FF_LM_g1F FF_LM_g0L FF_LM_xchart_gamma_F def /FF_LM_b1F FF_LM_b0L FF_LM_xchart_gamma_F def FF_LM_r1F FF_LM_g1F FF_LM_b1F FF_LM_setrgbcolor_F0 } def %FF_LM_setrgbcolor_F /FF_LM_transfer_F {{FF_LM_xchart_gamma_F} FF_LM_transfer_F0} def /FF_LM_colortransfer_F {{FF_LM_xchart_gamma_F} {FF_LM_xchart_gamma_F} {FF_LM_xchart_gamma_F} FF_LM_colortransfer_F0} def } def %END procedure setcolortrans_F %******************************************************************* /Colordata_sRGB_F {%BEG procedure Colordata_sRGB_F /Xrx089 729 array def /Yrx089 729 array def /Zrx089 729 array def /Xrx100 729 array def /Yrx100 729 array def /Zrx100 729 array def /R0 729 array def /G0 729 array def /B0 729 array def %/RGB0_to_XYZj_F { %BEG procedure RGB0_to_XYZj_F %transfers standard sRGB data (IEC 61966-2-1) to XYZ data for 9x9x9=729 colours %normalized XYZ data with Y=88.59 for display white, compare ISO 9241-306:2008. %requires /(XYZ)rx089 729 array def % /(XYZ)rx100 729 array def %requires in addition /RGB0_F 1080 array def %/Xrx089 729 array def %/Yrx089 729 array def %/Zrx089 729 array def %/Xrx100 729 array def %/Yrx100 729 array def %/Zrx100 729 array def %/R0 729 array def %/G0 729 array def %/B0 729 array def %row no.1 and 2: 9xrgb /imax 08 def /jmax 08 def /kmax 08 def 0 1 kmax {/k exch def %beg k=0,08 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 R0 n k kmax div 1000 mul put G0 n j jmax div 1000 mul put B0 n i imax div 1000 mul put } for %end i=0,jmax } for %end j=0,jmax } for %end k=0,kmax /IM0 729 def /IM1 IM0 1 sub def 0 1 IM1 {/i exch def %i=0,IM1 R0 i get 0.04045 le %equations of IEC 61966-2-1:2003 {/RsRGB R0 i get 12.92 div def} {/RsRGB R0 i get 0.001 mul 0.055 add 1.055 div 2.4 exp def} ifelse G0 i get 0.04045 le {/GsRGB G0 i get 12.92 div def} {/GsRGB G0 i get 0.001 mul 0.055 add 1.055 div 2.4 exp def} ifelse B0 i get 0.04045 le {/BsRGB B0 i get 12.92 div def} {/BsRGB B0 i get 0.001 mul 0.055 add 1.055 div 2.4 exp def} ifelse Xrx100 i 0.4124 RsRGB mul 0.3576 GsRGB mul add 0.1805 BsRGB mul add 100 mul put Yrx100 i 0.2126 RsRGB mul 0.7152 GsRGB mul add 0.0722 BsRGB mul add 100 mul put Zrx100 i 0.0193 RsRGB mul 0.1192 GsRGB mul add 0.9505 BsRGB mul add 100 mul put } for %i=0,IM1 0 1 IM1 {/i exch def %i=0,IM1 Xrx089 i Xrx100 i get 0.8859 mul put Yrx089 i Yrx100 i get 0.8859 mul put Zrx089 i Zrx100 i get 0.8859 mul put } for %i=0,IM1 /iN 0 def /iW 728 def /XLN100 Xrx100 iN get def /YLN100 Yrx100 iN get def /ZLN100 Zrx100 iN get def /XLW100 Xrx100 iW get def /YLW100 Yrx100 iW get def /ZLW100 Zrx100 iW get def /XLN089 Xrx089 iN get def /YLN089 Yrx089 iN get def /ZLN089 Zrx089 iN get def /XLW089 Xrx089 iW get def /YLW089 Yrx089 iW get def /ZLW089 Zrx089 iW get def % achromatic (D65) colours /XLWD65100 95.04 def /YLWD65100 100.00 def /ZLWD65100 108.88 def /XLWD65089 95.04 0.8859 mul def /YLWD65089 100.00 0.8859 mul def /ZLWD65089 108.88 0.8859 mul def /XLN001 XLWD65100 100 div def /YLN001 YLWD65100 100 div def /ZLN001 ZLWD65100 100 div def %} bind def %END procedure RGB0_to_XYZj_F %/xchartj_XYZj_FAB729a_F { %BEG Procedure xchartj_FAB729a_F %transfer from XYZj data to LAB729a CIELAB data for 9x9x9=729 colours %requires 0<= xchartj <=10 (11 luminance reflections) %requires /(XYZ)x089 3240 array def (x=rc,ra,na,la) %requires /(Lab)x089 3240 array def (x=rc,ra,na,la) %requires /x729 729 array def (x=X,Y,Z) %not adapted %requires /x729 729 array def (x=L,a,b) %not adapted %requires /x729a 729 array def (x=L,a,b) %adapted /Lrc089 729 array def /arc089 729 array def /brc089 729 array def /Xrc089 729 array def /Yrc089 729 array def /Zrc089 729 array def /Lra089 729 array def /ara089 729 array def /bra089 729 array def /Xra089 729 array def /Yra089 729 array def /Zra089 729 array def /Lna089 729 array def /ana089 729 array def /bna089 729 array def /Xna089 729 array def /Yna089 729 array def /Zna089 729 array def /Lla089 729 array def /ala089 729 array def /bla089 729 array def /Xla089 729 array def /Yla089 729 array def /Zla089 729 array def /Xj 729 array def /Yj 729 array def /Zj 729 array def /LAB*Lj 729 array def %not adapted /LAB*aj 729 array def /LAB*bj 729 array def /LAB*Lja 729 array def %adapted /LAB*aja 729 array def /LAB*bja 729 array def /DecodeXYZ* {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse} bind def /XD65W 95.04 def /YD65W 100.00 def /ZD65W 108.88 def /XD50W 96.42 def /YD50W 100.00 def /ZD50W 82.51 def /DAKTE [(D65) (D50)] def /ilf 8 array def /ilf [0.00 0.25 0.50 1.00 2.00 4.00 8.00 16.00] def /Lrefl 11 array def /Lrefl [(0%) (0%) (0%) (0%) (0,6%) (1,2%) (2,5%) (5%) (10%) (20%) (40%)] def xchartj 2 le {/il 0 def} {/il xchartj 3 sub def} ifelse %Reference black and factors /YrN 2.52 def /Xtref089 YrN ilf il get mul XLN001 mul def /Ytref089 YrN ilf il get mul def /Ztref089 YrN ilf il get mul ZLN001 mul def /YNil Ytref089 def /YNil001 YNil 100 div def YNil001 6 29 div 3 exp ge {/FYYn YNil001 0.3333 exp def} {/FYYn 841 108 div YNil001 mul 4 29 div add def} ifelse /L*Nil 116 FYYn mul 16 sub def /IM1 728 def 0 1 IM1 {/i exch def %i=0,IM1 Xrc089 i Xrx089 i get put Yrc089 i Yrx089 i get put Zrc089 i Zrx089 i get put /XQ Xrc089 i get XLWD65100 div def /YQ Yrc089 i get YLWD65100 div def /ZQ Zrc089 i get ZLWD65100 div def XQ 0 lt {/XQ 0.00000001 def} if YQ 0 lt {/YQ 0.00000001 def} if ZQ 0 lt {/ZQ 0.00000001 def} if Lrc089 i YQ 0.008856 lt {903.3 YQ mul} {YQ 0.33333333 exp 116 mul 16 sub} ifelse put arc089 i XQ 0.008856 lt {7.787 XQ mul 16 116 div add} {XQ 0.33333333 exp} ifelse YQ 0.008856 lt {7.787 YQ mul 16 116 div add} {YQ 0.33333333 exp} ifelse sub 500 mul put brc089 i YQ 0.008856 lt {7.787 YQ mul 16 116 div add} {YQ 0.33333333 exp} ifelse ZQ 0.008856 lt {7.787 ZQ mul 16 116 div add} {ZQ 0.33333333 exp} ifelse sub 200 mul put } for %i=0,IM1 /L*N Lrc089 0 get def /A*N arc089 0 get def /B*N brc089 0 get def /L*W Lrc089 728 get def /A*W arc089 728 get def /B*W brc089 728 get def 0 1 IM1 {/i exch def %i=0,IM1 Lra089 i Lrc089 i get put /l*CIE Lrc089 i get L*N sub L*W L*N sub div def %system rel. lightn. /a*s A*W A*N sub l*CIE mul def /b*s B*W B*N sub l*CIE mul def ara089 i arc089 i get A*N sub a*s sub put bra089 i brc089 i get B*N sub b*s sub put } for %i=0,IM1 0 1 IM1 {/i exch def %i=0,IM1 /X* {Lra089 i get 16 add 116 div ara089 i get 500 div add} bind def /Y* {Lra089 i get 16 add 116 div} bind def /Z* {Lra089 i get 16 add 116 div bra089 i get 200 div sub} bind def Xra089 i X* DecodeXYZ* XLWD65100 mul put Yra089 i Y* DecodeXYZ* YLWD65100 mul put Zra089 i Z* DecodeXYZ* ZLWD65100 mul put } for %i=0,IM1 xchartj 2 ge {%xchartj>=2 %for white X data /Xwref089 Xra089 728 get def /Ywref089 Yra089 728 get def /Zwref089 Zra089 728 get def %for black X data /YrN Yra089 0 get def /Xnref089 YrN XLN001 mul def /Ynref089 YrN def /Znref089 YrN ZLN001 mul def /IM1 728 def 0 1 IM1 {/i exch def %i=1,IM1 Xna089 i Xra089 i get Xnref089 sub Xwref089 Xwref089 Xnref089 sub div mul put Yna089 i Yra089 i get Ynref089 sub Ywref089 Ywref089 Ynref089 sub div mul put Zna089 i Zra089 i get Znref089 sub Zwref089 Zwref089 Znref089 sub div mul put } for %i=1,IM1 0 1 IM1 {/i exch def %i=1,IM1 /XQ Xna089 i get XLWD65100 div def /YQ Yna089 i get YLWD65100 div def /ZQ Zna089 i get ZLWD65100 div def XQ 0 lt {/XQ 0.00000001 def} if YQ 0 lt {/YQ 0.00000001 def} if ZQ 0 lt {/ZQ 0.00000001 def} if Lna089 i YQ 0.008856 lt {903.3 YQ mul} {YQ 0.33333333 exp 116 mul 16 sub} ifelse put ana089 i XQ 0.008856 lt {7.787 XQ mul 16 116 div add} {XQ 0.33333333 exp} ifelse YQ 0.008856 lt {7.787 YQ mul 16 116 div add} {YQ 0.33333333 exp} ifelse sub 500 mul put bna089 i YQ 0.008856 lt {7.787 YQ mul 16 116 div add} {YQ 0.33333333 exp} ifelse ZQ 0.008856 lt {7.787 ZQ mul 16 116 div add} {ZQ 0.33333333 exp} ifelse sub 200 mul put } for %i=1,IM1 } if %xchart>=2 xchartj 3 ge {%xchart>=3 %for white X data /Xwref089 Xra089 728 get def /Ywref089 Yra089 728 get def /Zwref089 Zra089 728 get def /kn Ywref089 Ywref089 Ytref089 sub div def 0 1 IM1 {/i exch def %i=1,IM1 Xla089 i Xna089 i get kn div Xtref089 add put Yla089 i Yna089 i get kn div Ytref089 add put Zla089 i Zna089 i get kn div Ztref089 add put } for %i=1,IM1 0 1 IM1 {/i exch def %i=1,IM1 /XQ Xla089 i get XLWD65100 div def /YQ Yla089 i get YLWD65100 div def /ZQ Zla089 i get ZLWD65100 div def XQ 0 lt {/XQ 0.00000001 def} if YQ 0 lt {/YQ 0.00000001 def} if ZQ 0 lt {/ZQ 0.00000001 def} if Lla089 i YQ 0.008856 lt {903.3 YQ mul} {YQ 0.33333333 exp 116 mul 16 sub} ifelse put ala089 i XQ 0.008856 lt {7.787 XQ mul 16 116 div add} {XQ 0.33333333 exp} ifelse YQ 0.008856 lt {7.787 YQ mul 16 116 div add} {YQ 0.33333333 exp} ifelse sub 500 mul put bla089 i YQ 0.008856 lt {7.787 YQ mul 16 116 div add} {YQ 0.33333333 exp} ifelse ZQ 0.008856 lt {7.787 ZQ mul 16 116 div add} {ZQ 0.33333333 exp} ifelse sub 200 mul put } for %i=1,IM1 } if %xchart>=3 xchartj 0 eq {%xchartj=0 (1x) 0 1 IM1 {/i exch def %i=0,IM1 LAB*Lj i Lrc089 i get put LAB*aj i arc089 i get put LAB*bj i brc089 i get put Xj i Xrc089 i get put Yj i Yrc089 i get put Zj i Zrc089 i get put } for %i=0,IM1 } if %xchartj=0 (1x) xchartj 1 eq {%xchartj=1 (1x) 0 1 IM1 {/i exch def %i=0,IM1 LAB*Lj i Lra089 i get put LAB*aj i ara089 i get put LAB*bj i bra089 i get put Xj i Xra089 i get put Yj i Yra089 i get put Zj i Zra089 i get put } for %i=0,IM1 } if %xchartj=1 (1x) xchartj 2 eq {%xchartj=2 (1x) 0 1 IM1 {/i exch def %i=0,IM1 LAB*Lj i Lna089 i get put LAB*aj i ana089 i get put LAB*bj i bna089 i get put Xj i Xna089 i get put Yj i Yna089 i get put Zj i Zna089 i get put } for %i=0,IM1 } if %xchartj=2 (1x) xchartj 3 ge {%xchartj=3,4,5,6,7,8,9,10 (8x) 0 1 728 {/i exch def %i=0,IM1 LAB*Lj i Lla089 i get put LAB*aj i ala089 i get put LAB*bj i bla089 i get put Xj i Xla089 i get put Yj i Yla089 i get put Zj i Zla089 i get put } for %i=0,IM1 } if %xchartj=3,4,5,6,7,8,9,10 (8x) %Adaptation /L*Nio LAB*Lj 000 get def /A*Nio LAB*aj 000 get def /B*Nio LAB*bj 000 get def /L*Wio LAB*Lj 728 get def /A*Wio LAB*aj 728 get def /B*Wio LAB*bj 728 get def /A*Dio A*Wio A*Nio sub def /B*Dio B*Wio B*Nio sub def 0 1 728 {/j exch def %j=0,728 LAB*Lja j LAB*Lj j get put /l*CIE LAB*Lj j 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*aja j LAB*aj j get A*Nio sub a*s sub put LAB*bja j LAB*bj j get B*Nio sub b*s sub put } for %j=0,728 /L*Nioa LAB*Lja 0 get def /A*Nioa LAB*aja 0 get def /B*Nioa LAB*bja 0 get def /L*Wioa LAB*Lja 728 get def /A*Wioa LAB*aja 728 get def /B*Wioa LAB*bja 728 get def /nR 9 def %lut size /nG 9 def /nB 9 def /nges nR nG nB mul mul def /lut 2187 array def %729x3=2187 (only 9x9x9 used) 0 1 728 {/i exch def %i=0,728 /i3 i 3 mul def lut i3 LAB*Lja i get put lut i3 1 add LAB*aja i get put lut i3 2 add LAB*bja i get put } for %i=0,729 %} bind def %END xchartj_XYZj_FAB729a_F } bind def %END procedure Colordata_sRGB_F %***************************************************************************** %BEG Procedure PROC_SPEC_IOF Colour special for NP-file 20120401 %***************************************************************************** %different procedures: % proc_LAB729a_to_LAB*LabCh64M and proc_LAB*LabCh64M_to_tab362_dy %*********************************************************** /proc_LAB729a_to_LAB*LabCh64M { %BEG Procedure proc_LAB729a_to_LAB*LabCh64M %transfer from proc_LAB729a_to_LAB*LabCh64M, %9x9x9=729 steps used for LAB729a %requires /LAB*LabCh64M 64 array def %requires in addition /LAB729a 729 array def /LAB*Ldd64M 64 array def /LAB*add64M 64 array def /LAB*bdd64M 64 array def /LAB*Cdd64M 64 array def /LAB*hdd64M 64 array def /hab*dd64M 64 array def /M1jx 49 array def 0 1 5 {/xtonj exch def %xtonj=0,5 0 1 7 {/j exch def %j=0,7 /ja xtonj 8 mul j add def xtonj 0 eq {/jx 648 j 09 mul add def} if %see O00Y-O83Y, -0 xtonj 1 eq {/jx 720 j 81 mul sub def} if %see Y00L-Y83L, -81 xtonj 2 eq {/jx 072 j add def} if %see L00C-L83C, +01 xtonj 3 eq {/jx 080 j 09 mul sub def} if %see C00V-C83V, -09 xtonj 4 eq {/jx 008 j 81 mul add def} if %see V00M-V83M, -81 xtonj 5 eq {/jx 656 j sub def} if %see M00O-M83O, +01 LAB*Ldd64M ja LAB*Lja jx get put LAB*add64M ja LAB*aja jx get put LAB*bdd64M ja LAB*bja jx get put LAB*Cdd64M ja LAB*add64M ja get dup mul LAB*bdd64M ja get dup mul add sqrt put LAB*hdd64M ja LAB*bdd64M ja get LAB*add64M ja get 0.0001 add atan put xtonj 5 eq LAB*hdd64M ja get 90 le and {LAB*hdd64M ja LAB*hdd64M ja get 360 add put} if M1jx ja jx put } for %j=0,7 } for %xtonj=0,5 M1jx 48 M1jx 0 get put 0 1 15 {/i exch def %i=0,15 LAB*Ldd64M 48 i add LAB*Ldd64M i get put LAB*add64M 48 i add LAB*add64M i get put LAB*bdd64M 48 i add LAB*bdd64M i get put LAB*Cdd64M 48 i add LAB*Cdd64M i get put LAB*hdd64M 48 i add LAB*hdd64M i get 360 add put } for %i=1,15 0 1 63 {/i exch def %i=0,63 hab*dd64M i LAB*hdd64M i get put } for %i=0,63 %data test according to increasing hue angle and appropriate correction /xtesthuea -1 def /xtesthuei 64 array def 0 1 48 {/i exch def %i=0,49 hab*dd64M i get hab*dd64M i 1 add get gt {/xtesthuea xtesthuea 1 add def xtesthuei xtesthuea i put hab*dd64M i 1 add hab*dd64M i get put LAB*Ldd64M i 1 add LAB*Ldd64M i get put LAB*add64M i 1 add LAB*add64M i get put LAB*bdd64M i 1 add LAB*bdd64M i get put LAB*Cdd64M i 1 add LAB*Cdd64M i get put LAB*hdd64M i 1 add LAB*hdd64M i get put } if } for %i=0,49 } bind def %END proc_LAB729a_to_LAB*LabCh64M %*********************************************************** /proc_LAB*LabCh64M_to_tab362_dy { %BEG procedure proc_LAB*LabCh64M_to_tab362_dy /LAB*e 40 array def %8x5=40 LabCh* /LAB*e [39.92 58.74 27.99 0.0 0.0 %0 00_04 R CIE No.09 elementary in LAB 81.26 -2.89 71.56 0.0 0.0 %1 05_09 J CIE No.10 52.23 -42.42 13.60 0.0 0.0 %2 10_14 G CIE No.11 0.0 0.0 0.0 0.0 0.0 %3 15_19 Cgb to be calculated 30.57 1.41 -46.47 0.0 0.0 %4 20_24 B CIE No.12 0.0 0.0 0.0 0.0 0.0 %5 25_29 Mbr to be calculated 39.92 58.74 27.99 0.0 0.0 %6 30_34 Re+360 to be calculated 81.26 -2.89 71.56 0.0 0.0 %7 35_39 Ye+360 to be calculated ] def %add no. 03_04 Re LAB*e 03 LAB*e 01 get dup mul LAB*e 02 get dup mul add sqrt put LAB*e 04 LAB*e 02 get LAB*e 01 get 0.0001 add atan put %add no. 08_09 Ye LAB*e 08 LAB*e 06 get dup mul LAB*e 07 get dup mul add sqrt put LAB*e 09 LAB*e 07 get LAB*e 06 get 0.0001 add atan put %add no. 13_14 Ge LAB*e 13 LAB*e 11 get dup mul LAB*e 12 get dup mul add sqrt put LAB*e 14 LAB*e 12 get LAB*e 11 get 0.0001 add atan put %add no. 23_24 Be LAB*e 23 LAB*e 21 get dup mul LAB*e 22 get dup mul add sqrt put LAB*e 24 LAB*e 22 get LAB*e 21 get 0.0001 add atan put %add no. 33_34 Re+360 LAB*e 33 LAB*e 31 get dup mul LAB*e 32 get dup mul add sqrt put LAB*e 34 LAB*e 32 get LAB*e 31 get 0.0001 add atan 360 add put %add no. 38_39 Ye+360 LAB*e 38 LAB*e 36 get dup mul LAB*e 37 get dup mul add sqrt put LAB*e 39 LAB*e 37 get LAB*e 36 get 0.0001 add atan 360 add put %new no. 15_19 Cgb with Ge_Be LAB*e 19 LAB*e 14 get LAB*e 24 get add 0.5 mul put %hab LAB*e 18 LAB*e 13 get LAB*e 23 get add 0.5 mul put %C*ab LAB*e 15 LAB*e 10 get LAB*e 20 get add 0.5 mul put %L* LAB*e 16 LAB*e 18 get LAB*e 19 get cos mul put %a* LAB*e 17 LAB*e 18 get LAB*e 19 get sin mul put %b* %new no. 25_29 Mbr with Be_Re+360 LAB*e 29 LAB*e 24 get LAB*e 34 get add 0.5 mul put %hab LAB*e 28 LAB*e 23 get LAB*e 33 get add 0.5 mul put %C*ab LAB*e 25 LAB*e 20 get LAB*e 00 get add 0.5 mul put %L* LAB*e 26 LAB*e 28 get LAB*e 29 get cos mul put %a* LAB*e 27 LAB*e 28 get LAB*e 29 get sin mul put %b* /LAB*He 8 array def 0 1 7 {/i exch def %i=0,7 LAB*He i LAB*e i 5 mul 4 add get put } for %i=0,7 /hab*de64M 50 array def 0 1 47 {/i exch def %i=0,47 /i8 i 8 idiv def /i8d i i8 8 mul sub def /dLAB*He LAB*He i8 1 add get LAB*He i8 get sub 8 div def hab*de64M i LAB*He i8 get dLAB*He i8d mul add put } for %i=0,47 hab*de64M 48 hab*de64M 0 get 360 add put hab*de64M 49 hab*de64M 1 get 360 add put /LAB*Hs 8 array def /LAB*Hs [30. 90. 150. 210. 270. 330. 390. 450.] def /hab*ds64M 50 array def 0 1 47 {/i exch def %i=0,47 /i8 i 8 idiv def /i8d i i8 8 mul sub def /dLAB*Hs LAB*Hs i8 1 add get LAB*Hs i8 get sub 8 div def hab*ds64M i LAB*Hs i8 get dLAB*Hs i8d mul add put } for %i=0,47 hab*ds64M 48 hab*ds64M 0 get 360 add put hab*ds64M 49 hab*ds64M 1 get 360 add put %***************** calculation of LAB*LabChd362Mi and rgb*dd362Mi %***************** for 362 elementary hue angles /LAB*Ldd362Mi 362 array def /LAB*add362Mi 362 array def /LAB*bdd362Mi 362 array def /LAB*Cdd362Mi 362 array def /LAB*hdd362Mi 362 array def /r*dd362Mi 362 array def /g*dd362Mi 362 array def /b*dd362Mi 362 array def %******default rgb-input data for output of device colours /r*dd64M 64 array def /r*dd64M [1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 %R 1.000 0.875 0.750 0.625 0.500 0.375 0.250 0.125 %J 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 %G 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 %C 0.000 0.125 0.250 0.375 0.500 0.625 0.750 0.875 %B 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 %M 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 %R 1.000 0.875 0.750 0.625 0.500 0.375 0.250 0.125 %J ] def /g*dd64M 64 array def /g*dd64M [0.000 0.125 0.250 0.375 0.500 0.625 0.750 0.875 %R 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 %J 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 %G 1.000 0.875 0.750 0.625 0.500 0.375 0.250 0.125 %C 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 %B 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 %M 0.000 0.125 0.250 0.375 0.500 0.625 0.750 0.875 %R 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 %J ] def /b*dd64M 64 array def /b*dd64M [0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 %R 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 %J 0.000 0.125 0.250 0.375 0.500 0.625 0.750 0.875 %G 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 %C 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 %B 1.000 0.875 0.750 0.625 0.500 0.375 0.250 0.125 %M 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 %R 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 %J ] def %calculate all data of 16+1=17 step elementary colour circle /ind64M 17 array def /ind64M %R00Y R25Y R50Y R75Y Y00G Y25G Y50G Y75G [0 2 4 6 8 10 12 14 %G00B G25B G50B G75G B00R B25R B50R B75R R00Y 16 20 24 28 32 36 40 44 0 ] def %actual 16 step device circle + N + W /r*dd18M 18 array def /g*dd18M 18 array def /b*dd18M 18 array def 0 1 15 {/i exch def %i=0,15 /indi ind64M i get def r*dd18M i r*dd64M indi get put %16 device colours g*dd18M i g*dd64M indi get put b*dd18M i b*dd64M indi get put } for %i=0,15 r*dd18M 16 0 put %N g*dd18M 16 0 put b*dd18M 16 0 put r*dd18M 17 1 put %W g*dd18M 17 1 put b*dd18M 17 1 put %actual 6 step device circle + N + W /r*dd08M 08 array def /g*dd08M 08 array def /b*dd08M 08 array def 0 1 5 {/i exch def %i=0,5 r*dd08M i r*dd64M i 8 mul get put %6 device colours g*dd08M i g*dd64M i 8 mul get put b*dd08M i b*dd64M i 8 mul get put } for %i=0,5 r*dd08M 6 0 put %N g*dd08M 6 0 put b*dd08M 6 0 put r*dd08M 7 1 put %W g*dd08M 7 1 put b*dd08M 7 1 put 0 1 361 {/i exch def %i=0,361 %default only for test r*dd362Mi i 0 put %of irregularities g*dd362Mi i 0 put b*dd362Mi i 0 put LAB*Ldd362Mi i 0.0001 put LAB*add362Mi i 0 put LAB*bdd362Mi i 0 put LAB*Cdd362Mi i 0 put LAB*hdd362Mi i 0 put } for %i=0,361 % s-data 030,0 -> LAB*hdd64M 0 get -> LAB*Ldd362Mi 30,0 put: LAB*hdd362Mi=40 % s-data 037,5 -> LAB*hdd64M 1 get -> LAB*Ldd362Mi 37,5 put: LAB*hdd362Mi=41,3 % s-data 045,0 -> LAB*hdd64M 2 get -> LAB*Ldd362Mi 45,0 put: LAB*hdd362Mi=44,6 % s-data 052,5 -> LAB*hdd64M 3 get -> LAB*Ldd362Mi 52,5 put: LAB*hdd362Mi=50,7 %... % s-data 090,0 -> LAB*hdd64M 8 get -> LAB*Ldd362Mi 90,0 put: LAB*hdd362Mi=102,8 % s-data 330,0 -> LAB*hdd64M 41 get -> LAB*Ldd362Mi 330,0 put: LAB*hdd362Mi=328 % s-data 337,5 -> LAB*hdd64M 42 get -> LAB*Ldd362Mi 337,5 put: LAB*hdd362Mi=334 % s-data 345,0 -> LAB*hdd64M 43 get -> LAB*Ldd362Mi 345,0 put: LAB*hdd362Mi=341 % s-data 352,5 -> LAB*hdd64M 44 get -> LAB*Ldd362Mi 352,5 put: LAB*hdd362Mi=351 % s-data 360,0 -> LAB*hdd64M 45 get -> LAB*Ldd362Mi 360,0 put: LAB*hdd362Mi=352 %... % s-data 390,0 -> LAB*hdd64M 49 get -> LAB*Ldd362Mi 390,0 put: LAB*hdd362Mi=400 0 15 345 {/i exch def %i=0,15,345 /ix00 i 15 idiv 2 mul def /ix01 ix00 1 add def /ix02 ix00 2 add def 0 1 14 {/j exch def %j=0,14 j 07 le {%j<=7 /XIE j 7.5 div def /i0 i j add def /ix0 ix00 def /ix1 ix01 def }%j<=7 {%j>7 /XIE j 8 sub 0.5 add 7.5 div def /i0 i j add def /ix0 ix01 def /ix1 ix02 def } ifelse %j>7 LAB*Ldd362Mi i0 LAB*Ldd64M ix0 get LAB*Ldd64M ix1 get LAB*Ldd64M ix0 get sub XIE mul add put LAB*Cdd362Mi i0 LAB*Cdd64M ix0 get LAB*Cdd64M ix1 get LAB*Cdd64M ix0 get sub XIE mul add put LAB*hdd362Mi i0 LAB*hdd64M ix0 get LAB*hdd64M ix1 get LAB*hdd64M ix0 get sub XIE mul add dup 90 gt i0 45 le and {360 sub} if put LAB*add362Mi i0 LAB*Cdd362Mi i0 get LAB*hdd362Mi i0 get cos mul put LAB*bdd362Mi i0 LAB*Cdd362Mi i0 get LAB*hdd362Mi i0 get sin mul put r*dd362Mi i0 r*dd64M ix0 get r*dd64M ix1 get r*dd64M ix0 get sub XIE mul add put g*dd362Mi i0 g*dd64M ix0 get g*dd64M ix1 get g*dd64M ix0 get sub XIE mul add put b*dd362Mi i0 b*dd64M ix0 get b*dd64M ix1 get b*dd64M ix0 get sub XIE mul add put } for %j=0,14 } for %i0=0,15,345 0 1 1 {/i exch def %i=0,1 LAB*Ldd362Mi 360 i add LAB*Ldd362Mi i get put LAB*add362Mi 360 i add LAB*add362Mi i get put LAB*bdd362Mi 360 i add LAB*bdd362Mi i get put LAB*Cdd362Mi 360 i add LAB*Cdd362Mi i get put LAB*hdd362Mi 360 i add LAB*hdd362Mi i get 360 add put r*dd362Mi 360 i add r*dd362Mi i get put g*dd362Mi 360 i add g*dd362Mi i get put b*dd362Mi 360 i add b*dd362Mi i get put } for %i=0,1 /hab*dd362Fi 362 array def 0 1 361 {/i exch def %i=0,361 hab*dd362Fi i LAB*hdd362Mi i get put %floating point F } for %i=0,361 %***************** calculation of hab*ds362Mi %integer %***************** for 362 standard hue angles /hab*ds362Mi 362 array def 0 1 361 {/i exch def %i=0,361 %range 30..391 hab*ds362Mi i 30 i add put %always integer } for %i=0,361 %***************** calculation of LAB*LabChs362Mi and rgb*ds362Mi %***************** for 362 device hue angles /LAB*Lds362Mi 362 array def /LAB*ads362Mi 362 array def /LAB*bds362Mi 362 array def /LAB*Cds362Mi 362 array def /LAB*hds362Mi 362 array def /r*ds362Mi 362 array def /g*ds362Mi 362 array def /b*ds362Mi 362 array def 0 1 361 {/i exch def %i=0,361 %default only for test r*ds362Mi i 0 put %of irregularities g*ds362Mi i 0 put b*ds362Mi i 0 put LAB*Lds362Mi i 0.0001 put LAB*ads362Mi i 0 put LAB*bds362Mi i 0 put LAB*Cds362Mi i 0 put LAB*hds362Mi i 0 put } for %i=0,361 0 1 359 {/i0 exch def %i=0,359 /i0i hab*ds362Mi i0 get def %integer range 30...390 i0i hab*dd362Fi 0 get lt {/i0i i0i 360 add def} if 0 1 47 {/ix0 exch def %ix0=0,48 /ix1 ix0 1 add def i0i LAB*hdd64M ix0 get sub 0 ge i0i LAB*hdd64M ix1 get sub 0 lt and {%ge..lt /XIE i0i LAB*hdd64M ix0 get sub LAB*hdd64M ix1 get LAB*hdd64M ix0 get sub div def LAB*Lds362Mi i0 LAB*Ldd64M ix0 get LAB*Ldd64M ix1 get LAB*Ldd64M ix0 get sub XIE mul add put LAB*Cds362Mi i0 LAB*Cdd64M ix0 get LAB*Cdd64M ix1 get LAB*Cdd64M ix0 get sub XIE mul add put LAB*hds362Mi i0 LAB*hdd64M ix0 get LAB*hdd64M ix1 get LAB*hdd64M ix0 get sub XIE mul add dup 90 gt i0 45 le and {360 sub} if put LAB*ads362Mi i0 LAB*Cds362Mi i0 get LAB*hds362Mi i0 get cos mul put LAB*bds362Mi i0 LAB*Cds362Mi i0 get LAB*hds362Mi i0 get sin mul put r*ds362Mi i0 r*dd64M ix0 get r*dd64M ix1 get r*dd64M ix0 get sub XIE mul add put g*ds362Mi i0 g*dd64M ix0 get g*dd64M ix1 get g*dd64M ix0 get sub XIE mul add put b*ds362Mi i0 b*dd64M ix0 get b*dd64M ix1 get b*dd64M ix0 get sub XIE mul add put exit } if %ge..lt } for %ix0=0,47 } for %i=0,359 0 1 1 {/i exch def %i=0,1 LAB*Lds362Mi 360 i add LAB*Lds362Mi i get put LAB*ads362Mi 360 i add LAB*ads362Mi i get put LAB*bds362Mi 360 i add LAB*bds362Mi i get put LAB*Cds362Mi 360 i add LAB*Cds362Mi i get put LAB*hds362Mi 360 i add LAB*hds362Mi i get 360 add put r*ds362Mi 360 i add r*ds362Mi i get put g*ds362Mi 360 i add g*ds362Mi i get put b*ds362Mi 360 i add b*ds362Mi i get put } for %i=0,1 %***************** calculation of hab*de362Fi %***************** for 362 elementary hue angles /hab*de362Fi 362 array def %floating point %range 26..386 30 1 389 {/i exch def %i=30,389 /im30 i 30 sub def /hab*sM i def %alphas = [habs - LAB*Hs(h)]/[LAB*Hs(n+1) - LAB*Hs(n)] % = [habs - LAB*Hs(h)]/60 %habe = LAB*He(n) + alphas [LAB*He(n+1) - LAB*He(n)] %use of LAB*He 0..7 Re_to_Ye i 030 ge i 089 le and {/ipan0 0 def /ipan1 1 def} if i 090 ge i 149 le and {/ipan0 1 def /ipan1 2 def} if i 150 ge i 209 le and {/ipan0 2 def /ipan1 3 def} if i 210 ge i 269 le and {/ipan0 3 def /ipan1 4 def} if i 270 ge i 329 le and {/ipan0 4 def /ipan1 5 def} if i 330 ge i 359 le and {/ipan0 5 def /ipan1 6 def} if i 360 ge i 389 le and {/ipan0 6 def /ipan1 7 def} if /alphas {hab*sM LAB*Hs ipan0 get sub 60 div} bind def /habe {LAB*He ipan0 get LAB*He ipan1 get LAB*He ipan0 get sub alphas mul add} bind def hab*de362Fi im30 habe put %floating point } for %i=30,389 hab*de362Fi 360 hab*de362Fi 0 get 360 add put hab*de362Fi 361 hab*de362Fi 1 get 360 add put %***************** calculation LAB*LabChe32Mi and rgb*de362Mi %***************** for 362 elementary hue angles /LAB*Lde362Mi 362 array def /LAB*ade362Mi 362 array def /LAB*bde362Mi 362 array def /LAB*Cde362Mi 362 array def /LAB*hde362Mi 362 array def /r*de362Mi 362 array def /g*de362Mi 362 array def /b*de362Mi 362 array def 0 1 361 {/i exch def %i=0,361 %default only for test r*de362Mi i 0 put %of irregularities g*de362Mi i 0 put b*de362Mi i 0 put LAB*Lde362Mi i 0.0001 put LAB*ade362Mi i 0 put LAB*bde362Mi i 0 put LAB*Cde362Mi i 0 put LAB*hde362Mi i 0 put } for %i=0,361 0 1 359 {/i0 exch def %i=0,359 /i0i hab*de362Fi i0 get def %range 26...386 i0i hab*dd362Fi 0 get lt {/i0i i0i 360 add def} if 0 1 47 {/ix0 exch def %ix0=0,48 /ix1 ix0 1 add def i0i LAB*hdd64M ix0 get sub 0 ge i0i LAB*hdd64M ix1 get sub 0 lt and {%ge..lt /XIE i0i LAB*hdd64M ix0 get sub LAB*hdd64M ix1 get LAB*hdd64M ix0 get sub div def LAB*Lde362Mi i0 LAB*Ldd64M ix0 get LAB*Ldd64M ix1 get LAB*Ldd64M ix0 get sub XIE mul add put LAB*Cde362Mi i0 LAB*Cdd64M ix0 get LAB*Cdd64M ix1 get LAB*Cdd64M ix0 get sub XIE mul add put LAB*hde362Mi i0 LAB*hdd64M ix0 get LAB*hdd64M ix1 get LAB*hdd64M ix0 get sub XIE mul add dup 90 gt i0 45 le and {360 sub} if put LAB*ade362Mi i0 LAB*Cde362Mi i0 get LAB*hde362Mi i0 get cos mul put LAB*bde362Mi i0 LAB*Cde362Mi i0 get LAB*hde362Mi i0 get sin mul put r*de362Mi i0 r*dd64M ix0 get r*dd64M ix1 get r*dd64M ix0 get sub XIE mul add put g*de362Mi i0 g*dd64M ix0 get g*dd64M ix1 get g*dd64M ix0 get sub XIE mul add put b*de362Mi i0 b*dd64M ix0 get b*dd64M ix1 get b*dd64M ix0 get sub XIE mul add put exit } if %ge..lt } for %ix0=0,47 } for %i=0,359 0 1 1 {/i exch def %i=0,1 LAB*Lde362Mi 360 i add LAB*Lde362Mi i get put LAB*ade362Mi 360 i add LAB*ade362Mi i get put LAB*bde362Mi 360 i add LAB*bde362Mi i get put LAB*Cde362Mi 360 i add LAB*Cde362Mi i get put LAB*hde362Mi 360 i add LAB*hde362Mi i get 360 add put r*de362Mi 360 i add r*de362Mi i get put g*de362Mi 360 i add g*de362Mi i get put b*de362Mi 360 i add b*de362Mi i get put } for %i=0,1 %special LAB* data calculation of 17 step colour circle %needs LAB*LabCh64M, hab*dd64M /ind64M 17 array def /ind64M %R00Y R25Y R50Y R75Y Y00G Y25G Y50G Y75G [0 2 4 6 8 10 12 14 %G00B G25B G50B G75G B00R B25R B50R B75R R00Y 16 20 24 28 32 36 40 44 0 ] def /LAB*Ldd18M 17 array def /LAB*add18M 17 array def /LAB*bdd18M 17 array def /LAB*Cdd18M 17 array def /LAB*hdd18M 17 array def /hab*dd18M 17 array def 0 1 16 {/i exch def %i=0,16 /indi ind64M i get def LAB*Ldd18M i LAB*Ldd64M indi get put LAB*add18M i LAB*add64M indi get put LAB*bdd18M i LAB*bdd64M indi get put LAB*Cdd18M i LAB*Cdd64M indi get put LAB*hdd18M i LAB*hdd64M indi get put hab*dd18M i hab*dd64M indi get put } for %i=0,16 } bind def %END proc_LAB*LabCh64M_to_tab362_dy %***************************************************************************** %END Procedure PROC_SPEC_IOF Colour special for NP-file 20120401 %***************************************************************************** /FileDaten (sRGB standard device; no separation, D65) def /FileDatde (sRGB Norm\255Ger\344t; keine Separation, D65) def /RGB0_F 3240 array def %1080*3 /RGB0_F [%1000 x rgb* nr. pos 1080 colours 0000 0000 0000 %0000 A01 0000 0000 0125 %0001 A02 0000 0000 0250 %0002 A03 0000 0000 0375 %0003 A04 0000 0000 0500 %0004 A05 0000 0000 0625 %0005 A06 0000 0000 0750 %0006 A07 0000 0000 0875 %0007 A08 0000 0000 1000 %0008 A09 0000 0125 0000 %0009 B01 0000 0125 0125 %0010 B02 0000 0125 0250 %0011 B03 0000 0125 0375 %0012 B04 0000 0125 0500 %0013 B05 0000 0125 0625 %0014 B06 0000 0125 0750 %0015 B07 0000 0125 0875 %0016 B08 0000 0125 1000 %0017 B09 0000 0250 0000 %0018 C01 0000 0250 0125 %0019 C02 0000 0250 0250 %0020 C03 0000 0250 0375 %0021 C04 0000 0250 0500 %0022 C05 0000 0250 0625 %0023 C06 0000 0250 0750 %0024 C07 0000 0250 0875 %0025 C08 0000 0250 1000 %0026 C09 0000 0375 0000 %0027 D01 0000 0375 0125 %0028 D02 0000 0375 0250 %0029 D03 0000 0375 0375 %0030 D04 0000 0375 0500 %0031 D05 0000 0375 0625 %0032 D06 0000 0375 0750 %0033 D07 0000 0375 0875 %0034 D08 0000 0375 1000 %0035 D09 0000 0500 0000 %0036 E01 0000 0500 0125 %0037 E02 0000 0500 0250 %0038 E03 0000 0500 0375 %0039 E04 0000 0500 0500 %0040 E05 0000 0500 0625 %0041 E06 0000 0500 0750 %0042 E07 0000 0500 0875 %0043 E08 0000 0500 1000 %0044 E09 0000 0625 0000 %0045 F01 0000 0625 0125 %0046 F02 0000 0625 0250 %0047 F03 0000 0625 0375 %0048 F04 0000 0625 0500 %0049 F05 0000 0625 0625 %0050 F06 0000 0625 0750 %0051 F07 0000 0625 0875 %0052 F08 0000 0625 1000 %0053 F09 0000 0750 0000 %0054 G01 0000 0750 0125 %0055 G02 0000 0750 0250 %0056 G03 0000 0750 0375 %0057 G04 0000 0750 0500 %0058 G05 0000 0750 0625 %0059 G06 0000 0750 0750 %0060 G07 0000 0750 0875 %0061 G08 0000 0750 1000 %0062 G09 0000 0875 0000 %0063 H01 0000 0875 0125 %0064 H02 0000 0875 0250 %0065 H03 0000 0875 0375 %0066 H04 0000 0875 0500 %0067 H05 0000 0875 0625 %0068 H06 0000 0875 0750 %0069 H07 0000 0875 0875 %0070 H08 0000 0875 1000 %0071 H09 0000 1000 0000 %0072 I01 0000 1000 0125 %0073 I02 0000 1000 0250 %0074 I03 0000 1000 0375 %0075 I04 0000 1000 0500 %0076 I05 0000 1000 0625 %0077 I06 0000 1000 0750 %0078 I07 0000 1000 0875 %0079 I08 0000 1000 1000 %0080 I09 0125 0000 0000 %0081 J01 0125 0000 0125 %0082 J02 0125 0000 0250 %0083 J03 0125 0000 0375 %0084 J04 0125 0000 0500 %0085 J05 0125 0000 0625 %0086 J06 0125 0000 0750 %0087 J07 0125 0000 0875 %0088 J08 0125 0000 1000 %0089 J09 0125 0125 0000 %0090 K01 0125 0125 0125 %0091 K02 0125 0125 0250 %0092 K03 0125 0125 0375 %0093 K04 0125 0125 0500 %0094 K05 0125 0125 0625 %0095 K06 0125 0125 0750 %0096 K07 0125 0125 0875 %0097 K08 0125 0125 1000 %0098 K09 0125 0250 0000 %0099 L01 0125 0250 0125 %0100 L02 0125 0250 0250 %0101 L03 0125 0250 0375 %0102 L04 0125 0250 0500 %0103 L05 0125 0250 0625 %0104 L06 0125 0250 0750 %0105 L07 0125 0250 0875 %0106 L08 0125 0250 1000 %0107 L09 0125 0375 0000 %0108 M01 0125 0375 0125 %0109 M02 0125 0375 0250 %0110 M03 0125 0375 0375 %0111 M04 0125 0375 0500 %0112 M05 0125 0375 0625 %0113 M06 0125 0375 0750 %0114 M07 0125 0375 0875 %0115 M08 0125 0375 1000 %0116 M09 0125 0500 0000 %0117 N01 0125 0500 0125 %0118 N02 0125 0500 0250 %0119 N03 0125 0500 0375 %0120 N04 0125 0500 0500 %0121 N05 0125 0500 0625 %0122 N06 0125 0500 0750 %0123 N07 0125 0500 0875 %0124 N08 0125 0500 1000 %0125 N09 0125 0625 0000 %0126 O01 0125 0625 0125 %0127 O02 0125 0625 0250 %0128 O03 0125 0625 0375 %0129 O04 0125 0625 0500 %0130 O05 0125 0625 0625 %0131 O06 0125 0625 0750 %0132 O07 0125 0625 0875 %0133 O08 0125 0625 1000 %0134 O09 0125 0750 0000 %0135 P01 0125 0750 0125 %0136 P02 0125 0750 0250 %0137 P03 0125 0750 0375 %0138 P04 0125 0750 0500 %0139 P05 0125 0750 0625 %0140 P06 0125 0750 0750 %0141 P07 0125 0750 0875 %0142 P08 0125 0750 1000 %0143 P09 0125 0875 0000 %0144 Q01 0125 0875 0125 %0145 Q02 0125 0875 0250 %0146 Q03 0125 0875 0375 %0147 Q04 0125 0875 0500 %0148 Q05 0125 0875 0625 %0149 Q06 0125 0875 0750 %0150 Q07 0125 0875 0875 %0151 Q08 0125 0875 1000 %0152 Q09 0125 1000 0000 %0153 R01 0125 1000 0125 %0154 R02 0125 1000 0250 %0155 R03 0125 1000 0375 %0156 R04 0125 1000 0500 %0157 R05 0125 1000 0625 %0158 R06 0125 1000 0750 %0159 R07 0125 1000 0875 %0160 R08 0125 1000 1000 %0161 R09 0250 0000 0000 %0162 S01 0250 0000 0125 %0163 S02 0250 0000 0250 %0164 S03 0250 0000 0375 %0165 S04 0250 0000 0500 %0166 S05 0250 0000 0625 %0167 S06 0250 0000 0750 %0168 S07 0250 0000 0875 %0169 S08 0250 0000 1000 %0170 S09 0250 0125 0000 %0171 T01 0250 0125 0125 %0172 T02 0250 0125 0250 %0173 T03 0250 0125 0375 %0174 T04 0250 0125 0500 %0175 T05 0250 0125 0625 %0176 T06 0250 0125 0750 %0177 T07 0250 0125 0875 %0178 T08 0250 0125 1000 %0179 T09 0250 0250 0000 %0180 U01 0250 0250 0125 %0181 U02 0250 0250 0250 %0182 U03 0250 0250 0375 %0183 U04 0250 0250 0500 %0184 U05 0250 0250 0625 %0185 U06 0250 0250 0750 %0186 U07 0250 0250 0875 %0187 U08 0250 0250 1000 %0188 U09 0250 0375 0000 %0189 V01 0250 0375 0125 %0190 V02 0250 0375 0250 %0191 V03 0250 0375 0375 %0192 V04 0250 0375 0500 %0193 V05 0250 0375 0625 %0194 V06 0250 0375 0750 %0195 V07 0250 0375 0875 %0196 V08 0250 0375 1000 %0197 V09 0250 0500 0000 %0198 W01 0250 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0375 0125 %0959 i24 0125 0250 0125 %0960 i25 0125 0125 0125 %0961 i26 0125 0000 0125 %0962 i27 0000 1000 0000 %0963 j19 0000 0875 0000 %0964 j20 0000 0750 0000 %0965 j21 0000 0625 0000 %0966 j22 0000 0500 0000 %0967 j23 0000 0375 0000 %0968 j24 0000 0250 0000 %0969 j25 0000 0125 0000 %0970 j26 0000 0000 0000 %0971 j27 0000 0000 0000 %0972 k01 0125 0125 0125 %0973 k02 0250 0250 0250 %0974 k03 0375 0375 0375 %0975 k04 0500 0500 0500 %0976 k05 0625 0625 0625 %0977 k06 0750 0750 0750 %0978 k07 0875 0875 0875 %0979 k08 1000 1000 1000 %0980 k09 0000 0000 0000 %0981 l01 0125 0125 0125 %0982 l02 0250 0250 0250 %0983 l03 0375 0375 0375 %0984 l04 0500 0500 0500 %0985 l05 0625 0625 0625 %0986 l06 0750 0750 0750 %0987 l07 0875 0875 0875 %0988 l08 1000 1000 1000 %0989 l09 0000 0000 0000 %0990 m01 0125 0125 0125 %0991 m02 0250 0250 0250 %0992 m03 0375 0375 0375 %0993 m04 0500 0500 0500 %0994 m05 0625 0625 0625 %0995 m06 0750 0750 0750 %0996 m07 0875 0875 0875 %0997 m08 1000 1000 1000 %0998 m09 0000 0000 0000 %0999 n01 0125 0125 0125 %1000 n02 0250 0250 0250 %1001 n03 0375 0375 0375 %1002 n04 0500 0500 0500 %1003 n05 0625 0625 0625 %1004 n06 0750 0750 0750 %1005 n07 0875 0875 0875 %1006 n08 1000 1000 1000 %1007 n09 0000 0000 0000 %1008 k10 0066 0066 0066 %1009 k11 0133 0133 0133 %1010 k12 0200 0200 0200 %1011 k13 0266 0266 0266 %1012 k14 0333 0333 0333 %1013 k15 0400 0400 0400 %1014 k16 0466 0466 0466 %1015 k17 0533 0533 0533 %1016 k18 0600 0600 0600 %1017 k19 0666 0666 0666 %1018 k20 0734 0734 0734 %1019 k21 0800 0800 0800 %1020 k22 0866 0866 0866 %1021 k23 0933 0933 0933 %1022 k24 1000 1000 1000 %1023 k25 0000 0000 0000 %1024 l10 0066 0066 0066 %1025 l11 0133 0133 0133 %1026 l12 0200 0200 0200 %1027 l13 0266 0266 0266 %1028 l14 0333 0333 0333 %1029 l15 0400 0400 0400 %1030 l16 0466 0466 0466 %1031 l17 0533 0533 0533 %1032 l18 0600 0600 0600 %1033 l19 0666 0666 0666 %1034 l20 0734 0734 0734 %1035 l21 0800 0800 0800 %1036 l22 0866 0866 0866 %1037 l23 0933 0933 0933 %1038 l24 1000 1000 1000 %1039 l25 0000 0000 0000 %1040 m10 0066 0066 0066 %1041 m11 0133 0133 0133 %1042 m12 0200 0200 0200 %1043 m13 0266 0266 0266 %1044 m14 0333 0333 0333 %1045 m15 0400 0400 0400 %1046 m16 0466 0466 0466 %1047 m17 0533 0533 0533 %1048 m18 0600 0600 0600 %1049 m19 0666 0666 0666 %1050 m20 0734 0734 0734 %1051 m21 0800 0800 0800 %1052 m22 0866 0866 0866 %1053 m23 0933 0933 0933 %1054 m24 1000 1000 1000 %1055 m25 0000 0000 0000 %1056 n10 0066 0066 0066 %1057 n11 0133 0133 0133 %1058 n12 0200 0200 0200 %1059 n13 0266 0266 0266 %1060 n14 0333 0333 0333 %1061 n15 0400 0400 0400 %1062 n16 0466 0466 0466 %1063 n17 0533 0533 0533 %1064 n18 0600 0600 0600 %1065 n19 0666 0666 0666 %1066 n20 0734 0734 0734 %1067 n21 0800 0800 0800 %1068 n22 0866 0866 0866 %1069 n23 0933 0933 0933 %1070 n24 1000 1000 1000 %1071 n25 0000 0000 0000 %1072 k26 1000 1000 1000 %1073 k27 1000 0000 0000 %1074 l26 0000 1000 1000 %1075 l27 1000 1000 0000 %1076 m26 0000 0000 1000 %1077 m27 0000 1000 0000 %1078 n26 1000 0000 1000 %1079 n27 0000 1000 0000 %1078 nx6 1000 0000 1000 %1079 nx7 ] def %END RGB0_F %***************************************************************** %} def %END PROC_SPEC_IOF.PS %END COLDATA-SRGB_00.PS %**************************************************** %END 'DM10'OUTLIN1X.PS Other procedures for sRGB output linearization %**************************************************** %BEG DM10/OUTLIN1Y.PS Emty 20101101 %END DM10/OUTLIN1Y.PS Emty 20101101 %END Include Procedures for output linearization at line 30 %*********************************************************** /BeginEPSFF {% def % Prepare for EPS file Frame (F) /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 /EndEPSFF {% def % End for EPS file Frame (F) 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 /A4querF {598 0 translate 90 rotate} 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 /Courier-Bold findfont dup length dict begin {1 index /FID ne {def} {pop pop} ifelse }forall /Encoding ISOLatin1Encoding def currentdict end /CourierB-ISOL1 exch definefont pop /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 %%EndProlog %%BeginPageSetup /#copies 1 def %A4quer 1.0 1.0 scale /pgsave save def %%EndPageSetup %********************************************************** /lanind1f 00 def /lanind2f 00 def /laninddf 01 def /colorm1f 00 def /colorm2f 00 def /colormdf 01 def /deintp1f 00 def /deintp2f 00 def /deintpdf 01 def /xcolor1f 03 def /xcolor2f 03 def /xcolordf 01 def /xchart1f 01 def /xchart2f 01 def /xchartdf 01 def %0-1,2-11 /xchart3f 01 def /xchart4f 00 def /pchart1f 03 def /pchart2f 03 def /pchartdf 01 def %=3 for sRGB, Lr=0 /colsep1f 00 def /colsep2f 00 def /colsepdf 01 def /pmetam1f 00 def /pmetam2f 00 def /pmetamdf 01 def %/lanindf lanind1f def % /lanindf lanind1f def %lanind1f laninddf lanind2f {/lanindf exch def %/colormf colorm1f def % colorm1f colormdf colorm2f {/colormf exch def %/deintpf deintp1f def % deintp1f deintpdf deintp2f {/deintpf exch def %/xcolorf xcolor1f def % /xcolorf xcolor1f def %xcolor1f xcolordf xcolor2f {/xcolorf exch def %/xchartf xchart1f def % /xchartf xchart1f def %xchart1f xchartdf xchart2f {/xchartf exch def %/pchartf pchart1f def % /pchartf pchart1f def %pchart1f pchartdf pchart2f {/pchartf exch def %/colsepf colsep1f def % /colsepf colsep1f def %colsep1f colsepdf colsep2f {/colsepf exch def /lanind lanindf def /colorm colormf def /deintp deintpf def /xcolor xcolorf def /xchart xchartf def /xchartm xchart2f xchart1f sub 1 add def /xchart3 xchart3f def /xchart3P10 xchart3 10 add def /xchart4 xchart4f def /pchart pchartf def /colsep colsepf def gsave %/pmetamf pmetam1f def % /pmetamf pmetam1f def %pmetam1f pmetamdf pmetam2f {/pmetamf exch def /pmetam pmetamf def %***************************************************** xchart xchart3 lt {%xchart=xchart3 for CM %BEG special for ColorInterpolation /xchartj pchart def %sRGB, Lr=0%, pchart=3 /hei -1 def /heM -1 def /ausz 8 def /xchartt (F) def %necessary if separation % PROC_LAB_IOF % PROC_RX0F_IOF % PROC_COLSEP_IOF colorm 1 eq {PROC_COLINT_IOF} if % PROC_COLINT_IOF % PROC_SPEC_IOF Colordata_sRGB_F %new setcolortrans_F %new proc_LAB729a_to_LAB*LabCh64M proc_LAB*LabCh64M_to_tab362_dy %END special for ColorInterpolation %************************************************* } ifelse %xchart>=xchart3 for CM 72 90 translate 0.01 MM dup scale 0 0 moveto 5330 0 rlineto 0 4000 rlineto -5330 0 rlineto closepath stroke 1500 -180 moveto 180 /Times-ISOL1 FS lanindf cvishow (-) show colormf cvishow deintpf cvishow xcolorf cvishow xchartf cvishow pchartf cvishow colsepf cvishow (-F) show pmetamf cvishow grestore gsave %xchart xchart3P10 le {%BEG xchart<=xchart3P10 BeginEPSFF 0 MM 0 MM translate %%BeginDocument: %*************************************** %line 199 %BEG INCLUDE TEST FILE at line 200 %!PS-Adobe-3.0 EPSF-3.0 MG011-5 %%BoundingBox: 70 83 226 206 %START PDFDE011.EPS /pdfmark15 where {pop} {userdict /pdfmark15 /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: MG011-5, B8311_4, M8121-5, B3_07) /Author (compare K. Richter "Computergrafik ...": ISBN 3-8007-1775-1) /Subject (goto: http://www.ps.bam.de or http://130.149.60.445/~farbmetrik) /Keywords (image reproduction, colour devices) /Creator (klaus.richter@me.com) /CreationDate (D:2010110112000) /ModDate (D:2010110112000) /DOCINFO pdfmark15 [ /View [ /FitB ] /DOCVIEW pdfmark15 %END PDFDE011 %SETCMYK_OLV.PS /setcmyk_olvcolor %transfer cmyk to olv {/ncolor exch def /ycolor exch def /mcolor exch def /ccolor exch def ncolor 0 eq {1 ccolor sub 1 mcolor sub 1 ycolor sub setrgbcolor } {ccolor 0 eq mcolor 0 eq and ycolor 0 eq and {%only black n 1 ncolor sub dup dup setrgbcolor } {%cmy and black n 1 ccolor sub 1 ncolor sub mul 1 mcolor sub 1 ncolor sub mul 1 ycolor sub 1 ncolor sub mul setrgbcolor } ifelse } ifelse } 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 /FS {findfont exch scalefont setfont} bind def /MM {72 25.4 div mul} def %%EndProlog gsave %LANINDL2 START 20000505 /lanind 1 def /lantex [(G) (E) (S) (F) (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 /popde {0 lanind ne {pop} if} bind def /popen {1 lanind ne {pop} if} bind def /popes {2 lanind ne {pop} if} bind def /popfr {3 lanind ne {pop} if} bind def /popit {4 lanind ne {pop} if} bind def /popjp {5 lanind ne {pop} if} bind def /popm {6 lanind ne {pop} if} bind def /popxde {/n exch def 0 lanind ne {n {pop} repeat} if} bind def /popxen {/n exch def 1 lanind ne {n {pop} repeat} if} bind def /popxes {/n exch def 2 lanind ne {n {pop} repeat} if} bind def /popxfr {/n exch def 3 lanind ne {n {pop} repeat} if} bind def /popxit {/n exch def 4 lanind ne {n {pop} repeat} if} bind def /popxjp {/n exch def 5 lanind ne {n {pop} repeat} if} bind def /popxm {/n exch def 6 lanind ne {n {pop} repeat} if} bind def /lanindf where {pop /lanind1 lanindf def /lanind2 lanindf def /lanindd laninddf def} {/lanind1 0 def /lanind2 0 def} ifelse /colormf where {pop /colorm1 colormf def /colorm2 colormf def /colormd colormdf def} {/colorm1 0 def} ifelse /deintpf where {pop /deintp1 deintpf def /deintp2 deintpf def /deintpd deintpdf def} {/deintp1 0 def} ifelse /xcolorf where {pop /xcolor1 xcolorf def /xcolor2 xcolorf def /xcolord xcolordf def} {/xcolor1 3 def} ifelse /xchartf where {pop /xchart1 xchartf def /xchart2 xchartf def /xchartd xchartdf def /xchartm xchart2f xchart1f sub 1 add def} {/xchart1 0 def /xchartm 1 def} ifelse /xchart3f where {pop /xchart3 xchart3f def} {/xchart3 0 def} ifelse /xchart4f where {pop /xchart4 xchart4f def} {/xchart4 0 def} ifelse /pchartf where {pop /pchart1 pchartf def /pchart2 pchartf def /pchartd pchartdf def} {/pchart1 3 def} ifelse /colsepf where {pop /colsep1 colsepf def /colsep2 colsepf def /colsepd colsepdf def} {/colsep1 0 def} ifelse /pmetamf where {pop /pmetam1 pmetamf def /pmetam2 pmetamf def /pmetamd pmetamdf def} {/pmetam1 0 def} ifelse %either defaul values for xchart=0 or values for xchart=1 /lanind lanind1 def % /colorm colorm1 def % /deintp deintp1 def % /xcolor xcolor1 def % /xchart xchart1 def % /pchart pchart1 def % /colsep colsep1 def % /pmetam pmetam1 def % colorm 0 eq deintp 0 eq and {/Txx (d) def /Fxx (d) def} if %colorm=0, deintp=0 colorm 0 eq deintp 1 eq and {/Txx (e) def /Fxx (e) def} if %colorm=0, deintp=1 colorm 1 eq deintp 0 eq and {/Txx (dd) def /Fxx (d) def} if %colorm=1, deintp=0 colorm 1 eq deintp 1 eq and {/Txx (de) def /Fxx (e) def} if %colorm=1, deintp=1 xchart 0 eq {/Txx (-) def /Fxx (-) def} if %always independent of intended output 5 /Times-ISOL1 FS /cvishow {cvi 6 string cvs show} def 75 85 moveto lanind cvishow (-) show colorm cvishow deintp cvishow xcolor cvishow xchart cvishow pchart cvishow colsep cvishow (-L) show pmetam cvishow gsave %LANINDL2 END 5 /Times-ISOL1 FS 180 85 moveto (MG011-5) show xchart 0 eq {(N) show} {deintp colorm 2 mul add cvishow} ifelse (, B3_07) show % ( B8311_4, M8121-5, B3_07, N=3_07) show 72 90 translate 0.01 MM 0.01 MM scale %d2:[rr.b4f]bausz8y.eps 15 setlinewidth 0.0 0.0 0.5 0.0 setcmyk_olvcolor 0 0 moveto 5333 0 rlineto 0 4000 rlineto -5333 0 rlineto closepath fill 0.0 0.0 0.0 1.0 setcmyk_olvcolor 0 0 moveto 5333 0 rlineto 0 4000 rlineto -5333 0 rlineto closepath stroke 600 400 translate 20 setlinewidth 0 0 moveto 340 12 mul 0 rlineto stroke 0 0 moveto 0 3000 rlineto stroke 0 660 moveto 120 740 240 820 360 900 curveto 480 980 600 1060 720 1140 curveto 840 1240 960 1320 1080 1400 curveto 1200 1480 1320 1540 1440 1620 curveto 1560 1680 1680 1760 1800 1820 curveto 1920 1880 2040 1940 2160 2000 curveto 2280 2040 2400 2080 2520 2120 curveto 2640 2160 2760 2200 2880 2240 curveto 3000 2260 3120 2280 3240 2300 curveto 3360 2320 3480 2340 3600 2360 curveto 3720 2360 3840 2360 3960 2380 curveto 4080 2380 4200 2380 4320 2380 curveto stroke 0 1800 moveto 120 1860 240 1900 360 1960 curveto 480 2000 600 2020 720 2040 curveto 840 2060 960 2080 1080 2080 curveto 1200 2100 1320 2100 1440 2080 curveto 1560 2080 1680 2060 1800 2060 curveto 1920 2040 2040 2020 2160 2000 curveto 2280 1960 2400 1940 2520 1920 curveto 2640 1880 2760 1860 2880 1820 curveto 3000 1800 3120 1760 3240 1720 curveto 3360 1700 3480 1660 3600 1620 curveto 3720 1600 3840 1560 3960 1540 curveto 4080 1500 4200 1460 4320 1440 curveto stroke 0 2920 moveto 120 2900 240 2880 360 2840 curveto 480 2800 600 2760 720 2700 curveto 840 2660 960 2600 1080 2540 curveto 1200 2480 1320 2420 1440 2360 curveto 1560 2300 1680 2240 1800 2180 curveto 1920 2100 2040 2040 2160 2000 curveto 2280 1940 2400 1880 2520 1820 curveto 2640 1760 2760 1700 2880 1660 curveto 3000 1600 3120 1560 3240 1500 curveto 3360 1460 3480 1420 3600 1360 curveto 3720 1320 3840 1280 3960 1240 curveto 4080 1200 4200 1160 4320 1140 curveto stroke 300 /Times-ISOL1 FS %! 100 lambda-Einheiten = 1200 Skalen-Einheiten 240 50 moveto 0 -100 rlineto stroke 1440 50 moveto 0 -100 rlineto stroke 2640 50 moveto 0 -100 rlineto stroke 3840 50 moveto 0 -100 rlineto stroke 20 -300 moveto (400) show 1220 -300 moveto (500) show 2420 -300 moveto (600) show 3620 -300 moveto (700) show %! 100 S-Einheiten = 2000 Skalen-Einheiten -50 0 moveto 100 0 rlineto stroke -50 1000 moveto 100 0 rlineto stroke -50 2000 moveto 100 0 rlineto stroke -50 3000 moveto 100 0 rlineto stroke -550 -80 moveto ( 0) show -550 920 moveto ( 50) show -550 1920 moveto (100) show -550 2920 moveto (150) show -550 3275 moveto 350 /Times-ISOL1 FS (relative Strahlung) showde %0MG011-5 0051# (relative radiation) showen %1MG011-5 0051# (radiaci\363n relativa) showes %2MG011-5 0051# (rayonnement relatif) showfr %3MG011-5 0051# (radiazione relativa) showit %4MG011-5 0051# (relative radiation) showjp %5MG011-5 0051# 350 /TimesI-ISOL1 FS ( S) show 350 /Symbol FS ((l)) show 350 /Times-ISOL1 FS ( nach ) showde %0MG011-5 0151# ( by ) showen %1MG011-5 0151# ( por ) showes %2MG011-5 0151# ( par ) showfr %3MG011-5 0151# ( da ) showit %4MG011-5 0151# ( by ) showjp %5MG011-5 0151# 350 /TimesI-ISOL1 FS (Planck) show 300 /Times-ISOL1 FS 1400 125 moveto (Wellenl\344nge ) showde %0MG011-5 0251# (wavelength ) showen %1MG011-5 0251# (la longitud de onda) showes %2MG011-5 0251# (longueur d'onde ) showfr %3MG011-5 0251# (lunghezza d'onda ) showit %4MG011-5 0251# (wavelength ) showjp %5MG011-5 0251# 300 /Symbol FS (l) show 300 /Times-ISOL1 FS (/nm) show 3800 2500 moveto (4000 K) show 3800 1650 moveto (6000 K) show 3800 800 moveto (8000 K) show 1000 2700 moveto (8000 K) show 100 2200 moveto (6000 K) show 500 750 moveto (4000 K) show showpage grestore %%Trailer %END INCLUDE TEST FILE at line 200 %*************************************** %%EndDocument EndEPSFF grestore gsave %} if %END xchart<=xchart3P10 %} for %pmetamf=0,1 showpage grestore %} for %colsepf=0,1 %} for %pchartf=0,0 %} for %xchartf=0,15 %} for %xcolorf=3,3 } for %deintpf=0,1 } for %colormf=0,1 %} for %lanindf=0,0 %%Trailer