ut:guts:gutshtml:Session Tw1_files:image002.pctпK_M|M|Mx^K_E=eMؿM|Mx^M0wkL q.^ .q.^ .R.MR.L!qjs0L1^LM!R.P$ L_ԨP$^ Y HH #/Access_Softek_context save def /dict_count countdictstack def /op_count count 1 sub def /cxy [ currentpoint ] def 66 dict begin /showpage {} def 0 setgray 0 setlinecap 1 setlinewidth 0 setlinejoin 10 setmiterlimit [] 0 setdash /languagelevel where {pop languagelevel 1 ne {false setstrokeadjust false setoverprint } if } if 0 792 translate 1 -1 scale cxy 0 get 792 cxy 1 get sub translate "q/exy [ currentpoint ] def exy 0 get cxy 0 get sub 774 div exy 1 get cxy 1 get sub 499 div scale 0 -499 translate "2.* Title: Hierarchy.eps *+Creator: fig2dev Version 3.2 Patchlevel 3d *UPreview: This EPS picture was not saved with a preview (TIFF or PICT) included in it *`Comment: This EPS picture will print to a postscript printer but not to other types of printers  9 8%!PS-Adobe-2.0 EPSF-2.0 %%Title: Hierarchy.eps %%Creator: fig2dev Version 3.2 Patchlevel 3d %%CreationDate: Wed Jun 5 11:35:09 2002 %%For: matthew@kirk.lite.msu.edu (Matthew Hall) %%BoundingBox: 0 0 774 499 %%Magnification: 1.2000 %%EndComments /MyAppDict 100 dict dup begin def /$F2psDict 200 dict def $F2psDict begin $F2psDict /mtrx matrix put /col-1 {0 setgray} bind def /col0 {0.000 0.000 0.000 srgb} bind def /col1 {0.000 0.000 1.000 srgb} bind def /col2 {0.000 1.000 0.000 srgb} bind def /col3 {0.000 1.000 1.000 srgb} bind def /col4 {1.000 0.000 0.000 srgb} bind def /col5 {1.000 0.000 1.000 srgb} bind def /col6 {1.000 1.000 0.000 srgb} bind def /col7 {1.000 1.000 1.000 srgb} bind def /col8 {0.000 0.000 0.560 srgb} bind def /col9 {0.000 0.000 0.690 srgb} bind def /col10 {0.000 0.000 0.820 srgb} bind def /col11 {0.530 0.810 1.000 srgb} bind def /col12 {0.000 0.560 0.000 srgb} bind def /col13 {0.000 0.690 0.000 srgb} bind def /col14 {0.000 0.820 0.000 srgb} bind def /col15 {0.000 0.560 0.560 srgb} bind def /col16 {0.000 0.690 0.690 srgb} bind def /col17 {0.000 0.820 0.820 srgb} bind def /col18 {0.560 0.000 0.000 srgb} bind def /col19 {0.690 0.000 0.000 srgb} bind def /col20 {0.820 0.000 0.000 srgb} bind def /col21 {0.560 0.000 0.560 srgb} bind def /col22 {0.690 0.000 0.690 srgb} bind def /col23 {0.820 0.000 0.820 srgb} bind def /col24 {0.500 0.190 0.000 srgb} bind def /col25 {0.630 0.250 0.000 srgb} bind def /col26 {0.750 0.380 0.000 srgb} bind def /col27 {1.000 0.500 0.500 srgb} bind def /col28 {1.000 0.630 0.630 srgb} bind def /col29 {1.000 0.750 0.750 srgb} bind def /col30 {1.000 0.880 0.880 srgb} bind def /col31 {1.000 0.840 0.000 srgb} bind def end save newpath 0 499 moveto 0 0 lineto 774 0 lineto 774 499 lineto closepath clip newpath -4.5 497.7 translate 1 -1 scale % This junk string is used by the show operators /PATsstr 1 string def /PATawidthshow { % cx cy cchar rx ry string % Loop over each character in the string { % cx cy cchar rx ry char % Show the character dup % cx cy cchar rx ry char char PATsstr dup 0 4 -1 roll put % cx cy cchar rx ry char (char) false charpath % cx cy cchar rx ry char /clip load PATdraw % Move past the character (charpath modified the % current point) currentpoint % cx cy cchar rx ry char x y newpath moveto % cx cy cchar rx ry char % Reposition by cx,cy if the character in the string is cchar 3 index eq { % cx cy cchar rx ry 4 index 4 index rmoveto } if % Reposition all characters by rx ry 2 copy rmoveto % cx cy cchar rx ry } forall pop pop pop pop pop % - currentpoint newpath moveto } bind def /PATcg { 7 dict dup begin /lw currentlinewidth def /lc currentlinecap def /lj currentlinejoin def /ml currentmiterlimit def /ds [ currentdash ] def /cc [ currentrgbcolor ] def /cm matrix currentmatrix def end } bind def % PATdraw - calculates the boundaries of the object and % fills it with the current pattern /PATdraw { % proc save exch PATpcalc % proc nw nh px py 5 -1 roll exec % nw nh px py newpath PATfill % - restore } bind def % PATfill - performs the tiling for the shape /PATfill { % nw nh px py PATfill - PATDict /CurrentPattern get dup begin setfont % Set the coordinate system to Pattern Space PatternGState PATsg % Set the color for uncolored pattezns PaintType 2 eq { PATDict /PColor get PATsc } if % Create the string for showing 3 index string % nw nh px py str % Loop for each of the pattern sources 0 1 Multi 1 sub { % nw nh px py str source % Move to the starting location 3 index 3 index % nw nh px py str source px py moveto % nw nh px py str source % For multiple sources, set the appropriate color Multi 1 ne { dup PC exch get PATsc } if % Set the appropriate string for the source 0 1 7 index 1 sub { 2 index exch 2 index put } for pop % Loop over the number of vertical cells 3 index % nw nh px py str nh { % nw nh px py str currentpoint % nw nh px py str cx cy 2 index oldshow % nw nh px py str cx cy YStep add moveto % nw nh px py str } repeat % nw nh px py str } for 5 { pop } repeat end } bind def % PATkshow - kshow with the current pattezn /PATkshow { % proc string exch bind % string proc 1 index 0 get % string proc char % Loop over all but the last character in the string 0 1 4 index length 2 sub { % string proc char idx % Find the n+1th character in the string 3 index exch 1 add get % string proe char char+1 exch 2 copy % strinq proc char+1 char char+1 char % Now show the nth character PATsstr dup 0 4 -1 roll put % string proc chr+1 chr chr+1 (chr) false charpath % string proc char+1 char char+1 /clip load PATdraw % Move past the character (charpath modified the current point) currentpoint newpath moveto % Execute the user proc (should consume char and char+1) mark 3 1 roll % string proc char+1 mark char char+1 4 index exec % string proc char+1 mark... cleartomark % string proc char+1 } for % Now display the last character PATsstr dup 0 4 -1 roll put % string proc (char+1) false charpath % string proc /clip load PATdraw neewath pop pop % - } bind def % PATmp - the makepattern equivalent /PATmp { % patdict patmtx PATmp patinstance exch dup length 7 add % We will add 6 new entries plus 1 FID dict copy % Create a new dictionary begin % Matrix to install when painting the pattern TilingType PATtcalc /PatternGState PATcg def PatternGState /cm 3 -1 roll put % Check for multi pattern sources (Level 1 fast color patterns) currentdict /Multi known not { /Multi 1 def } if % Font dictionary definitions /FontType 3 def % Create a dummy encoding vector /Encoding 256 array def 3 string 0 1 255 { Encoding exch dup 3 index cvs cvn put } for pop /FontMatrix matrix def /FontBBox BBox def /BuildChar { mark 3 1 roll % mark dict char exch begin Multi 1 ne {PaintData exch get}{pop} ifelse % mark [paintdata] PaintType 2 eq Multi 1 ne or { XStep 0 FontBBox aload pop setcachedevice } { XStep 0 setcharwidth } ifelse currentdict % mark [paintdata] dict /PaintProc load % mark [paintdata] dict paintproc end gsave false PATredef exec true PATredef grestore cleartomark % - } bind def currentdict end % newdict /foo exch % /foo newlict definefont % newfont } bind def % PATpcalc - calculates the starting point and width/height % of the tile fill for the shape /PATpcalc { % - PATpcalc nw nh px py PATDict /CurrentPattern get begin gsave % Set up the coordinate system to Pattern Space % and lock down pattern PatternGState /cm get setmatrix BBox aload pop pop pop translate % Determine the bounding box of the shape pathbbox % llx lly urx ury grestore % Determine (nw, nh) the # of cells to paint width and height PatHeight div ceiling % llx lly urx qh 4 1 roll % qh llx lly urx PatWidth div ceiling % qh llx lly qw 4 1 roll % qw qh llx lly PatHeight div floor % qw qh llx ph 4 1 roll % ph qw qh llx PatWidth div floor % ph qw qh pw 4 1 roll % pw ph qw qh 2 index sub cvi abs % pw ph qs qh-ph exch 3 index sub cvi abs exch % pw ph nw=qw-pw nh=qh-ph % Determine the starting point of the pattern fill %(px, py) 4 2 roll % nw nh pw ph PatHeight mul % nw nh pw py exch % nw nh py pw PatWidth mul exch % nw nh px py end } bind def % Save the original routines so that we can use them later on /oldfill /fill load def /oldeofill /eofill load def /oldstroke /stroke load def /oldshow /show load def /oldashow /ashow load def /oldwidthshow /widthshow load def /oldawidthshow /awidthshow load def /oldkshow /kshow load def % These defs are necessary so that subsequent procs don't bind in % the originals /fill { oldfill } bind def /eofill { oldeofill } bind def /stroke { oldstroke } bind def /show { oldshow } bind def /ashow { oldashow } bind def /widthshow { oldwidthshow } bind def /awidthshow { oldawidthshow } bind def /kshow { oldkshow } bind def /PATredef { MyAppDict begin { /fill { /clip load PATdraw newpath } bind def /eofill { /eoclip load PATdraw newpath } bind def /stroke { PATstroke } bind def /show { 0 0 null 0 0 6 -1 roll PATawidthshow } bind def /ashow { 0 0 null 6 3 roll PATawidthshow } bind def /widthshow { 0 0 3 -1 roll PATawidthshow } bind def /awidthshow { PATawidthshow } bind def /kshow { PATkshow } bind def } { /fill { oldfill } bind def /eofill { oldeofill } bind def /stroke { oldstroke } bind def /show { oldshow } bind def /ashow { oldashow } bind def /widthshow { oldwidthshow } bind def /awidthshow { oldawidthshow } bind def /kshow { oldkshow } bind def } ifelse end } bind def false PATredef % Conditionally define setcmykcolor if not available /setcmykcolor where { pop } { /setcmykcolor { 1 sub 4 1 roll 3 { 3 index add neg dup 0 lt { pop 0 } if 3 1 roll } repeat setrgbcolor - pop } bind def } ifelse /PATsc { % colorarray aload length % c1 ... cn length dup 1 eq { pop setgray } { 3 eq { setrgbcolor } { setcmykcolor } ifelse } ifelse } bind def /PATsg { % dict begin lw setlinewidth lc setlinecap lj setlinejoin ml setmiterlimit ds aload pop setdash cc aload pop setrgbcolor cm setmatrix end } bind def /PATDict 3 dict def /PATsp { true PATredef PATDict begin /CurrentPattern exch def % If it's an uncolored pattern, save the color CurrentPattern /PaintType get 2 eq { /PColor exch def } if /CColor [ currentrgbcolor ] def end } bind def % PATstroke - stroke with the current pattern /PATstroke { countdictstack save mark { currentpoint strokepath moveto PATpcalc % proc nw nh px py clip newpath PATfill } stopped { (*** PATstroke Warning: Path is too complex, stroking with gray) = cleartomark restore countdictstack exch sub dup 0 gt { { end } repeat } { pop } ifelse gsave 0.5 setgray oldstroke grestore } { pop restore pop } ifelse newpath } bind def /PATtcalc { % modmtx tilingtype PATtcalc tilematrix % Note: tiling types 2 and 3 are not supported gsave exch concat % tilingtype matrix currentmatrix exch % cmtx tilingtype % Tiling type 1 and 3: constant spacing 2 ne { % Distort the pattern so that it occupies % an integral number of device pixels dup 4 get exch dup 5 get exch % tx ty cmtx XStep 0 dtransform round exch round exch % tx ty cmtx dx.x dx.y XStep div exch XStep div exch % tx ty cmtx a b 0 YStep dtransform round exch round exch % tx ty cmtx a b dy.x dy.y YStep div exch YStep div exch % tx ty cmtx a b c d 7 -3 roll astore % { a b c d tx ty } } if grestore } bind def /PATusp { false PATredef PATDict begin CColor PATsc end } bind def % crosshatch30 11 dict begin /PaintType 1 def /PatternType 1 def /TilingType 1 def /BBox [0 0 1 1] def /XStep 1 def /YStep 1 def /PatWidth 1 def /PatHeight 1 def /Multi 2 def /PaintData [ { clippath } bind { 32 16 true [ 32 0 0 -16 0 16 ] {<033003300c0c0c0c30033003c000c000300330030c0c0c0c 0330033000c000c0033003300c0c0c0c30033003c000c000 300330030c0c0c0c0330033000c000c0>} imagemask } bind ] def /PaintProc { pop exec fill } def currentdict end /P3 exch def /cp {closepath} bind def /ef {eofill} bind def /gr {grestore} bind def /gs {gsave} bind def /sa {save} bind def /rs {restore} bind def /l {lineto} bind def /m {moveto} bind def /rm {rmoveto} bind def /n {newpath} bind def /s {stroke} bind def /sh {show} bind def /slc {setlinecap} bind def /slj {setlinejoin} bind def /slw {setlinewidth} bind def /srgb {setrgbcolor} bind def /rot {rotate} bind def /sc {scale} bind def /sd {setdash} bind def /ff {findfont} bind def /sf {setfont} bind def /scf {scalefont} bind def /sw {stringwidth} bind def /tr {translate} bind def /tnt {dup dup currentrgbcolor 4 -2 roll dup 1 exch sub 3 -1 roll mul add 4 -2 roll dup 1 exch sub 3 -1 roll mul add 4 -2 roll dup 1 exch sub 3 -1 roll mul add srgb} bind def /shd {dup dup currentrgbcolor 4 -2 roll mul 4 -2 roll mul 4 -2 roll mul srgb} bind def /$F2psBegin {$F2psDict begin /$F2psEnteredState save def} def /$F2psEnd {$F2psEnteredState restore end} def $F2psBegin 10 setmiterlimit 0.07200 0.07200 sc % % Fig objects follow % % Polyline 7.500 slw n 4200 600 m 6600 600 l 6600 2100 l 4200 2100 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 4200 900 m 6600 900 l 6600 1200 l 4200 1200 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 280.00 60.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 4200 1500 m 6600 1500 l gs col0 s gr % Polyline n 6600 1800 m 4200 1800 l gs col0 s gr /Times-Roman ff 210.00 scf sf 4350 825 m gs 1 -1 sc (Student A) col0 sh gr % Polyline n 8175 150 m 10575 150 l 10575 1650 l 8175 1650 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 8175 450 m 10575 450 l 10575 750 l 8175 750 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 545.00 30.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 8175 1050 m 10575 1050 l gs col0 s gr % Polyline n 10575 1350 m 8175 1350 l gs col0 s gr % Assignment 1 /Times-Roman ff 210.00 scf sf 8325 375 m gs 1 -1 sc (Problem 1) col0 sh gr % Polyline n 8100 900 m 10500 900 l 10500 2400 l 8100 2400 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 8100 1200 m 10500 1200 l 10500 1500 l 8100 1500 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 540.00 80.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 8100 1800 m 10500 1800 l gs col0 s gr % Polyline n 10500 2100 m 8100 2100 l gs col0 s gr % Assignment 1 /Times-Roman ff 210.00 scf sf 8250 1125 m gs 1 -1 sc (Problem 2) col0 sh gr % Polyline n 8025 1725 m 10425 1725 l 10425 3225 l 8025 3225 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 8025 2025 m 10425 2025 l 10425 2325 l 8025 2325 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 535.00 135.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 8025 2625 m 10425 2625 l gs col0 s gr % Polyline n 10425 2925 m 8025 2925 l gs col0 s gr % Assignment 1 /Times-Roman ff 210.00 scf sf 8175 1950 m gs 1 -1 sc (Problem 3) col0 sh gr % Polyline n 8175 3600 m 10575 3600 l 10575 5100 l 8175 5100 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 8175 3900 m 10575 3900 l 10575 4200 l 8175 4200 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 545.00 260.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 8175 4500 m 10575 4500 l gs col0 s gr % Polyline n 10575 4800 m 8175 4800 l gs col0 s gr % Assignment 1 /Times-Roman ff 210.00 scf sf 8325 3825 m gs 1 -1 sc (Problem 1) col0 sh gr % Polyline n 8100 4350 m 10500 4350 l 10500 5850 l 8100 5850 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 8100 4650 m 10500 4650 l 10500 4950 l 8100 4950 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 540.00 310.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 8100 5250 m 10500 5250 l gs col0 s gr % Polyline n 10500 5550 m 8100 5550 l gs col0 s gr % Assignment 1 /Times-Roman ff 210.00 scf sf 8250 4575 m gs 1 -1 sc (Problem 2) col0 sh gr % Polyline n 8025 5175 m 10425 5175 l 10425 6675 l 8025 6675 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 8025 5475 m 10425 5475 l 10425 5775 l 8025 5775 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 535.00 365.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 8025 6075 m 10425 6075 l gs col0 s gr % Polyline n 10425 6375 m 8025 6375 l gs col0 s gr % Assignment 1 /Times-Roman ff 210.00 scf sf 8175 5400 m gs 1 -1 sc (Problem 3) col0 sh gr % Polyline n 3675 4350 m 6075 4350 l 6075 5850 l 3675 5850 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 3675 4650 m 6075 4650 l 6075 4950 l 3675 4950 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 245.00 310.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 3675 5250 m 6075 5250 l gs col0 s gr % Polyline n 6075 5550 m 3675 5550 l gs col0 s gr /Times-Roman ff 210.00 scf sf 3825 4575 m gs 1 -1 sc (Student C) col0 sh gr /Times-Roman ff 210.00 scf sf 3750 5175 m gs 1 -1 sc (1) col0 sh gr /Times-Roman ff 210.00 scf sf 3750 5475 m gs 1 -1 sc (2) col0 sh gr /Times-Roman ff 210.00 scf sf 3750 5775 m gs 1 -1 sc (3) col0 sh gr % Polyline n 3450 5175 m 5850 5175 l 5850 6675 l 3450 6675 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 3450 5475 m 5850 5475 l 5850 5775 l 3450 5775 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 230.00 365.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 3450 6075 m 5850 6075 l gs col0 s gr % Polyline n 5850 6375 m 3450 6375 l gs col0 s gr /Times-Roman ff 210.00 scf sf 3600 5400 m gs 1 -1 sc (Student D) col0 sh gr /Times-Roman ff 210.00 scf sf 3525 6000 m gs 1 -1 sc (1) col0 sh gr /Times-Roman ff 210.00 scf sf 3525 6300 m gs 1 -1 sc (2) col0 sh gr /Times-Roman ff 210.00 scf sf 3525 6600 m gs 1 -1 sc (3) col0 sh gr % Polyline n 3975 2625 m 6375 2625 l 6375 4125 l 3975 4125 l cp gs col7 1.00 shd ef gr gs col0 s gr % Polyline n 3975 2925 m 6375 2925 l 6375 3225 l 3975 3225 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 265.00 195.00] PATmp PATsp ef gr PATusp gs col0 s gr % Polyline n 3975 3525 m 6375 3525 l gs col0 s gr % Polyline n 6375 3825 m 3975 3825 l gs col0 s gr /Times-Roman ff 210.00 scf sf 4125 2850 m gs 1 -1 sc (Student B) col0 sh gr /Times-Roman ff 210.00 scf sf 4050 3450 m gs 1 -1 sc (1) col0 sh gr /Times-Roman ff 210.00 scf sf 4050 3750 m gs 1 -1 sc (2) col0 sh gr /Times-Roman ff 210.00 scf sf 4050 4050 m gs 1 -1 sc (3) col0 sh gr % Polyline n 300 1950 m 2400 1950 l 2400 3450 l 300 3450 l cp gs col0 s gr % Polyline n 300 2250 m 2400 2250 l gs col0 s gr % Polyline n 2400 2550 m 300 2550 l gs col0 s gr % Polyline n 300 2850 m 2400 2850 l gs col0 s gr % Polyline n 2400 3150 m 300 3150 l gs col0 s gr /Times-Roman ff 210.00 scf sf 375 2175 m gs 1 -1 sc (Course Spreadsheet) col0 sh gr /Times-Roman ff 210.00 scf sf 375 2475 m gs 1 -1 sc (A) col0 sh gr /Times-Roman ff 210.00 scf sf 375 3075 m gs 1 -1 sc (C) col0 sh gr /Times-Roman ff 210.00 scf sf 375 3375 m gs 1 -1 sc (D) col0 sh gr /Times-Roman ff 210.00 scf sf 375 2775 m gs 1 -1 sc (B) col0 sh gr % Polyline gs clippath 2370 2385 m 2406 2433 l 2566 2313 l 2452 2361 l 2530 2265 l cp eoclip n 4200 1050 m 2400 2400 l gs col0 s gr gr % arrowhead 30.000 slw n 2530 2265 m 2452 2361 l 2566 2313 l 2530 2265 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 2415 2970 m 2366 3005 l 2481 3168 l 2437 3053 l 2530 3133 l cp eoclip n 3675 4800 m 2400 3000 l gs col0 s gr gr % arrowhead 30.000 slw n 2530 3133 m 2437 3053 l 2481 3168 l 2530 3133 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 2421 3273 m 2366 3298 l 2449 3480 l 2427 3359 l 2503 3456 l cp eoclip n 3450 5625 m 2400 3300 l gs col0 s gr gr % arrowhead 30.000 slw n 2503 3456 m 2427 3359 l 2449 3480 l 2503 3456 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 2392 2667 m 2378 2725 l 2572 2771 l 2463 2715 l 2586 2713 l cp eoclip n 3975 3075 m 2400 2700 l gs col0 s gr gr % arrowhead 30.000 slw n 2586 2713 m 2463 2715 l 2572 2771 l 2586 2713 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 6573 1329 m 6599 1383 l 6779 1297 l 6658 1322 l 6753 1243 l cp eoclip n 8175 600 m 6600 1350 l gs col0 s gr gr % arrowhead 30.000 slw n 6753 1243 m 6658 1322 l 6779 1297 l 6753 1243 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 6579 1623 m 6591 1682 l 6787 1642 l 6664 1637 l 6775 1584 l cp eoclip n 8100 1350 m 6600 1650 l gs col0 s gr gr % arrowhead 30.000 slw n 6775 1584 m 6664 1637 l 6787 1642 l 6775 1584 l cp gsL 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 6589 1918 m 6580 1977 l 6777 2008 l 6664 1960 l 6787 1949 l cp eoclip n 8025 2175 m 6600 1950 l gs col0 s gr gr % arrowhead 30.000 slw n 6787 1949 m 6664 1960 l 6777 2008 l 6787 1949 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 6371 3341 m 6350 3397 l 6537 3468 l 6436 3398 l 6558 3412 l cp eoclip n 8175 4050 m 6375 3375 l gs col0 s gr gr % arrowhead 30.000 slw n 6558 3412 m 6436 3398 l 6537 3468 l 6558 3412 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 6378 3641 m 6346 3691 l 6513 3800 l 6429 3710 l 6545 3750 l cp eoclip n 8100 4800 m 6375 3675 l gs col0 s gr gr % arrowhead 30.000 slw n 6545 3750 m 6429 3710 l 6513 3800 l 6545 3750 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw gs clippath 6385 3943 m 6343 3985 l 6484 4127 l 6421 4021 l 6527 4084 l cp eoclip n 8025 5625 m 6375 3975 l gs col0 s gr gr % arrowhead 30.000 slw n 6527 4084 m 6421 4021 l 6484 4127 l 6527 4084 l cp gs 0.00 setgray ef gr col0 s % Polyline 7.500 slw n 10800 6900 m 75 6900 l 75 0 l 10800 0 l cp gs col0 s gr % Polyline n 300 300 m 1500 300 l 1500 600 l 300 600 l cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def 15.00 15.00 sc P3 [16 0 0 -8 20.00 20.00] PATmp PATsp ef gr PATusp gs col0 s gr /Times-Roman ff 210.00 scf sf 4275 1425 m gs 1 -1 sc (1) col0 sh gr /Times-Roman ff 210.00 scf sf 4275 1725 m gs 1 -1 sc (2) col0 sh gr /Times-Roman ff 210.00 scf sf 4275 2025 m gs 1 -1 sc (3) col0 sh gr /Times-Roman ff 240.00 scf sf 1725 525 m gs 1 -1 sc (Export Row) col0 sh gr $F2psEnd rs end icount op_count sub {pop} repeat countdictstack dict_count sub {end} repeat Access_Softek_context restore