%!PS

% Magic Sinewave Sourcecode: PIC Programming Guidelines #40
% ======================================================================
% by  Don Lancaster

/ggnum 40 store

%  Copyright c 2003 by Don Lancaster & Synergetics, Box 809, Thatcher, AZ, 85552
%  (928) 428-4073 Email: don@tinaja.com Website: http://www.tinaja.com
%  Consulting services available http://www.tinaja.com/info01.html
%  Linking welcome. Reposting expressly forbidden. 

%  All commercial rights and all electronic media rights ~fully~ reserved.
%  Linking usually welcome. Reposting expressly forbidden. Version 1.1 

%  Tutorial on PIC Programming Guidelines for Magic Sinewave Development.

%  IMPORTANT NOTE: Don Lancaster's file gonzo.ps is required for this program.
%  After obvious location mods, uncomment ONE of the following two lines:

   (C:\\windows\\desktop\\gonzo\\gonzo.ps) run  % use internal gonzo
%  (A:\\gonzo.ps) run  % use external gonzo

%  NOTE THAT ALL PS FILENAME STRINGS !!!DEMAND!!! DOUBLE REVERSE SLASHES.

%  GONZO20A Guru Gonzo PostScript power tools (Interim release)
%  Includes gonzo justification and layout utilities.

%  Copyright c 1990, 1996, 2001 by Don Lancaster and Synergetics, Box 809,
%  Thatcher Arizona, 5552 (928) 428-4073  don@tinaja.com  support
%  via http://www.tinaja.com  All commercial rights and all electronic
%  media rights **FULLY** reserved. Reposting is expressly forbidden.


%%%%%%%%%%% links menu directory %%%%%%%%%%%%

% This code locks pdfmark commands out of a PostScript printer.

/pdfmark where {pop}{userdict /pdfmark /cleartomark load put} ifelse

% /surl "start url" marks the beginning of a text sequence to be urled. 
% It also paints the text blue...

/surl {mark /blue cvx 0.33 /setgray cvx     % change text to blue
       /currentpoint cvx                    % remember box start
       /urly /exch cvx /store cvx
       /urlx /exch cvx /store cvx
         ] cvx                              % complete deferred command

       printlist exch 3 index exch put      % stuff into gonzo printlist
       exch 1 add exch                      % increment gonzo list count
} def

% /eurl "end url" unmarks the end of a text sequence and sets up
% the pdfmark needed to define the Acrobat web link. 

/eurl {mark                               % start deferred proc      
       exch                               % position url string
       % /black cvx 0  /setgray cvx         % turn blue marker off 
       % maintextcolor /setrgbcolor  cvx    % reset to main text color???

       /aqua cvx /black cvx
       /makeurl cvx                       % defer call of url builder
        ] cvx                             % complete deferred proc

        printlist exch 3 index exch       % stuff into gonzo printlist
        put exch 1 add exch               % increment gonzo list count      
        } def


% /makeurl generates the pdfmark, receiving a {(urlstring) makeurl}.
% Note that it is not called until formatted printlist time...

/urlover 0.2 def                    % fraction of hot area over bounds

/makeurl { /cururlname exch store          % save the url string
            mark                           % start pdfmark

currentfont /ScaleMatrix get 3 get /fsize exch store  % guess height

  /Rect  [ urlx fsize urlover mul sub      % set box left x
           urly fsize urlover mul sub      % set box left y
           currentpoint
           exch fsize urlover mul add exch
           fsize add
           ]
           /Border [ 0 0 0]   % [0 0 0 ] = none; [0 0 2] = debug 
           /Color [ .7 0 0 ]
           /Action <</Subtype /URI /URI cururlname>>
           /Subtype /Link
           /ANN                            % annotation type
           pdfmark                        % call pdf operators    
} def

% /makeurlx generates the box specific pdfmark, receiving 
% a {(urlstring) makeurl}.
% Note that it is not called until formatted printlist time...


/makeurlx { /cururlnamex exch store        % save the url string
            mark                           % start pdfmark

  /Rect  [ xpos                            % set box left x
           ypos 0.9 sub                    % set box left y
           xpos 2.8 add                    % box right x
           ypos 0.9 sub 2.8 add            % box right y
           ]
           /Border [ 0 0 0]   % [0 0 0 ] = none; [0 0 2] = debug 
           /Color [ .7 0 0 ]
           /Action <</Subtype /URI /URI cururlnamex>>
           /Subtype /Link
           /ANN                            % annotation type
           pdfmark                        % call pdf operators    
} def


/maintextcolor {0 0 0 } def

% text link specific data  -- use dictionary instead below


{

/cubic01 {(http://www.tinaja.com/cubic01.asp) eurl} def
/hack62 {(http://www.tinaja.com/glib/hack62.pdf) eurl} def
/increment {(http://www.tinaja.com/text/bezgen3.html) eurl} def
/interpolate {(http://members.bellatlantic.net/~vze2vrva/design.html) eurl } def

/bezmath {(http://www.tinaja.com/text/bezmath.html) eurl } def

/table {(http://www.tinaja.com/psutils/imtable.psl) eurl } def



} pop

% dictionary method

<<    %zzzz

/transtronics (http://www.transtronics.com)
/sigview.pdf (http://www.tinaja.com/glib/sigview.pdf)
/mscal28nd.asp (http://www.tinaja.com/mscal28nd.asp)
/microchip (http://www.microchip.com)
/numschip.pdf (http://www.tinaja.com/glib/numschip.pdf)
/numschip.psl (http://www.tinaja.com/glib/numschip.psl)
/msd28a.asm (http://www.tinaja.com/glib/msd28a.asm)

/lineartechnology (http://www.lineartechnology.com) 

/bmtypewr (http://www.tinaja/com/psutils/bmtypewr.psl)
/distlang.pdf (http://www.tinaja.com/glib/distlang.pdf)
/muse141 (http://www.tinaja.com/glib/muse141.pdf)
/screenthief (http://www.keyscreen.com/KeyScreen(s)5/scrnthf.htm)

/giffont (http://www.tinaja.com/bmfonts/giffont1.bmp)

/f507bg.txt (http://www.tinaja.com/bmfonts/f507bg.txt)
/f507bg.psl (http://www.tinaja.com/bmfonts/f507bg.psl)
/f507bg.pdf (http://www.tinaja.com/bmfonts/f507bg.pdf)
/f607bg.txt (http://www.tinaja.com/bmfonts/f607bg.txt)
/f707bg.txt (http://www.tinaja.com/bmfonts/f707bg.txt)

/imgwrds1.psl (http://www.tinaja.com/psutils/imgwrds1.psl)
/bmfont01 (http://www.tinaja.com/bmfont01.asp)
/expbmp.psl (http://www.tinaja.com/glib/expbmp.pdf)
/kikisu (http://www.tinaja.com/images/bargs/ki710101.jpg)
/hp3336a (http://www.tinaja.com/images/bargs/hp333601.jpg)

/bmtransfer (http://www.tinaja.com/bmfonts/lettex01.bmp)

/histolog.pdf (http://www.tinaja.com/glib/histolog.pdf)
/histolog.psl (http://www.tinaja.com/glib/histolog.psl)

/site01 (http://www.tinaja.com/site01.asp)
/dayproc1.psl (http://www.tinaja.com/psutils/dayproc1.psl)
/trail30.psl   (http://www.tinaja.com/psutils/trail30.psl)
/logrptm1.psl (http://www.tinaja.com/psutils/logrptm1.psl)
/logrpt01.psl (http://www.tinaja.com/psutils/logrpt01.psl)

/powerfit (http://www.tinaja.com/glib/powerfit.pdf)
/pssort (http://www.tinaja.com/glib/pssort.pdf)
/heapsort (http://www.tinaja.com/glib/heapsort.pdf)
/bashpseu (http://www.tinaja.com/glib/bashpseu.pdf)
/pseudo01 (http://www.tinaja.com/pseudo01.asp)
/muse112 (http://www.tinaja.com/glib/muse112.pdf)
/muse113 (http://www.tinaja.com/glib/muse113.pdf)
/muse89 (http://www.tinaja.com/glib/muse89.pdf)
/muse151 (http://www.tinaja.com/glib/muse151.pdf)
/pssecrets (http://www.tinaja.com/glib/pssecrets.pdf)
/bouncy (http://www.tinaja.com/glib/bouncy.pdf)
/vectstep (http://www.tinaja.com/glib/vectstep.pdf)
/muse102 (http://www.tinaja.com/glib/muse102.pdf)
/onesword (http://www.tinaja.com/text/onesword.html)
/emergop2 (http://www.tinaja.com/glib/emergop2.pdf)
/wave01 (http://www.tinaja.com/wave01.asp)
/chaincode (http://www.tinaja.com/text/chain01.html)
/muse152 (http://www.tinaja.com/glib/muse152.pdf)
/atg1 (http://www.tinaja.com/glib/atg1.pdf)
/hack62 (http://www.tinaja.com/glib/hack62.pdf)
/psinscrt (http://www.tinaja.com/glib/psinscrt.pdf)
/fern2img (http://www.tinaja.com/psutils/fern2img.psl)
/thefern (http://www.tinaja.com/psutils/fern2img.pdf)

/cmoscb (http://www.amazon.com/exec/obidos/ISBN%3D0750699434/donlancastersgurA/002-0496817-3688016)

/activecb (http://www.amazon.com/exec/obidos/ISBN%3D075062986X/donlancastersgurA/002-0496817-3688016)
/hack64 (http://www.tinaja.com/glib/hack64.pdf)
/nss (http://www.caves.org)
/sinquest (http://www.tinaja.com/glib/sinquest.pdf)
/askguru  (http://www.tinaja.com/glair01.asp)

/assycb (http://www.amazon.com/exec/obidos/ISBN%3D0672223317/donlancastersgurA/002-3338585-9572047)
/muse105 (http://www.tinaja.com/glib/muse105.pdf)
/muse107 (http://www.tinaja.com/glib/muse107.pdf)
/resbn90 (http://www.tinaja.com/glib/resbn90.pdf)
/hackar3 (http://www.tinaja.com/glib/hackar3.pdf) 
/testdemo (http://www.tinaja.com/glib/FULL60-1.ASC)

/mschips (http://www.tinaja.com/glib/mschips.pdf)
/sigview (http://www.sigview.com)
/ggsigview (http://www.tinaja.com/glib/sigview.pdf)
/mock (http://www.technicalworks.com)
/xtronics (http://www.xtronics.com/)
/oshen (http://www.oshonsoft.com/pic.html)

/heapps01 (http://www.tinaja.com/psutils/heapps01.psl)
/distlangpdf (http://www.tinaja.com/glib/distlang.pdf)
/strconv (http://www.tinaja.com/glib/strconv.pdf)
/fancysort (http://linux.wku.edu/~lamonml/algor/sort)
/presort (http://www.tinaja.com/psutils/presort1.psl)
/psnt (http://www.tinaja.com/glib/psnt.pdf) 
/insort (http://www.tinaja.com/psutils/insort.ps)
/bublsort (http://www.tinaja.com/psutils/bublsort.ps)
/oldstrconv (http://www.tinaja.com/psutils/strconv.html) 

/psdisk03 (http://www.tinaja.com/glib/psdisk03.pdf)
/muse01 (http://www.tinaja.com/muse01.asp)
/gonzopow (http://www.tinaja.com/glib/gonzopow.pdf)
/analogeb (http://www.tinaja.com/glib/analogeb.pdf)
/psdisk03 (http://www.tinaja.com/glib/psdisk03.pdf)
/flut01 (http://www.tinaja.com/flut01.asp)
/clpng (news:///comp.lang.postscript)
/ctpng (news:///comp.text.pdf)

/yahoo (http://www.yahoo.com)
/google (http://www.google.com)
/scodes (http://www.w3.org/Protocols/rfc2616/rfc2616-sec10.html)
/whois (http://www.networksolutions.com/en_US/whois/index.jhtml)
/zekes (http://www.zekes.com)
/logfileformat (http://www.microsoft.com/windows2000/en/server/iis/default.asp?url=/windows2000/en/server/iis/htm/core/iicnvlg.htm)
/logrpt01.psl (http://www.tinaja.com/psutils/logrpt01.psl)
/logrpt01.log (http://www.tinaja.com/psutils/logrpt01.log)
/ex031126 (http://www.tinaja.com/psutils/ex031126.log)


/picup01 (http://www.tinaja.com/picup01.asp)
/webwb01 (http://www.tinaja.com/webwb01.asp)
/muse90 (http://www.tinaja.com/glib/muse90.pdf)
/vismagsn (http://www.tinaja.com/glib/vismagsn.psl)
/vismagsn.pdf (http://www.tinaja.com/glib/vismagsn.pdf)
/msquant (http://www.tinaja.com/glib/msquant.psl)
/optjit01 (http://www.tinaja.com/psutils/optjit01.psl)
/optjit01demo (http://www.tinaja.com/psutils/optjit01.pdf)
/qall01 (http://www.tinaja.com/psutils/qall01.psl)

/deltapat (http://www.tinaja.com/psutils/deltapat.pdf)
/deltapat.pdf (http://www.tinaja.com/psutils/deltapat.pdf)
/deltapat.psl (http://www.tinaja.com/psutils/deltapat.psl)

/mindist1 (http://www.tinaja.com/glib/mindist1.pdf)
/deltams1 (http://www.tinaja.com/glib/deltams1.pdf)
/grabjpg (http://www.tinaja.com/psutils/grabjpg.psl)
/gallery (http://www.tinaja.com/glib/gallery.pdf)
/nutour01 (http://wwww.tinaja.com/nutour01.pdf)

/linkpdf1 (http://www.tinaja.com/glib/linkpdf1.html)

/ebayfoto (http://www.tinaja.com/glib/ebayfoto.pdf)
/jpeg2pdf.html (http://www.tinaja.com/text/jpeg2pdf.html)

/pdf2bmp (http://www.tinaja.com/psutils/pdf2bmp.psl)
/bitmfont (http://www.tinaja.com/psutils/bitmfont.txt)
/antifontpsl (http://www.tinaja.com/psutils/antifont.psl)
/antifonttxt (http://www.tinaja.com/psutils/antifont.txt)

/histog01 (http://www.tinaja.com/psutils/histog01.psl)
/swingtlt (http://www.tinaja.com/glib/swingtlt.pdf)
/newsamoe (news:///alt.marketing/online.ebay) 
/webtrends (http://www.netiq.com/webtrends/default.asp)
/stegan (http://63.140.207.28/books/bkwater.asp)
/nodi (http://www.pages.ebay.com/help/community/notice-infringe2.pdf)
/ebayvero (http://www.pages.ebay.com/help/community/vero-program.html)
/aboutme (http://members.ebay.com/aboutme/abeja/)
/magfill2 (http://www.tinaja.com/psutils/magfill2.psl)
/bmprpt01 (http://www.tinaja.com/psutils/bmprpt01.psl)
/waywere (http://www.tinaja.com/glib/waywere.pdf)

/nikon (http://www.nikon.com)
/bayer (http://www.coreco.com/Web/wbtools3.nsf/0/87fce126f109ea3a05256c7100591c9a?OpenDocument) 

/hewpack (http://www.hp.com)
/auct01 (http://www.tinaja.com/auct01.asp)
/blat01 (http://www.tinaja.com/auct01.asp)
/moreebay (http://www.tinaja.com/glib/moreebay.pdf)
/auctscne (http://www.tinaja.com/glib/auctscne.pdf)






/autourl (http://www.tinaja.com/glib/autourl.pdf)
/msintro1 (http://www.tinaja.com/glib/msintro1.pdf)
/msintrosource (http://www.tinaja.com/glib/msintro1.psl) 
/knockout (http://www.tinaja.com/glib/knockout.bmp) 

/stepsynt (http://www.tinaja.com/glib/stepsynt.pdf)
/msintro1 (http://www.tinaja.com/glib/msintro1.pdf)
/msinprop (http://www.tinaja.com/glib/msinprop.pdf)

/muse106 (http://www.tinaja.com/glib/muse106.pdf)
/muse142 (http://www.tinaja.com/glib/muse142.pdf)
/math01 (http://www.tinaja.com/math01.asp)
/cubic01 (http://www.tinaja.com/cubic01.asp)
/bez4pts (http://www.tinaja.com/glib/bez4pts.pdf)
/muse145 (http://www.tinaja.com/glib/muse145.pdf)
/muse148 (http://www.tinaja.com/glib/muse148.pdf)
/curveft3 (http://www.tinaja.com/psutils/curveft3.psl)
/fuzzybez (http://www.tinaja.com/glib/fuzzybez.pdf)

/bmprpt01 (http://www.tinaja.com/psutils/bmprpt01.psl)
/nowhit01 (http://www.tinaja.com/psutils/nowhit01.psl)
/blender (http://www.tinaja.com/psutils/blender.psl)
/speedup2 (http://www.tinaja.com/glib/speedup2.pdf)
/histog01 (http://www.tinaja.com/psutils/histog01.psl)
/imgviewer32 (http://www.arcatapet.net/imgv32.cfm)
/basis (http://www.tinaja.com/glib/basis.pdf)
/expbmp (http://www.tinaja.com/glib/expbmp.pdf)
/dodbur01 (http://www.tinaja.com/psutils/dodbur01.psl)
/dodgebur (http://www.tinaja.com/glib/dodgebur.pdf) 

/magfill1 (http://www.tinaja.com/psutils/magfill1.psl)
/swingt01 (http://www.tinaja.com/psutils/swingt01.psl)

/before01 (http://www.tinaja.com/images/bargs/marcon01.jpg)
/during01 (http://www.tinaja.com/images/bargs/marcon01.bmp)
/after01 (http://www.tinaja.com/images/bargs/marconz1.jpg)
/repobmp (http://www.tinaja.com/glib/repobmp.pdf)
/basis01 (http://www.tinaja.com/glib/basis.pdf)

/arcata (http://www.arcatapet.net/imgv32.cfm) 


/comparebmp (http://www.designer-info.com/Writing/bmp_tiff_jpeg_gif.htm)
/imagimag (http://www.tinaja.com/glib/imagimag.pdf)
/myebays (http://www.tinaja.com/glib/myebays.pdf)
/stepprep (http://www.tinaja.com/glib/stepprep.pdf)
/aafont01 (http://www.tinaja.com/aafont01.asp)

/here1 (http://village.infoweb.ne.jp/~fwhw1257/study/bmpform.htm)
/here2 (http://www.daubnet.com/formats/BMP.html)

/bittype (http://www.tinaja.com/psutils/pdf2bmp.psl)
/photocombine (http://www.tinaja.com/psutils/blender.psl)

/psl (http://www.tinaja.com/psutils/) % dummy temp

/psl1 (http://www.tinaja.com/psutils/pdf2bmp.psl) 
/psl2 (http://www.tinaja.com/psutils/acatdata.psl) 
/psl3 (http://www.tinaja.com/psutils/catwords.psl) 
/psl4 (http://www.tinaja.com/psutils/graburls.psl) 
/psl5 (http://www.tinaja.com/psutils/blender.psl) 
/psl6 (http://www.tinaja.com/psutils/catools1.psl) 
/psl7 (http://www.tinaja.com/psutils/strconv.html) 
/psl8 (http://www.tinaja.com/psutils/bodcat.psl) 
/psl9 (http://www.tinaja.com/psutils/flatvue1.psl) 
/psl10 (http://www.tinaja.com/psutils/fern2img.psl) 
/psl11 (http://www.tinaja.com/psutils/flutools.psl) 
/psl12 (http://www.tinaja.com/psutils/mscal156q.psl) 
/psl13 (http://www.tinaja.com/psutils/weblogu2.psl) 
/psl14 (http://www.tinaja.com/psutils/pfa2pfb.psl) 
/psl15 (http://www.tinaja.com/psutils/pfb2pfa.psl) 
/psl16 (http://www.tinaja.com/glib/psdisk03.psl) 
/psl17 (http://www.tinaja.com/psutils/disktool.psl) 
/psl18 (http://www.tinaja.com/glib/psinscrt.psl) 
/psl19 (http://www.tinaja.com/glib/pssearch.psl) 
/psl20 (http://www.tinaja.com/text/refsum1.html)
/psl21 (http://www.tinaja.com/text/reflog1.html) 
/psl22 (http://www.tinaja.com/psutils/reflog1.psl) 
/psl23 (http://www.tinaja.com/psutils/refsum1.psl) 
/psl24 (http://www.tinaja.com/psutils/searepl.psl) 
/psl25 (http://www.tinaja.com/psutils/weberru2.psl) 
/psl26 (http://www.tinaja.com/psutils/grabsrch.psl) 
/psl27 (http://www.tinaja.com/psutils/grabrefs.psl) 



/magsn01 (http://www.tinaja.com/magsn01.asp)

/gonzoutils (http://www.tinaja.com/post01.asp#gonzo)

/disktool (http://www.tinaja.com/psutils/disktool.ps)

/elesimp (http://www.tinaja.com/glib/elesimp.pdf)
/tn5603 (http://partners.adobe.com/asn/developer/pdfs/tn/TN5603.Filters.pdf)

/fern2img (http://www.tinaja.com/psutils/fern2img.psl)
/fern     (http://www.tinaja.com/psutils/fern2img.pdf)
/oldfern  (http://www.tinaja.com/psutils/fernx1.pdf) 

/acrosdk (http://partners.adobe.com/asn/developer/acrosdk/main.html)


/refman2 (http://partners.adobe.com/asn/developer/pdfs/tn/psrefman.pdf)
/refman3 (http://partners.adobe.com/asn/developer/pdfs/tn/PLRM.pdf)

/s3011 (http://partners.adobe.com/asn/developer/pdfs/tn/PS3010and3011.Supplement.pdf)

/s2011 (http://ftp.ktug.or.kr/obsolete/info/adobe/devtechnotes/pdffiles/ps2011.supplement.pdf)
/s2012
(http://ftp.ktug.or.kr/obsolete/info/adobe/devtechnotes/pdffiles/ps2012.supplement.pdf)
/s2013
(http://ftp.ktug.or.kr/obsolete/info/adobe/devtechnotes/pdffiles/ps2013.supplement.pdf)
/s2014
(http://ftp.ktug.or.kr/obsolete/info/adobe/devtechnotes/pdffiles/ps2014.supplement.pdf)
/s2015
(http://ftp.ktug.or.kr/obsolete/info/adobe/devtechnotes/pdffiles/ps2015.supplement.pdf)
/s2016
(http://ftp.ktug.or.kr/obsolete/info/adobe/devtechnotes/pdffiles/ps2016.supplement.pdf)


/ghost (http://www.cs.wisc.edu/~ghost/)
/distlang (http://www.tinaja.com/psutils/distlang.html)

/adobepst (http://partners.adobe.com/asn/developer/technotes/)


/maildon (mailto:don@tinaja.com)
/tinaja (http://www.tinaja.com)
/adobe (http://www.adobe.com)
/adobesdk (http://partners.adobe.com/asn/developer/acrosdk/main.html)
/pstrans (http://www.tinaja.com/glib/pstrans.pdf)
/borland (http://www.borland.com/products/downloads/download_cbuilder.html)
/ebay
(http://cgi6.ebay.com/ws/eBayISAPI.dll?ViewSellersOtherItems&userid=abeja&completed=0&sort=2&since=-1&include=0&page=1&rows=100)

/searepl (http://www.tinaja.com/psutils/searepl.psl)




/aasdk (http://www.tinaja.com/plugins/AboutAcrobatSDK.api)
/uncomp (http://www.tinaja.com/plugins/UncompressPDF.api)
/addimage (http://www.tinaja.com/plugins/AddImage.api)
/samplejpg (http://www.tinaja.com/plugins/sample.jpg)
/transparency (http://www.tinaja.com/plugins/Transparency.api)
/threerects (http://www.tinaja.com/plugins/threerects.pdf)
/watermark (http://www.tinaja.com/plugins/Watermark.api)
/verifyurls (http://www.tinaja.com/plugins/VerifyURLS.api)


/flate (http://www.tinaja.com/glib/flatvue.pdf)
/pstrans (http://www.tinaja.com/glib/pstrans.pdf)

/advt01 (http://www.tinaja.com/advt01.asp)
/amlink01 (http://www.tinaja.com/amlink01.asp)
/ng1 (news:///comp.text.pdf)  
/ng2 (news:///comp.lang.postscript)  

/msc++ (http://msdn.microsoft.com/visualc/productinfo/default.asp)

/degub (http://www.tinaja.com/glib/degub.pdf)



/ghostscript (http://www.artifex.com/pressreleases/GS70.htm)


/demox.psl  (http://www.tinaja.com/glib/g9demox.psl)
/demox.pdf  (http://www.tinaja.com/glib/g9demox.pdf)
/demo.pdf   (http://www.tinaja.com/glib/g9demo.pdf)
/flatvue (http://www.tinaja.com/glib/flatvue.psl)

/pdfrefman (http://partners.adobe.com/asn/developer/acrosdk/docs.html)

/psrefman 
(http://partners.adobe.com/asn/developer/technotes/postscript.html)

/pdfmrm
(http://partners.adobe.com/asn/developer/acrosdk/docs.html)

/tipdf
(http://partners.adobe.com/asn/developer/acrosdk/docs.html)

/asdk 
(http://partners.adobe.com/asn/developer/acrosdk)
          
/mtcr (http://support.adobe.com/devsup/devsup.nsf/docs/51864.htm)

/flatvue1 (http://www.tinaja.com/psutils/flatvue1.psl)
/acrob01 (http://www.tinaja.com/acrob01.asp)
/post01 (http://www.tinaja.com/post01.asp)
/info01 (http://www.tinaja.com/info01.asp)
/gurgrm01 (http://www.tinaja.com/gurgrm01.asp)

/energfun (http://www.tinaja.com/glib/energfun.pdf)

{

/tilley (http://www.tilleyfoundation.com)
/mnglobal (http://www.mnglobal.com/energy/pg2.htm)
/keely (http://www.keelynet.com)
/evolve (http://www.evolvedtechnology.com)
/hack64 (http://www.tinaja.com/glib/hack64.pdf)
/hackar3 (http://www.tinaja.com/glib/hackar3.pdf)
/resbn58 (http://www.tinaja.com/glib/resbn58.pdf)
/bppt (http://www.batterypoweronline.com)
/muse112 (http://www.tinaja.com/glib/muse112.pdf)
/muse113 (http://www.tinaja.com/glib/muse113.pdf)
/energfun (http://www.tinaja.com/glib/energfun.pdf)
/bashpseu (http://www.tinaja.com/glib/bashpseu.pdf)


/adobe (http://www.adobe.com)
/netscape (http://www.netscape.com)

/gallypsl (http://www.tinaja.com/galley1.psl)
/gallypdf (http://www.tinaja.com/galley1.pdf)

/atn5150 (http://partners.adobe.com/asn/developer/acrosdk/docs/createpdfapi/pdfmarkReference.pdf)

/nutour (http://www.tinaja.com/bargains/nutour02.pdf)
/nutoursource (http://www.tinaja.com/bargains/nutour02.psl) 

/bwhistle (http://www.tinaja.com/glib/bwhistle.pdf) 

/gonzo1 (http://www.tinaja.com/post01.asp#gonzo)


/barg01 (http://www.tinaja.com/barg01.asp)
/weblib01 (http://www.tinaja.com/weblib01.asp)
/gurgrm01 (http://www.tinaja.com/gurgrm01.asp)


/z1 (http://www.tinaja.com/bargains/thumb/albradz2.jpg)
/z2 (http://www.tinaja.com/bargains/sbtesteq.asp)
/z3 (http://www.tinaja.com/images/bargs/albrad02.jpg)

/z4 (http://www.tinaja.com/bargains/thumb/tutenaz2.jpg)
/z5 (http://www.tinaja.com/bargains/sbphone.asp)
/z6 (http://www.tinaja.com/images/bargs/tutena02.jpg)

/sourceme (http://www.tinaja.com/glib/gallery.psl)
/sourceme2 (http://www.tinaja.com/glib/autourl.psl)

} pop



>> {mark exch /eurl cvx ] cvx def} forall





%%%%%%%%%%%%%%%% New colorizer patches %%%%%%%%%%%%%%%%%%
 

 
/boxgrays 0.899 def
/grayshade boxgrays def
/mastergray boxgrays def
/staytint {0.33 setgray} def
/staytint1 {0.25 setgray} def
/showadgrays true def

/red {0 settint} def

 /Zmacro {staytint /ypos ypos 2 add def 72 300 div setlinewidth xpos 
ypos moveto
txtwide 0 rlineto stroke /ypos ypos -2 add def tintoff} def  % hair rule
 
 /amacro {(zy0)  stringmacro /ypos
  ypos ypara add def  0.33 setgray } def             % start drop cap
 /bmacro {(iFy1) stringmacro /ypos
  ypos ypara add def  black} def             % finish drop cap
 

 
% Gonzo character colorizer

/blueon {mark /blue cvx 0.33 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def

/blueoff {mark /beige cvx 0  /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def

/tinton {mark 0.33 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def

/tinton1 {mark 0.25 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def


/tinton1b {mark beige cvx     % try for aqua after url???

 0.25 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def

/tinton1a {mark /aqua cvx     % try for aqua after url???

 0.25 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def

/tinton1p {mark /burple cvx     % try for aqua after url???

 0.25 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def

/tinton1r {mark /red cvx     % try for aqua after url???

 0.25 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def

/tinton1a {mark /aqua cvx     % try for aqua after url???

 0.25 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def





/tinton1b {mark /beige cvx     % try for beige after url???

 0.25 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def





/tintoff {mark 0 /setgray cvx] cvx
        printlist exch 3 index exch put exch 1 add exch} def


%%%%%%%%%%%%%% COMPACT  VERSION OF  COLORIZER II %%%%%%%%%%%%%%%%%%%%%%

/settint {dup /currenttint exch store 5.999 mul dup floor cvi /&cbar
          exch store dup floor sub /&cwt exch store [
{/setgray [ /dup cvx 0.3 &cwt 0.59 mul add /ge cvx
 [1 /exch cvx &cwt 0.59 mul 0.30 add /sub cvx 1 &cwt sub
 0.59 mul 0.11 add /div cvx /dup cvx 1 &cwt sub /mul cvx
 &cwt /add cvx /exch cvx ] cvx [ &cwt 0.59 mul 0.3 add /div
 cvx /dup cvx &cwt /mul cvx 0] cvx /ifelse cvx /setrgbcolor
 cvx] cvx /def cvx}
{/setgray [/dup cvx 0.59 1 &cwt sub 0.3 mul add /ge cvx
 [1 &cwt sub 0.3 mul 0.59 add /sub cvx &cwt 0.3 mul 0.11 add
 /div cvx /dup cvx &cwt /mul cvx 1 &cwt sub /add cvx /exch cvx
 1 /exch cvx] cvx [1 &cwt sub 0.3 mul 0.59 add /div cvx /dup
 cvx 1 &cwt sub /mul cvx /exch cvx 0] cvx /ifelse cvx
 /setrgbcolor cvx] cvx /def cvx}
{/setgray [/dup cvx 0.59 &cwt 0.11 mul add /ge cvx [&cwt
 0.11 mul 0.59 add /sub cvx 1 &cwt sub 0.11 mul 0.30 add
 /div cvx /dup cvx 1 &cwt sub /mul cvx &cwt /add cvx 1 /exch
 cvx] cvx [0 /exch cvx &cwt 0.11 mul 0.59 add /div cvx /dup cvx
 &cwt /mul cvx] cvx /ifelse cvx /setrgbcolor cvx] cvx
 /def cvx}
{/setgray [/dup cvx 0.59 1 &cwt sub mul 0.11 add /ge cvx [1 &cwt
 sub 0.59 mul 0.11 add /sub cvx &cwt 0.59 mul 0.30 add /div cvx
 /dup cvx &cwt /mul cvx 1 &cwt sub /add cvx 1] cvx [0 /exch cvx
 1 &cwt sub 0.59 mul 0.11 add /div cvx /dup cvx 1 &cwt sub /mul
 cvx /exch cvx] cvx /ifelse cvx /setrgbcolor cvx] cvx
/def cvx}
{/setgray [/dup cvx 0.11 &cwt 0.30 mul add /ge cvx[&cwt 0.30 mul
 0.11 add /sub cvx 1 &cwt sub 0.30 mul 0.59 add /div cvx /dup
 cvx 1 &cwt sub /mul cvx &cwt /add cvx /exch cvx 1] cvx [ &cwt
 0.30 mul 0.11 add /div cvx /dup cvx &cwt /mul cvx /exch cvx 0
 /exch cvx ] cvx /ifelse cvx /setrgbcolor cvx ] cvx /def cvx}
{/setgray [ /dup cvx 0.30 1 &cwt sub 0.11 mul add /ge cvx[ 1
 /exch cvx 1 &cwt sub 0.11 mul 0.30 add /sub cvx &cwt 0.11 mul
 0.59 add /div cvx /dup cvx &cwt /mul cvx 1 &cwt sub /add cvx
 ] cvx [ 1 &cwt sub 0.11 mul 0.30 add /div cvx /dup cvx
 1 &cwt sub /mul cvx 0 /exch cvx] cvx /ifelse cvx /setrgbcolor
 cvx ] cvx /def cvx}

] &cbar get exec exec} bind def

/beige  {0.10 settint} def      % examples of convenience operators
/aqua   {0.52 settint} def
/blue    {0.67 settint} def
/lime     {0.44 settint} def
/burple {0.75 settint} def

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%





/guru { gonzo begin
ps.util.1 begin printerror nuisance begin} def  % 

guru                                           % activate gonzo utilities


50 50 10 setgrid                               % create grid
% 56 61 showgrid  

/setpagefonts {

/cstretch 0.015 def
/sstretch 0.015 def
/font0 /StoneSans-Bold 1.6 gonzofont
/font1 /StoneSans 0.95 gonzofont
/font2 /StoneSans [0.95 0 0.25 0.95 0 0 ] gonzofont
/font4 /StoneSans 0.85 gonzofont
/font3 /StoneSans-Bold 0.85 gonzofont
/font6 /StoneSans-Bold 0.85 gonzofont
/font7 /StoneSans-Bold 1.05 gonzofont   % subheaders

/font8 /StoneSans-Bold [0.65 0 0 0.65 0 0.4] gonzofont

/txtwide 36 store

/yinc 1.2 store
/kern 0.1 store

/pm 1.5 store



aqua 0.33 setgray
font1

black




/amacro { mark /aqua cvx 0.33 /setgray cvx ] cvx
        printlist exch 3 index exch       % stuff into gonzo printlist
        put exch 1 add exch  } def

/bmacro { mark /black cvx ] cvx
        printlist exch 3 index exch       % stuff into gonzo printlist
        put exch 1 add exch  } def

/shiftin {xpos /xposhold exch store /xpos xpos 3 add store} def

/shiftout {/xpos xposhold store} def

/texttop 51 store
/textleft 3 store


/cmacro {aqua 0.25 setgray (znhL7) stringmacro

/xpos xpos 1.7 sub store

/ypos ypos .1 sub def

} def   % left title


/dmacro {black (pL1hz)  stringmacro

/xpos xpos 1.7 add store

/ypos ypos .1 add def} def       % normal text after centered title




/fmacro  % try and fake |
      {mark /gsave cvx 
         /currentpoint cvx
         /moveto cvx
         0.1 /setlinewidth cvx
         0 0.65 /rlineto cvx  /stroke cvx
         /grestore cvx
         ] cvx

       printlist exch 3 index exch put      % stuff into gonzo printlist
       exch 1 add exch                      % increment gonzo list count
} def


} def

setpagefonts

% -2 50.5 (optional header here \274) cl

%% Set document opening conventions. Note DOCVIEW limited.

[/CropBox [0 0 520 620]       % set the wierd size
/PAGES pdfmark 

[ {Catalog} <<
 /ViewerPreferences << /FitWindow true /CenterWindow true >>
 /PageLayout /OneColumn            % continous
 /Pagemode /UseNone                % no thumbs
 /View [/XYZ null null 1 ]         % force 100%
             >>
 /PUT pdfmark



%%%%%%%%%%%%%%%%% START DEMO ART   (not in use) %%%%%%%%%%%%%%%%


%%% Hand patching Info:

%  next available variable is /GS3 
%  transparency gstate is object 2
%  contents stream is object 18  gets  q /GS3 gs (xstuff) Q 
%  be sure to q Q bracket to localize
%  resources stream is object 19    gets  /GS3 2 0 R 


/transoverlay {

   % make a new graphics state
   [ /_objdef {newgsstate} /type /dict /OBJ pdfmark 

   % fill the new overlay graphics state - See PDF manual for details 
   [  {newgsstate}
          <<
            /Type /ExtGState 
            /ca 0.5                % fill transparency is 0.5
            /CA 0.5                % stroke transparency is 0.5
            /BM /Normal 
            /AIS false 
            /OP false 
            /OPM 1 
            /op true 
           >> /PUT

           pdfmark

    % start a Begin Picture graphics overlay subroutine...
    [ /BBox [0 0 1000 1000 ] /_objdef {overlaypix} /BP pdfmark

    % fill the Begin Picture graphics overlay Xobject subroutine...

          0 0.5 1 setrgbcolor     % on the aqua side of blue
          4 4 6 6 rectfill

    % complete the Begin Picture graphics overlay Xobject...
    [ /EP pdfmark

     } def


% Write a two squares program...

  /twosquares { gsave translate
                1 0.5 0 setrgbcolor            % red side of orange
                2 2 6 6 rectfill               % do background opaque box

                [ {overlaypix} /SP pdfmark     % show foreground transparent box

                grestore} def


%  Distill the two squares program. Initially use a BARE Distiller Job
%  Options that has no compression, no embedded fonts, and little else 


save /snap1 exch store
  
%%%  transoverlay                          % create new objects
%%%  14 17.5 twosquares
  
 snap1 restore

%%%%%%%%%%%% END DEMO %%%%%%%



%%%%%%%%%%%% PHOTO INSERTS %%%%%%%%%%

% When photos are needed, they are inserted here. Comment out otherwise.

%%%%%%%%% photo links %%%%%%%%%

% combined autopos jpeg conversion and hotlink:

/autofigure1 {save /af1 exch store  xpos ypos yinc add translate
              6 0.65 923 526 .025      % xpos ypos xres yres pixscale
              (http://www.tinaja.com/images/bargs/flu84501.jpg)   % url first
              (C:\\windows\\desktop\\aaraw_pix\\flu84501.jpg)
              jpegimageprocwithlink
              af1 restore} store

/autofigure2 {save /af2 exch store  xpos ypos yinc add translate
              8.5 -2 790 672  .020     % xpos ypos xres yres pixscale
              (http://www.tinaja.com/images/bargs/tek40841.jpg)   % url first
              (C:\\windows\\desktop\\aaraw_pix\\tek40841.jpg)
              jpegimageprocwithlink
              af2 restore} store

/autofigure3 {save /af3 exch store  xpos ypos yinc add translate
              12 0.6 530 816  .018     % xpos ypos xres yres pixscale
              (http://www.tinaja.com/images/bargs/sencri01.jpg)   % url first
              (C:\\windows\\desktop\\aaraw_pix\\sencri01.jpg)
              jpegimageprocwithlink
              af3 restore} store

/autofigure4 {save /af4 exch store  xpos ypos yinc add translate
              12 -0.4 422 612  .024      % xpos ypos xres yres pixscale
              (http://www.tinaja.com/images/bargs/abspar01.jpg)   % url first
              (C:\\windows\\desktop\\aaraw_pix\\abspar01.jpg)
              jpegimageprocwithlink
              af4 restore} store



/jpegimageprocwithlink {   % hoffset voffset hres vres

save /snap2 exch def

/infilename exch store  % grab passed pix file
/inurllink exch store   % grab link filename
/photoscale exch store  
/vpixels exch store
/hpixels exch store
 translate  % adjust position for final figure ???

inurllink
setareaurl    % autolink sizing

     /DeviceRGB setcolorspace                %  pick color model

     0 0 translate                           %  set page position
     hpixels vpixels scale                   %  magnify unit square


     photoscale dup scale
 

     /infile infilename (r) file def         %  establish input read file

     /Data {infile /DCTDecode filter} def    %  define a data source

     <<                                      % start image dicationary
            /ImageType 1                     % always one
            /Width hpixels                   % JPEG width in pixels
            /Height vpixels                  % JPEG height in pixels
            /ImageMatrix [hpixels
                          0 0 
                          vpixels neg
                          0
                          vpixels ]  


            /DataSource Data           % proc to get filtered JPEG      
           /BitsPerComponent 8              % color resolution
            /Decode [0 1 0 1 0 1]            % per red book 4.10
            >>

     image                                   % call the image operator


ypos snap2 restore /ypos exch def
} def

/setareaurl {    % for auto include routine

          /cururlname exch store

           mark                           % start pdfmark
           /Rect  [ 0 0 

              hpixels photoscale mul 
              vpixels photoscale mul  
                  ]
           /Border [ 0 0 0]   % [0 0 0 ] = none; [0 0 2] = debug 
           /Color [ .7 0 0 ]
           /Action <</Subtype /URI /URI cururlname>>
           /Subtype /Link
           /ANN                            % annotation type
           pdfmark                        % call pdf operators  
 
} def


%%%%%%%%%%% data for quantization figures %%%%%%%


/raw 
[0.0198613 3.75812 0.0300583 0.968559 0.0400088 0.625545 0.0500071
0.473332 0.0598378 0.508493 0.0701048 0.618866 0.080067 0.574973
0.0900779 0.328987 0.0999211 0.358846 0.109939 0.13398 0.119912
0.183206 0.129936 0.374792 0.14006 0.286128 0.150091 0.206733
0.160075 0.190605 0.169949 0.196913 0.17999 0.136811 0.189984
0.223428 0.200178 0.130515 0.209919 0.279305 0.21986 0.179522
0.230087 0.167779 0.239816 0.127177 0.250051 0.18394 0.260079 0.22457
0.269779 0.120137 0.279989 0.142624 0.290027 0.124499 0.299737
0.111797 0.309994 0.123014 0.319982 0.268029 0.329976 0.207562
0.339971 0.0887317 0.349912 0.141557 0.359975 0.0943557 0.369923
0.0895733 0.379933 0.198241 0.389968 0.204985 0.399985 0.107935
0.409949 0.0945179 0.419974 0.125101 0.429965 0.0976423 0.440214
0.0904647 0.449999 0.108261 0.459981 0.0657491 0.470024 0.206909
0.479727 0.0390659 0.489996 0.0464662 0.50005 0.208427 0.509765
0.0436721 0.520046 0.0589122 0.53008 0.0933284 0.540058 0.122129
0.550131 0.108932 0.55981 0.0608129 0.570111 0.0552627 0.579854
0.0621947 0.590107 0.139442 0.59986 0.0498109 0.610232 0.103161
0.619883 0.129033 0.630016 0.0849617 0.640199 0.0601919 0.649749
0.0799222 0.660031 0.0541167 0.669983 0.113527 0.679712 0.0480973
0.690061 0.089419 0.700078 0.107595 0.709859 0.0710718 0.720131
0.041575 0.730196 0.123105 0.740089 0.0584097 0.749848 0.0861482
0.75993 0.0515622 0.769942 0.0761598 0.779974 0.118253 0.789996
0.0481484 0.799986 0.0874933 0.809957 0.0973124 0.820064 0.0534035
0.830362 0.025697 0.83973 0.0399598 0.850034 0.049165 0.859829
0.0851767 0.869827 0.0404494 0.880229 0.0435597 0.889938 0.0723645
0.899933 0.0190775 0.910168 0.0616833 0.919942 0.0725692 0.929991
0.0399983 0.940013 0.102806 0.950018 0.0518368 0.960034 0.0318331
0.970059 0.0823362 0.980036 0.0436783 0.989837 0.0463608 1.00013
0.0562829
  ] def



/ex54 [

5.87906 19.9758 5.38078 23.2179 6.61461 22.45 6.48865 23.8991
7.79373 21.6975 7.66747 18.3412 7.16927 15.7147 7.0433 23.5588
7.89268 23.6885 6.44363 24.0582 6.31744 20.4902 5.81917 24.1383
7.16713 21.0382 6.66901 18.9723 6.54259 11.4618 6.04431 22.422
6.99837 23.9206 7.72186 17.6438 7.22366 19.559 7.0974 19.865 8.16101
21.0954 7.66296 21.6132 8.38593 23.3011 8.45734 21.8227 8.33099
20.4936 7.83295 23.6901 9.12148 21.6428 8.99521 24.1041 9.0123
22.5552 10.0761 24.016 9.94987 23.6423 9.4516 18.8 10.3011 18.3618
10.175 15.7533 9.67651 15.8403 10.7406 22.2248 11.2952 23.4363
8.38531 18.1067 9.44916 24.1021 8.95065 19.521 8.82462 16.3613
8.32649 22.8011 9.67415 22.9247 9.1758 23.1169 9.04961 18.7033
10.0041 21.3686 9.50554 20.3098 9.37965 23.1915 10.229 20.7535
9.73083 24.3928 10.7951 23.4553 10.6687 20.0753 10.1704 22.7069
10.9646 20.4496 10.8385 20.1683 11.4042 19.4907 12.0175 23.4256
11.5192 22.1005 12.5835 16.0818 12.4572 16.8864 11.9588 13.1062
12.809 19.7136 12.6826 18.5011 12.1842 20.9156 13.2483 19.5923
13.1218 24.0439 13.8034 21.8302 10.6676 23.761 10.8927 22.8588 11.957
21.8607 11.4587 19.2204 11.3322 17.3188 12.5117 19.7264 12.0132
20.9341 13.1763 23.3152 13.2472 20.7672 13.1206 23.1287 13.4724
23.3126 13.3461 23.9651 13.9117 18.537 13.8022 22.5502 14.2414
20.9416 14.4669 13.1742 13.1752 23.9257 13.6145 24.4108 13.8398
22.6699
    ] store



/ex54good [

6.54259 11.4618
11.9588 13.1062
14.4669 13.1742  

10.175 15.7533 
9.67651 15.8403 

10.0041 21.3686 
] store


/ex54orig [ 9.88396 24.4257 ] store

/ex54want [ 10 0 ] store











/shook [
0.00934937 1.51076 0.0210324 0.978672 0.0312886 0.477679 0.0406482
0.318167 0.0493669 0.337353 0.0617085 0.203131 0.0692016 0.259957
0.0798052 0.229666 0.0885358 0.271299 0.100559 0.1726 0.109939
0.13398 0.118677 0.119296 0.131049 0.187404 0.140698 0.134313
0.149444 0.129195 0.158846 0.106101 0.170589 0.0965049 0.179351
0.0914561 0.189653 0.129042 0.201417 0.0546426 0.210828 0.108576
0.218951 0.100261 0.230727 0.120773 0.241057 0.103841 0.24984
0.0973585 0.259094 0.114175 0.268537 0.0808775 0.281232 0.051974
0.289386 0.0641827 0.301193 0.0942731 0.310907 0.0954356 0.31907
0.0730116 0.330889 0.0677774 0.339699 0.0797174 0.350554 0.0727672
0.360616 0.0859002 0.369923 0.0895733 0.379679 0.0823565 0.391137
0.0758395 0.399965 0.0916116 0.411197 0.0716472 0.419389 0.052739
0.430883 0.0744991 0.441523 0.0643956 0.450642 0.0651337 0.461231
0.0500311 0.470357 0.0682797 0.479727 0.0390659 0.491163 0.0464662
0.500383 0.0701265 0.509765 0.0436721 0.520046 0.0589122 0.529436
0.0621049 0.540979 0.065531 0.549818 0.0659652 0.55981 0.0608129
0.570111 0.0552627 0.579854 0.0621947 0.589296 0.0497526 0.59986
0.0498109 0.610207 0.0454799 0.620493 0.0516502 0.630849 0.0588497
0.639051 0.034206 0.649639 0.0456603 0.660009 0.0522574 0.670628
0.0426991 0.679712 0.0480973 0.69034 0.0477716 0.699467 0.0308037
0.711012 0.0686215 0.720131 0.041575 0.729513 0.0498212 0.739846
0.0430787 0.750499 0.0405623 0.76086 0.0438831 0.770257 0.0497878
0.780553 0.0441616 0.789662 0.0457397 0.800267 0.0325654 0.809451
0.0440074 0.820078 0.0403837 0.830362 0.025697 0.840997 0.0332166
0.85014 0.0337785 0.860449 0.0360605 0.869889 0.015046 0.880467
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0.027215 0.960034 0.0318331 0.970334 0.0351219 0.979745 0.0379512
0.990337 0.0386641 1.00065 0.0439439
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%%%%%%%%%%%%% ordinary tracking figures 

/figureoneauto {


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   save /snap2 exch store xpos 2 add ypos figadvance sub translate
   % /linestring 20000 string def 



   figure1
   snap2 restore 

   /ypos ypos figadvance sub yinc sub 

% 7 add  

store  % temp bug removal?
   
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/figure1aaa 

{



save /snap1aaa exch store

11 32.6 translate % huh?



% BIG GREEN A
% =================================================================


 % (C:\\windows\\desktop\\gonzo\\gonzo.ps) run  % use internal gonzo
%  (A:\\gonzo.ps) run  % use external gonzo

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% nuisance begin


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20.2 5 (best\npixel fit) cc


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0.12 dup scale 

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newpath








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font2

30 0 (A) cc

%%% second figure

85 0 translate % was 90



% character is 0.4 0.4 0.4 hardwired
% background is 0.75 1 0.75 


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/makeshade {   %adjgam


/val exch store

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gsave
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[ 0.999 0.999 0.100 0.100 0.999 0.999 ] { makeshade} forall

-60 -10 translate 

[ 0.999 0.800 0.007 0.007 0.800 0.999 ] {makeshade} forall

-60 -10 translate
[ 0.999 0.559 0.189 0.189 0.559 0.999 ] {makeshade} forall

-60 -10 translate

[ 0.999 0.282 0.432 0.432 0.282 0.999 ]{makeshade} forall
-60 -10 translate

[ 0.969 0.037 0.632 0.632 0.037 0.969 ]{makeshade} forall
-60 -10 translate

[ 0.779 0.000 0.000 0.000 0.000 0.779 ]{makeshade} forall
-60 -10 translate

[ 0.464 0.144 0.649 0.649 0.144 0.464 ]{makeshade} forall
-60 -10 translate

[ 0.182 0.439 0.999 0.999 0.439 0.182 ]{makeshade} forall


grestore




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0 0 mt 80 pu 60 pr 80 pd closepath
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newpath
line1
[{0 0 mt 80 u}10 6  ] xrpt
[{0 0 mt 60 r}10 8  ] yrpt


snap1aaa restore

} store








/figure1x {  


    


     /circproc {gsave 
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                /circvalue exch store 
                /circshade exch store translate

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0 -1.5 arraynum cc 

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line1 



[{0 0  mt 1 2 rlineto 1 -2 rlineto stroke} 4 8 ] xrpt
[{1 2 mt 2 2 rlineto 2 -2 rlineto stroke} 8 4 ] xrpt
[{3 4 mt 4 2 rlineto 4 -2 rlineto stroke} 16 2 ] xrpt
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(01) (12) (11) (21)]
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15 8 0.7 (52)(01) circproc

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26.5 7.6 (xx = array address)cc


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/figure1f {

 

save /snap3 exch def

/linestring 1000 string store


9 1 translate % position on page


%%%%%%%%%%%%%%%%%%%



/sdat
[
11.98 10.02 11.38 10.47 10.7 10.13 11.65 10.41 11.68 10.1 11.82 10.38 11.07 10.13 11.13 10.16 10.95 10.44 9.97 10.1 11.53 10.04 12.0 10.28 11.35 10.49 11.2 9.47 9.24 9.75 10.3 10.03 11.42 9.65 9.91 9.41 8.61 9.69 11.01 9.62 12.3 9.38 11.13 9.74 9.76 9.4 8.93 9.68 9.77 9.72 10.33 10.0 9.66 9.34 9.69 9.62 8.33 9.66 9.83 9.93 11.37 9.69 11.07 9.97 9.71 9.55 9.49 9.82 9.94 9.58 7.78 9.86 9.1 10.14 10.73 9.9 10.17 10.17 10.74 9.76 8.24 9.52 6.75 9.8 9.16 10.08 7.76 9.83 8.03 10.11 11.37 10.15 9.75 9.46 9.43 9.74 7.95 9.77 9.14 10.05 11.05 9.81 10.8 9.48 11.96 9.24 8.28 9.52 7.41 9.8 7.55 9.83 8.36 10.11 7.94 9.45 8.08 9.73 7.69 9.49 5.22 9.77 7.5 10.05 8.58 9.8 8.27 10.08 8.46 9.43 7.47 9.71 7.87 9.74 8.53 10.02 11.58 9.76 11.4 9.7 11.83 9.66 11.44 9.7 9.71 9.97 10.87 10.25 11.64 10.01 9.81 9.63 8.69 9.91 8.75 9.95 9.08 10.22 12.21 10.5 11.57 10.26 10.94 9.57 10.73 9.85 8.71 9.88 9.89 10.16 11.86 9.97 9.43 9.91 8.8 9.94 9.59 10.22 9.57 9.57 9.77 9.85 8.6 9.6 6.62 9.88 8.63 10.16 8.75 9.92 8.55 10.19 11.42 10.47 9.09 9.54 8.28 9.82 7.82 9.85 8.58 10.13 11.75 9.89 12.49 10.44 11.69 9.79 11.75 10.03 12.35 9.65 10.9 9.97 12.31 8.99 12.23 9.24 12.49 9.13 11.21 9.44 11.38 8.83 8.94 9.1 9.54 9.38 9.94 9.14 8.7 9.42 12.04 9.45 11.01 8.76 9.37 9.04 10.72 9.32 8.15 9.08 7.71 9.35 9.4 9.39 9.61 9.01 9.49 9.33 11.21 9.6 11.11 9.1 9.92 9.04 8.03 9.07 8.13 9.35 11.33 9.63 9.08 9.39 11.48 8.97 7.58 9.01 8.67 9.29 8.24 9.05 7.17 9.32 9.78 9.6 11.66 8.67 10.44 8.95 11.85 8.71 8.89 8.98 8.86 9.26 11.78 9.54 9.95 9.3 11.03 9.28 12.11 9.18 8.21 9.22 8.95 9.49 12.44 8.97 8.52 9.25 7.16 9.53 9.52 9.81 10.33 9.57 10.16 8.88 8.46 9.15 6.04 9.19 5.59 9.47 9.3 9.74 9.28 9.23 6.83 9.5 8.24 9.78 12.24 10.06 11.58 9.09 10.43 8.85 7.67 9.13 8.34 9.4 8.25 9.16 6.68 9.44 9.05 9.72 11.67 9.49 9.74 9.53 11.95 9.8 12.31 9.84 9.26 9.15 9.79 8.91 6.2 9.19 6.45 9.46 10.28 9.74 8.69 9.22 6.67 9.5 8.63 9.78 11.48 9.54 8.31 8.85 5.26 9.12 6.86 9.4 11.27 9.68 10.02 8.88 4.95 9.16 3.11 9.44 7.46 9.71 10.29 9.2 7.54 9.47 8.28 9.75 11.89 10.03 8.69 9.06 10.53 9.34 9.57 8.82 5.65 9.1 5.75 9.37 9.75 9.65 8.54 9.13 6.32 9.41 8.24 9.69 11.18 9.72 9.94 9.09 11.48 9.03 10.96 9.07 9.26 9.64 12.02 9.54 8.09 9.3 7.86 9.58 7.97 9.62 9.3 9.89 12.24 9.65 9.16 9.24 9.82 9.52 8.92 9.28 7.6 9.55 9.84 9.83 11.54 9.64 8.44 9.3 8.73 9.58 9.73 9.33 8.09 9.61 9.85 9.89 9.83 8.96 7.54 9.24 8.82 9.51 6.32 9.27 5.18 9.55 8.63 9.83 7.76 9.59 8.59 9.86 10.04 9.17 6.6 9.21 6.82 9.49 8.43 9.25 6.3 9.52 8.32 9.8 10.84 9.56 11.78 9.55 10.32 9.52 11.98 9.14 12.38 9.41 11.8 9.73 12.24 9.39 10.69 9.38 12.33 9.94 9.9 9.64 11.25 8.43 10.49 8.71 9.45 8.74 9.96 9.02 11.36 9.06 11.21 9.0 11.02 8.71 9.4 8.74 10.34 9.02 11.9 8.37 12.24 8.64 8.73 8.68 10.53 8.96 9.35 8.71 9.37 8.99 11.52 8.34 9.66 8.65 11.45 8.97 12.43 8.95 11.22 8.61 9.75 8.88 11.17 9.16 10.05 8.92 9.83 9.2 12.36 9.47 10.43 8.54 9.7 8.82 7.73 8.86 8.45 9.13 10.5 8.89 9.35 9.17 12.32 8.76 8.77 8.79 9.33 8.83 8.97 9.11 10.16 8.58 7.91 8.85 9.1 9.13 10.02 8.89 9.3 9.17 8.44 8.51 6.84 8.79 9.12 9.07 6.66 8.83 6.81 9.1 9.71 9.14 9.89 8.45 9.46 8.73 9.45 8.49 6.83 8.76 8.05 9.04 9.41 8.8 8.51 9.08 11.68 9.07 11.94 8.7 11.47 8.73 11.83 9.01 11.46 9.31 11.69 8.69 9.44 8.97 10.24 9.28 9.95 8.94 9.7 9.22 12.25 9.5 9.8 8.97 10.86 9.24 9.96 8.63 8.74 8.9 7.76 8.94 8.0 9.22 9.91 9.25 11.05 8.56 10.74 8.84 9.99 8.6 7.67 8.88 8.87 9.16 9.33 8.91 8.52 9.19 10.92 9.47 11.41 8.85 11.84 9.13 11.39 8.99 12.23 8.46 10.76 8.43
% patch dots follow

4.3 9.3
5 9.4
6.3 8.8
6.5 9.7
5.8 9.7
6 9.2
6 9.6
7.2 8.8
7.2 9
7.2 9.7
7.3 9.9
8 8.6
9 8.5
10.5 9.6
10.7 10
11 10.3

 ] store

% Actual dots plotted = 334 + patches.

% 100 100 10 setgrid  % only standalone



1.15 dup scale

10 10 showgrid

0.4 0.8 0.8 setrgbcolor 1 setlinecap 1 setlinejoin
line3 0 0 mt 10 u 10 r 10 d 10 l

0.25 0.25 0.25 setrgbcolor

gsave 0 0 mt 0 10 rlineto 10 0 rlineto 0 -10 rlineto closepath clip

gsave -3.2 -0.8 translate 0.87 dup scale

0 2 sdat length 2 sub {/cposn exch store

sdat cposn 1 add get 
sdat cposn get   


1 0 0 setrgbcolor
0.2 setgray   0.9 settint 0.40 setgray

     mt dot

} for
grestore
grestore

/cstretch 0 store
/sstretch 0.015 store


black 


/font1 /Helvetica-Bold 0.9 gonzofont
font1






5 -1.3 (amplitude) cc

gsave -0.8 5 translate 90 rotate
0 0 (distortion) cc
grestore








ypos snap3 restore /ypos exch def  
} def

%%%%%%



/figure1 {

 /figadvance 10 store


save /snap3 exch def

/linestring 1000 string store

%%%%%%%%%%%%%%%%%%%

electronics begin

bestgray


 -0.0 -2.6 translate  % reposition on page

% 0 0 10 setgrid  already there
 %  33 14 showgrid


/cstretch 0.02 def
/sstretch 0.0 def
/kern 0.1 def
/yinc 1.0 def

/red {0 settint} def
/blue {0.67 settint} def
/purple {0.75 settint} def

/font0 /Helvetica-Bold [1.2 0 0 1 0 -0.2] gonzofont

/font0 /helvetica-bold [1 0 0 0.8 0 0 ] gonzofont

/font1 /Helvetica 0.75 gonzofont
/font4 /Helvetica 0.6 gonzofont
/font3 /Helvetica-Bold 0.75 gonzofont
/font2 /Helvetica-Oblique 0.75 gonzofont
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/font8 /Symbol 0.75 gonzofont

/font9 /Helvetica [.6 0 0 .6 -.15 .4] gonzofont

/font- /Helvetica-Bold [0.4 0 0 0.55 0 0] gonzofont 

/kern 0.15 def
/tabs [16.5] def
/txtwide 29 def
font1

/tabs [17.5] def

font1

/yinc 0.9 def
line1


bestgray
black










22 6 mt 3 d 5 rx circ1
    26 3 mt rarrow

21 6 mt 1 d 6 rx circ1
    26 5 mt rarrow

20 6 mt 1.5 d 4 rx 2 ux 3 r circ1
    26 6.5 mt rarrow


19 6 mt 2 d 5.5 rx 4 ux 2.5 r circ1
    26 8 mt rarrow



17 10 mt 1 u 5 l 8 d 4 l circ1
     9.5 3 mt rarrow  % low priority




18 6 mt 1.5 d ground


17 6 mt 2.5 d 7 lx  1 u 2 l circ1
       9.5 4.5 mt rarrow

16 6 mt 2 d 5.5 lx 2 u 2.5 l circ1
       9.5 6 mt rarrow

15 6 mt 1.5 d 4 lx 3 u 3 l circ1
       9.5 7.5 mt rarrow

14 6 mt 1 d 2.5 lx 4 u 3.5 l circ1
      9.5 9 mt rarrow









21 10 mt 2 ux 3 r 2 d 3 r circ1
     26 13 mt rarrow

20 10 mt 2.5 u 4.5 r 1 d 2.5 r circ1
     26 11.5 mt rarrow

19 10 mt 3 u 8 r circ1
     26 10 mt rarrow

18 10 mt 1.5 u circ1   % +5v



16 10 mt 3 ux circ1
     16 12.3 mt darrow

15 10 mt 2 ux 7 l circ1
      9.5 12 mt rarrow


14 10 mt 1.5 ux 2.5 l 1 d 3.5 l circ1
       9.5 10.5 mt rarrow



beige

14 6 moveto
18
(MS28D-05X)
(IN1 IN0 XIN IN6 +5V /DA /DB /DC NC)
(IN2 IN3 IN4 IN5 GND DA DB DC SYNC)

dipdraw

font4


22 10.65 (NC) cc


font1
18 12 (+5V) cc

  

font1

/overstrikeht 0.55 store

27.7 13 0.3 sub  (Delta "A" complement) cl
27.7 11.5 0.3 sub (Delta "B" complement) cl
27.7 10 0.3 sub (Delta "C" complement) cl


27.7 8 0.3 sub  (Delta "A" true output) cl
27.7 6.5 0.3 sub (Delta "B" true output) cl
27.7 5 0.3 sub (Delta "C" true output) cl
27.7 3  0.3 sub (Zero degrees sync) cl



16 14.7 (10 MHz per 60 Hz) cc
16 13.8 (input clock ref) cc

7.3 2.7 (high ~|jOR|j~ 0-100 amp bit 6) cr
7.3 4.2 (high ~|jOR|j~ 0-100 amp bit 5) cr
7.3 5.7 (high ~|jOR|j~ 0-100 amp bit 4) cr
7.3 7.2 (slew up ~|jOR|j~ 0-100 amp bit 3) cr
7.3 8.7 (slew down ~|jOR|j~ 0-100 amp bit 2) cr
7.3 10.2 (step up ~|jOR|j~ 0-100 amp bit 1) cr
7.3 11.7 (step down ~|jOR|j~ 0-100 amp bit 0) cr




end
ypos snap3 restore /ypos exch def  
} def


%%%%%%%%%%%%%%



/figure2 {

 /figadvance 10 store


save /snap3 exch def

/linestring 1000 string store

%%%%%%%%%%%%%%%%%%%

electronics begin

bestgray

line1

0 -1 translate  % reposition on page

% 0 0 10 setgrid  already there
%    33 14 showgrid

/onecoil {  0 0 mt 1 pr 8 hcoil 0.9 r} store


/delta {gsave translate 
        gsave onecoil grestore
        gsave 60 rotate onecoil grestore
        gsave 4 6.928 translate -60 rotate onecoil grestore
        0 0 mt circ1  4 7 mt circ1  8 0 mt circ1
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/box35 {gsave /callout exch store translate 0 -1.5 mt 2.5 pl 3 pu 5 pr 3 pd closepath
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        gsave 0.33 setgray line3 stroke grestore 
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/font1 /Helvetica 0.8 gonzofont
/font2 /Helvetica-Bold 1 gonzofont

/hbd {gsave translate   0 2.5 mt 5 d ground 0 2.5 mt circ1   /yinc 0.9 store
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font1

2 3 mt 3 l circ1
1 3 mt rarrow

4 3 mt 5 r 2 d 13 r 2 u

6 7 mt 7 l circ1
1 7 mt rarrow

10 11 mt 11 l circ1
1 11 mt rarrow

  14 11 mt  4 r 1 d
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4.5 3 hbd
8 7 hbd
11.5 11 hbd




font2

-2.3 2.6 (DC) cc
-2.3 6.6 (DA) cc
-2.3 10.6 (DB) cc

14.5 7 (a) cc
21.4 7 (b) cc
18 1.7 (c) cc

3.5 5.3 (+v) cc
6.8 9.3 (+v) cc
10.4 13.3 (+v) cc

13.5 1.7 (TA) cc
23.3 1.7 (TC) cc

18 11.5 (TB) cc





end

ypos snap3 restore /ypos exch def  
} def

%%%%%%% core defs for magsin plots




%%%%%%% core defs for magsin plots

/coredefs {

/shakendelta28 [
[ [868      0    0 1730    0      0     0 868] 0.000000 0.0000000 3472 ]
[ [860    13    2 1722    0    10     6 859] 1.510760 0.0093493 3472 ]
[ [850    29    5 1701    6    22     8 851] 0.978672 0.0210324 3472 ] 
[ [845    43    7 1683    7    33   14 840] 0.477679 0.0312886 3472 ]
[ [837    56    9 1668    7    43   20 832] 0.318167 0.0406482 3472 ]

[ [830    68  11 1653  10    52   23 825] 0.337353 0.0493669 3472 ]
[ [821    85  14 1631  11    65   30 815] 0.203131 0.0617085 3472 ]
[ [815    95  16 1619  13    73   33 808] 0.259957 0.0692016 3472 ]
[ [807  110  18 1601  14    84   39 799] 0.229666 0.0798052 3472 ]
[ [800  122  20 1587  16    93   43 791] 0.271299 0.0885358 3472 ]

[ [791  138  23 1567  18  106   49 780] 0.172600 0.1005590 3472 ]
[ [784  151  25 1551  19  116   54 772] 0.1339800 0.109939 3472 ]
[ [777  163  27 1536  21  125   58 765] 0.1192960 0.118677 3472 ]
[ [768  180  30 1515  22  138   65 754] 0.1874040 0.131049 3472 ]
[ [761  193  32 1499  24  148   70 745] 0.1343130 0.140698 3472 ]

[ [754  205  34 1484  26  157   74 738] 0.1291950 0.149444 3472 ]
[ [747  218  36 1468  26  167   80 730] 0.1061010 0.158846 3472 ]
[ [738  234  39 1448  28  179   86 720] 0.0965049 0.170589 3472 ]
[ [731  246  41 1434  29  188   91 712] 0.0914561 0.179351 3472 ]
[ [723  260  43 1417  31  199   96 703] 0.1290420 0.189653 3472 ]

[ [714  276  46 1397  32  211 103 693] 0.0546426 0.201417 3472 ]
[ [707  289  48 1381  33  221 108 685] 0.1085760 0.210828 3472 ]
[ [701  300  50 1367  35  229 112 678] 0.1002610 0.218951 3472 ]
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[ [684  330  55 1330  37  252 125 659] 0.1038410 0.241057 3472 ]

[ [677  342  57 1316  38  261 130 651] 0.0973585 0.249840 3472 ]
[ [670  354  60 1300  40  270 135 643] 0.1141750 0.259094 3472 ]
[ [663  367  62 1284  40  280 141 635] 0.0808775 0.268537 3472 ]
[ [653  384  65 1263  42  293 148 624] 0.0519740 0.281232 3472 ]
[ [647  395  67 1249  43  301 153 617] 0.0641827 0.289386 3472 ]

[ [638  411  70 1229  44  313 160 607] 0.0942731 0.301193 3472 ]
[ [630  424  72 1214  45  323 166 598] 0.0954356 0.310907 3472 ]
[ [624  435  74 1200  46  331 171 591] 0.0730116 0.319070 3472 ]
[ [615  451  77 1180  47  343 178 581] 0.0677774 0.330889 3472 ]
[ [608  463  79 1165  48  352 183 574] 0.0797174 0.339699 3472 ]

[ [600  477  82 1147  49  363 190 564] 0.0727672 0.350554 3472 ]
[ [592  491  84 1130  50  373 196 556] 0.0859002 0.360616 3472 ]
[ [585  503  87 1114  51  382 202 548] 0.0895733 0.369923 3472 ]
[ [578  516  89 1098  51  392 209 539] 0.0823565 0.379679 3472 ] 
[ [569  531  92 1079  53  403 216 529] 0.0758395 0.391137 3472 ]

[ [562  543  94 1064  54  412 221 522] 0.0916116 0.399965 3472 ]
[ [553  558  97 1046  54  423 229 512] 0.0716472 0.411197 3472 ]
[ [547  569  99 1032  55  431 234 505] 0.0527390 0.419389 3472 ]
[ [538  584 102 1013 56  442 242 495] 0.0744991 0.430883 3472 ]
[ [530  598 105  995  56  453 249 486] 0.0643956 0.441523 3472 ]

[ [523  610 107  980  57  462 255 478] 0.0651337 0.450642 3472 ]
[ [515  624 110  962  58  472 262 469] 0.0500311 0.461231 3472 ]
[ [508  636 112  947  59  481 268 461] 0.0682797 0.470357 3472 ]
[ [501  648 115  931  59  490 275 453] 0.0390659 0.479727 3472 ]
[ [493  661 118  914  60  500 282 444] 0.0464662 0.491163 3472 ]

[ [485  675 120  897  61  510 289 435] 0.0701265 0.500383 3472 ]
[ [478  687 123  881  61  519 296 427] 0.0436721 0.509765 3472 ]
[ [470  700 126  864  62  529 303 418] 0.0589122 0.520046 3472 ]
[ [463  712 129  848  62  538 310 410] 0.0621049 0.529436 3472 ]
[ [454  727 132  829  63  549 318 400] 0.0655310 0.540979 3472 ]

[ [447  739 134  814  64  557 324 393] 0.0659652 0.549818 3472 ]
[ [440  751 137  797  64  567 332 384] 0.0608129 0.559810 3472 ]
[ [432  764 140  780  65  577 339 375] 0.0552627 0.570111 3472 ]
[ [424  777 143  764  65  586 346 367] 0.0621947 0.579854 3472 ]
[ [417  789 145  748  66  595 353 359] 0.0497526 0.589296 3472 ]

[ [409  802 149  730  66  605 361 350] 0.0498109 0.599860 3472 ]
[ [401  815 152  713  66  615 369 341] 0.0454799 0.610207 3472 ]
[ [393  828 155  696  67  624 377 332] 0.0516502 0.620493 3472 ]
[ [385  841 158  679  67  634 385 323] 0.0588497 0.630849 3472 ]
[ [379  851 160  665  68  642 391 316] 0.0342060 0.639051 3472 ]

[ [371  864 164  647  68  652 399 307] 0.0456603 0.649639 3472 ]
[ [363  877 167  630  68  662 407 298] 0.0522574 0.660009 3472 ]
[ [355  890 170  612  69  672 415 289] 0.0426991 0.670628 3472 ]
[ [348  901 173  597  69  680 423 281] 0.0480973 0.679712 3472 ]
[ [340  914 176  579  70  690 431 272] 0.0477716 0.690340 3472 ]

[ [333   925 179  564  70  699 438 264] 0.0308037 0.699467 3472 ]
[ [324   939 183  545  70  710 447 254] 0.0686215 0.711012 3472 ]
[ [317   950 185  530  71  718 455 246] 0.0415750 0.720131 3472 ]
[ [310   961 188  514  72  727 462 238] 0.0498212 0.729513 3472 ]
[ [302   973 192  497  71  737 471 229] 0.0430787 0.739846 3472 ]

[ [294   986 195  479  72  747 479 220] 0.0405623 0.750499 3472 ]
[ [286   998 198  462  72  757 488 211] 0.0438831 0.760860 3472 ]
[ [279 1009 201  446  73  766 495 203] 0.0497878 0.770257 3472 ]
[ [271 1021 204  429  74  775 504 194] 0.0441616 0.780553 3472 ]
[ [264 1031 207  414  74  784 512 186] 0.0457397 0.789662 3472 ]

[ [256 1043 211  396  74  794 521 177] 0.0325654 0.800267 3472 ]
[ [249 1054 213  381  75  803 528 169] 0.0440074 0.809451 3472 ]
[ [241 1066 216  363  76  813 537 160] 0.0403837 0.820078 3472 ]
[ [233 1077 220  346  76  823 546 151] 0.0256970 0.830362 3472 ]
[ [225 1089 223  328  77  833 555 142] 0.0332166 0.840997 3472 ]

[ [218 1099 225  313  78  842 563 134] 0.0337785 0.850140 3472 ]
[ [210 1110 228  296  79  852 572 125] 0.0360605 0.860449 3472 ]
[ [203 1120 231  280  80  862 580 117] 0.0150460 0.869889 3472 ]
[ [195 1131 233  262  82  872 589 108] 0.0360463 0.880467 3472 ]
[ [187 1141 236  245  83  883 598   99] 0.0317396 0.890767 3472 ]

[ [180 1151 237  230  85  892 606   91] 0.0190775 0.899933 3472 ]
[ [172 1162 238  213  88  902 615   82] 0.0316686 0.910273 3472 ]
[ [165 1171 239  197  91  912 623   74] 0.0263476 0.919661 3472 ]
[ [157 1181 239  180  95  922 633   65] 0.0388174 0.929956 3472 ]
[ [150 1190 238  164 100  932 641  57] 0.0323680 0.939357 3472 ]

[ [142 1200 235  147 107  943 650  48] 0.0272150 0.949701 3472 ]
[ [134 1209 230  130 116  955 659  39] 0.0318331 0.960034 3472 ]
[ [126 1218 223  113 127  966 669  30] 0.0351219 0.970334 3472 ]
[ [119 1226 210    97 144  977 677  22] 0.0379512 0.979745 3472 ]
[ [111 1234 188    80 170  989 688  12] 0.0386641 0.990337 3472 ]

[ [103 1242 151    63 211 1001 698   3] 0.0439439 1.000650 3472 ]

] def


/aa mark  shakendelta28 {0 get 0 get 2 mul} forall ] store  % double a
/bb mark  shakendelta28 {0 get 1 get} forall ] store
/cc mark  shakendelta28 {0 get 2 get} forall ] store
/dd mark  shakendelta28 {0 get 3 get} forall ] store
/ee mark  shakendelta28 {0 get 4 get} forall ] store
/ff mark  shakendelta28 {0 get 5 get} forall ] store
/gg mark  shakendelta28 {0 get 6 get} forall ] store
/hh mark  shakendelta28 {0 get 7 get 2 mul } forall ] store  % double h


% aa == bb == cc == dd == ee == ff == gg == hh ==


/amplitude 53 store

/delaypattern [

(aa)(bb)(cc)(dd)(ee)(ff)(gg)
(hh)(gg)(ff)(ee)(dd)(cc)(bb)

(aa)(bb)(cc)(dd)(ee)(ff)(gg)
(hh)(gg)(ff)(ee)(dd)(cc)(bb)

(aa)(bb)(cc)(dd)(ee)(ff)(gg)
(hh)(gg)(ff)(ee)(dd)(cc)(bb)

(aa)(bb)(cc)(dd)(ee)(ff)(gg)
(hh)(gg)(ff)(ee)(dd)(cc)(bb)

(aa)(bb)(cc)(dd)(ee)(ff)(gg)
(hh)(gg)(ff)(ee)(dd)(cc)(bb)

(aa)(bb)(cc)(dd)(ee)(ff)(gg)
(hh)(gg)(ff)(ee)(dd)(cc)(bb)


              ] store



/portpattern [

<E0>  <A2><2B>  <07>  <2B><A2><2B>  <E0>  <A2><2B><A2>  <E0>  <A2><2B>
<E0> pop <07>  <2B><69>  <E0>  <69><2B><69>  <E0>  <2B><69><2B>  <07>  <2B><69>
<E0>  <69><45>  <07>  <45><69><45>  <E0>  <69><45><69>  <E0>  <69><45>

<E0> pop <07>  <45><C4>  <E0>  <C4><45><C4>  <E0>  <45><C4><45>  <07>  <45><C4>
<E0>  <C4><64>  <07>  <86><C4><86>  <E0>  <C4><86><C4>  <E0>  <C4><86>
<E0> pop <07> <86><C2>  <E0>  <C2><86><C2>  <E0>  <86><C2><86>  <07>  <86><C2>

] store


% 100 100 10 setgrid
% 30 60 showgrid

/hscale 30  3472 12 mul div  store


/vscale 4 store


/phasea {gsave  translate

/port 0 store

line1 
0 0 mt

0 1 portpattern length 1 sub {/posn exch store


portpattern posn get  0 get
 2 12 string cvrs (10000000) exch mergestr 

100 string cvs    % dereference?


dup length 1 sub port sub get 48 sub   /state exch store


delaypattern posn get cvn load amplitude get  /stall exch store




currentpoint exch pop cvi /nowat exch store

nowat 0 eq state 0 ne and {0 vscale rlineto} if
nowat 0 ne state 0 eq and {0 vscale neg rlineto} if

stall hscale mul 0 rlineto




} for


stroke

 grestore} store



%%%%%%%%%

/phaseb {gsave  translate

/port 1 store

/prev false store

line1 
0 0 mt

0 1 portpattern length 1 sub {/posn exch store


portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr 

dup length 1 sub port sub get 48 sub   /state exch store


delaypattern posn get cvn load amplitude get  /stall exch store




currentpoint exch pop cvi /nowat exch store

nowat 0 eq state 0 ne and {0 vscale rlineto} if
nowat 0 ne state 0 eq and {0 vscale neg rlineto} if

stall hscale mul 0 rlineto




} for


stroke

 grestore} store


%%%%%%%%%



/phasec {gsave  translate

/port 2 store

line1 
0 0 mt

0 1 portpattern length 1 sub {/posn exch store


portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr 

dup length 1 sub port sub get 48 sub   /state exch store


delaypattern posn get cvn load amplitude get  /stall exch store




currentpoint exch pop cvi /nowat exch store

nowat 0 eq state 0 ne and {0 vscale rlineto} if
nowat 0 ne state 0 eq and {0 vscale neg rlineto} if

stall hscale mul 0 rlineto




} for


stroke

 grestore} store


/halfwave {gsave  translate

/port 3 store

line1 1 0 0 setrgbcolor
0 0 mt

0 1 portpattern length 1 sub  {/posn exch store


portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr dup length 1 sub port sub get 48 sub cvi  


/state exch store


delaypattern posn get cvn load amplitude get  /stall exch store




currentpoint exch pop cvi /nowat exch store

% state ==
% nowat ==
% stall ==



nowat 0 eq state 0 ne and {0 vscale rlineto} if
nowat 0 ne state 0 eq and {0 vscale neg rlineto} if

stall hscale mul 0 rlineto

% currentpoint == ==
% (\n) print flush


} for



stroke

 grestore} store


%%%%%%%%%%%%

/AminusC  {gsave  translate

/Cport 2 store
/Aport 0 store


line1 
0 0 mt          

0 1 portpattern length 1 sub   {/posn exch store


portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr dup length 1 sub Cport sub get 48 sub cvi  
2 div /Cstate exch store

portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr dup length 1 sub Aport sub get 48 sub cvi  
2 div /Astate exch store

/nustate Astate Cstate sub  store



delaypattern posn get cvn load amplitude get  /stall exch store



currentpoint pop nustate vscale mul lineto

stall hscale mul 0 rlineto

%  currentpoint == ==
%  (\n) print flush


} for



stroke

 grestore} store

%%%%%%%%%%%


/BminusA  {gsave  translate

/Bport 1 store
/Aport 0 store

line1 
0 0 mt

0 1 portpattern length 1 sub   {/posn exch store


portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr dup length 1 sub Aport sub get 48 sub cvi  
2 div /Astate exch store

portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr dup length 1 sub Bport sub get 48 sub cvi  
2 div /Bstate exch store

/nustate Bstate Astate sub  store



delaypattern posn get cvn load amplitude get  /stall exch store



currentpoint pop nustate vscale mul lineto




stall hscale mul 0 rlineto

 % currentpoint == ==
 % (\n) print flush


} for



stroke

 grestore} store

%%%%%%%%%%%

/CminusB  {gsave  translate

/Cport 2 store
/Bport 1 store

line1 
0 0 mt

0 1 portpattern length 1 sub   {/posn exch store


portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr dup length 1 sub Bport sub get 48 sub cvi  
2 div /Bstate exch store

portpattern posn get  0 get
 2 12 string cvrs (00000000) exch mergestr dup length 1 sub Cport sub get 48 sub cvi  
2 div /Cstate exch store

/nustate Cstate Bstate sub  store



delaypattern posn get cvn load amplitude get  /stall exch store



currentpoint pop nustate vscale mul lineto




stall hscale mul 0 rlineto




} for



stroke

 grestore} store


} def

%%%%%%%%%%%








%%%%%%%%%%%%%%%%%%%%%%%

/figure3 {/figadvance 10 store
save /snap3 exch def
/linestring 1000 string store
%%%%%%%%%%%%%%%%%%%
electronics begin
bestgray
line1
coredefs
-3.8 -1.8 translate  % position on page
% 30 12 showgrid
/vscale 3 store

1 0 1 setrgbcolor


1 1 1 setrgbcolor  % nasty bug dont know why  dribbles down
0 10.3 phaseb

1 0 1 setrgbcolor

0 9 phasea
 
0 0 phaseb
0 4.5 phasec


30 0 mt 3 u % patch end


black
/font2 /Helvetica-Bold 1 gonzofont
-1 1 (DC) cr   % we have a cc conflict!!!!
-1 5.5 (DB) cr
-1 10 (DA) cr
% halfwave
% AminusC
% BminusA
% CminusB
end
ypos snap3 restore /ypos exch def  
} def

%%%%%%%%%%%%%%%%%%%%%%%




/figure4 {/figadvance 15 store
save /snap3 exch def
/linestring 1000 string store
%%%%%%%%%%%%%%%%%%%
electronics begin
bestgray
line1
coredefs
-3 -0.5 translate  % position on page
% 30 12 showgrid
/vscale 4 store

%0 9 phasea   1 0 0 setrgbcolor  30 0 mt 3 u % patch end
%0 0 phaseb
%0 4.5 phasec


1 0 1 setrgbcolor
0 9.2 2 add AminusC
0 0.2 BminusA
0 4.7 1 add CminusB
black


/font2 /Helvetica-Bold 1 gonzofont
/overstrikeht 0.85 store
-1 0 (DC - DA) cr   % we have a cc conflict!!!!
-1 4.5 1 add (DB - DC) cr
-1 9 2 add (DA - DB) cr

% halfwave
% AminusC
% BminusA
% CminusB
end
ypos snap3 restore /ypos exch def  
} def




/figure5 {
save /snap3 exch def
/linestring 1000 string store
%%%%%%%%%%%%%%%%%%%
electronics begin

/circ1b {gsave currentpoint newpath 0.20 0 360 arc % whitefill

gsave beige 0.88 setgray fill grestore black
line1 stroke grestore} def %for circle



bestgray
line1
coredefs
-4.5 -1  translate  % position on page
% 30 12 showgrid


       /font2 /Helvetica-Bold 1 gonzofont
       /overstrikeht 0.70 store
       /yinc 1.2 store

/anet {gsave translate  

       0 6 mt 1.5 r 6 d 1.5 l circ1b  0 6 mt circ1b
       1.5 1.5 vresistor
       1.5 4.5 vresistor
       1.5 3 mt dot
       1.5 3 mt 1.5 r circ1b

       font2   
       -0.7 5.5 (DA) cr   % no cc here!
       -0.7 -0.5 (D|oB|o) cr
       font1
        3.8 3.5 (phase a\noutput) cl

     grestore } store

/bnet {gsave translate  

       0 6 mt 1.5 r 6 d 1.5 l circ1b  0 6 mt circ1b
       1.5 1.5 vresistor
       1.5 4.5 vresistor
       1.5 3 mt dot
       1.5 3 mt 1.5 r circ1b

       font2   
       -0.7 5.5 (DB) cr   % no cc here!
       -0.7 -0.5 (D|oC|o) cr
       font1
        3.8 3.5 (phase b\noutput) cl

     grestore } store

/cnet {gsave translate  

       0 6 mt 1.5 r 6 d 1.5 l circ1b  0 6 mt circ1b
       1.5 1.5 vresistor
       1.5 4.5 vresistor
       1.5 3 mt dot
       1.5 3 mt 1.5 r circ1b

       font2   
       -0.7 5.5 (DC) cr   % no cc here!
       -0.7 -0.5 (D|oA|o) cr
       font1
        3.8 3.5 (phase c\noutput) cl

     grestore } store

-2 0 mt 10.7 pu 33.2 pr 10.7 pd closepath
0.88 setgray fill black


 1.5 3 anet
 12 3 bnet
 22.5 3 cnet

font1 9.5 0.8 (All resistors 2.2K.) cl

end
ypos snap3 restore /ypos exch def  
} def



/figuretwoauto { /figadvance 13 store

   save /snap2a exch store xpos 8 add ypos figadvance sub translate
   beige
   figure2
   snap2a restore 
   /ypos ypos figadvance sub yinc sub store
   } store

/figurethreeauto { /figadvance 11 store

   save /snap3a exch store xpos 8 add ypos figadvance sub translate
   beige
   figure3
   snap3a restore 
   /ypos ypos figadvance sub yinc sub store
   } store




/figurethreeautox { 

   save /snap3ax exch store 
   beige

0 1000 translate
   figure3
   snap3ax restore 
   } store





/figurefourauto { /figadvance 13 store

   save /snap4a exch store xpos 8 add ypos figadvance sub translate
   beige
   figure4
   snap4a restore 
   /ypos ypos figadvance sub yinc sub store
   } store


/figurefiveauto { /figadvance 10 store

   save /snap5a exch store xpos 8 add ypos figadvance sub translate
   beige
   figure5
   snap5a restore 
   /ypos ypos figadvance sub yinc sub store
   } store





/figure2x {



0.50 settint



/font0 /StoneSans-Bold 6 gonzofont  font0



0 1 1 setrgbcolor

10 3 (54) cc


 20 25 showgrid

line3  0 1 1 setrgbcolor
[{-0.5 0 mt 20.5 r} 10 3] yrpt
[{0 -0.5 mt 25.5 u} 10 3] xrpt
0 25 mt 20 r

black

  
0 0 0 setrgbcolor

    0 2 ex54 length 2 sub  {/posn2 exch store
     ex54 posn2 get         
     ex54 posn2 1 add get   
     moveto dot} for

1 0 1 setrgbcolor



    0 2 ex54good length 2 sub  {/posn2 exch store
     ex54good posn2 get         
     ex54good posn2 1 add get   
     moveto dot} for



1 0.5 0 setrgbcolor
ex54want 0 get ex54want 1 get mt dot

1 0 0 setrgbcolor
ex54orig 0 get ex54orig 1 get mt dot



/font1 /StoneSans-Bold 0.9 gonzofont
font1

0.3 0.3 0.3 setrgbcolor

0 -1.5 (0.535) cc
10 -1.5 (0.540) cc
20 -1.5 (0.545) cc

-0.9 0 0.3 sub (0.00%) cr
-0.9 10 0.3 sub(0.05%) cr
-0.9 20 0.3 sub (0.10%) cr


% 11.55 18.2 (= raw quant) cl
% 11.55 17.2 (= best neighbor) cl


/font2 /StoneSans-Bold 1.1 gonzofont
font1

10 -2.7 (Amplitude) cc



gsave -5.2 10 translate 90 rotate
0 0 (Unfiltered  THD  2|j-|j22)cc
grestore 

/yinc 1.2 store

24.3 11.5  (Nearby\nquantized\nAmplitude 54\noptions) cc




      } store
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%


/burpwide 29.5 store

/burplebox3 {save /burp1 exch store

xpos ypos translate -1 .2 mt 3.5 yinc mul .4 add pd burpwide pr 3.5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore

} def

/burplebox2 {save /burp1 exch store

xpos ypos translate -1 .2 mt 2.5 yinc mul .4 add pd burpwide pr 2.5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore

} def


/burplebox2.5 {save /burp1 exch store
xpos ypos translate -1 .2 mt 3 yinc mul .4 add pd burpwide pr 3 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def



/burplebox4 {save /burp1 exch store
xpos ypos translate -1 .2 mt 4.5 yinc mul .4 add pd burpwide pr 4.5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def



/burplebox4.5 {save /burp1 exch store
xpos ypos translate    
-1 .2 mt 5 yinc mul .4 add pd burpwide pr 5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def





/burplebox5w {save /burp1 exch store
xpos ypos translate


 -1 .2 mt 5.5 yinc mul .4 add pd burpwide pr 5.5 yinc mul .4 add pu closepath
0.9 setgray fill

true {special5 } if

 burp1 restore
} def



/burpcom {save /burpx exch store  /bht exch store
save /burp1 exch store
xpos ypos translate -1 .2 mt bht yinc mul .4 add pd burpwide pr bht yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore} store

/burpwidew 32 store


/burpcomw {save /burpx exch store  /bht exch store
save /burp1 exch store
xpos 1 sub ypos translate 0 .2 mt bht yinc mul .4 add pd burpwidew pr bht yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore} store



/burplebox3.5 {4 burpcom} store
/burplebox5 {5.5 burpcom} store
/burplebox5.5 {6 burpcom} store
/burplebox6 {6.5 burpcom} store
/burplebox6.5 {7 burpcom} store
/burplebox7 {7.5 burpcom} store
/burplebox7.5 {8 burpcom} store
/burplebox8 {8.5 burpcom} store
/burplebox8.5 {9 burpcom} store
/burplebox9 {9.5 burpcom} store
/burplebox9.5 {10 burpcom} store
/burplebox10 {10.5 burpcom} store
/burplebox10.5 {11 burpcom} store
/burplebox11 {12 burpcom} store
/burplebox12 {12.5 burpcom} store

/burplebox11w {11.5 burpcomw} store

/burplebox12.5 {13 burpcom} store
/burplebox13 {13.5 burpcom} store
/burplebox13.5 {14 burpcom} store
/burplebox14 {14.5 burpcom} store
/burplebox14.5 {15 burpcom} store
/burplebox15{15.5 burpcom} store
/burplebox15.5{16 burpcom} store
/burplebox16 {16.5 burpcom} store
/burplebox16.5 {17 burpcom} store

/burplebox18 {18.5 burpcom} store
/burplebox18.5 {19 burpcom} store

/burplebox21.5 {22 burpcom} store

/burplebox22{22.5 burpcom} store

/burplebox25.5{26 burpcom} store

/burplebox27{27.5 burpcom} store
/burplebox34 {34.5 burpcom} store

/burplebox38.5{39 burpcom} store
/burplebox40{40.5 burpcom} store
/burplebox40.5{41 burpcom} store

/burplebox42.5{43 burpcom} store  % nearly a full page

/burplebox34w{34.5 burpcomw} store
/burplebox34.5w{35 burpcomw} store
/burplebox38w{38.5 burpcomw} store
/burplebox38.5w{39 burpcomw} store
/burplebox40w{40.5 burpcomw} store



/burplebox17 {save /burp1 exch store
xpos ypos translate -1 .2 mt 17.5 yinc mul .4 add pd burpwide pr 17.5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def



/burplebox20 {save /burp1 exch store
xpos ypos translate -1 .2 mt 20.5 yinc mul .4 add pd burpwide pr 20.5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def

/burplebox23 {save /burp1 exch store
xpos ypos translate -1 .2 mt 23.5 yinc mul .4 add pd burpwide pr 23.5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def


/burplebox26.5 {save /burp1 exch store
xpos ypos translate -1 .2 mt 27 yinc mul .4 add pd burpwide pr 27 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def


/burplebox30 {save /burp1 exch store
xpos ypos translate -1 .2 mt 30.5 yinc mul .4 add pd burpwide pr 30.5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def



/burplebox36 {save /burp1 exch store
xpos ypos translate -1 .2 mt 36.5 yinc mul .4 add pd burpwide pr 36.5 yinc mul .4 add pu closepath
0.9 setgray fill burp1 restore
} def

%%%%%%%%%%%  figure 1 routine

  % autopositions on box6

%%%%%%%%%%%%%%%%%%%%%%%%%%%%







%%%%%%%%%%%  TWO PATTERNS   %%%%%%%%%%%%%%

/ivoryrndcolor   [230 230 205 40] store  % random pattern colors [red blue green variance ]
/magentarndcolor [230 100 230 120]store


/makepatternstrings {
[230 210 190 80] buildpixels
magentarndcolor /accentpatstring exch store

ivoryrndcolor buildpixels
makeimagestring /bodypatstring exch store
                    } store




/burppatstrings {
ivoryrndcolor buildpixels
makeimagestring /bodypatstring exch store

magentarndcolor buildpixels
makeimagestring /accentpatstring exch store
                } store

/DeviceRGB setcolorspace                %  pick color model
/hpixels 50 store                       %  size of pattern image
/vpixels 50 store
/issize hpixels vpixels mul store

% makestring converts a stack top array into a string...
 
/makestring {dup length string dup /NullEncode filter     
3 -1 roll {1 index exch write} forall pop} def




% /buildpixels makes three nearby colors given [r b g texture] all 0-255 integers

/buildpixels {aload pop /texture exch store /b0 exch store /g0 exch store /r0 exch store 123 srand

/r1 r0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store
/g1 g0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store
/b1 b0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store

/r2 r0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store
/g2 g0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store
/b2 b0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store

/r3 r0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store
/g3 g0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store
/b3 b0 texture random texture 2 div sub add cvi 
dup 255 ge {pop 255}if  dup 0 lt {pop 0} if store
      } store

% /makeimagestring creates a sting usable for a pattern image

/makeimagestring {  12345 srand         % make repeatable

  /iarray mark issize { r1 g1 b1} repeat ] store  % fill all with color 1

  issize 2 div cvi { iarray  issize               % fill half with color 2              
  random 3 mul cvi  [ r2 g2 b2 ] 
  putinterval} repeat

  issize 2 div cvi { iarray  issize               % fill third with color 3 
  random 3 mul cvi  [ r3 g3 b3 ] 
  putinterval} repeat

  iarray makestring 
                 } store





% /rndimage shows the random string as a patternable image

/bodyrandimage { 

            gsave  5 dup scale

     <<                                      % start image dicationary
            /ImageType 1                     % always one
            /Width hpixels                   % width in pixels
            /Height vpixels                  % height in pixels
            /ImageMatrix [hpixels
                          0 0 
                          vpixels neg
                          0
                          vpixels ]  


            /DataSource bodypatstring        % proc to get string data     
            /BitsPerComponent 8              % color resolution
            /Decode [0 1 0 1 0 1]            % per red book 4.10
            >>

     image                                   % call the image 

grestore
} def




/accentrandimage { 

            gsave  5 dup scale

     <<                                      % start image dicationary
            /ImageType 1                     % always one
            /Width hpixels                   % width in pixels
            /Height vpixels                  % height in pixels
            /ImageMatrix [hpixels
                          0 0 
                          vpixels neg
                          0
                          vpixels ]  


            /DataSource accentpatstring        % proc to get string data     
            /BitsPerComponent 8              % color resolution
            /Decode [0 1 0 1 0 1]            % per red book 4.10
            >>

     image                                   % call the image 

grestore
} def





% using a separate pattern dictionary for each pattern...

/bodypatdict

<< /PatternType 1     % Tiling pattern
/PaintType 1          % Colored
/TilingType 1
/BBox [0 0 50 50]
/XStep 5
/YStep 5
/PaintProc { begin bodyrandimage end} 
>>   store


/accentpatdict

<< /PatternType 1     % Tiling pattern
/PaintType 1          % Colored
/TilingType 1
/BBox [0 0 50 50]
/XStep 5
/YStep 5
/PaintProc { begin accentrandimage end} 
>>   store


/burpbackmain { save /snapbb exch store


save /snapb exch store      % show the body background
bodypatdict 
matrix                  % Identity matrix
makepattern             % Instantiate the pattern
/bodypat exch def
4 0                              % for the actual slide size
12 8

/Pattern setcolorspace
bodypat setcolor rectfill    % Fill rectangle with pattern
snapb restore

4 0 12 8 line1 black rectstroke
 


save /snapy exch store      % show the accent
accentpatdict 
matrix                  % Identity matrix
makepattern             % Instantiate the pattern
/accentpat exch def
18.5 0 12 8
4 copy
/Pattern setcolorspace
accentpat setcolor rectfill    % Fill rectangle with pattern
snapy restore 
 
18.5 0 12 8 line1 black rectstroke

snapbb restore } store


/figure3x {save /snap3 exch store

translate 

% 34 8 showgrid

makepatternstrings

  burppatstrings
 % burpbackstrings
burpbackmain


  snap3 restore } store

%%%%%%%%%%%%%%% end figure3





%%%%%%%%%%%% first special plot


/special1code {


/a01 [ 
  11.98757334830098  % p1 delay
  0.02494857340377088  % p1 width
  11.96309297293453  % p2 delay
  0.04880748072357122  % p2 width
  11.940266741737353  % p3 delay
  0.07053366579209097  % p3 width
  11.920110003436285  % p4 delay
  0.08917718733052737  % p4 width
  11.903448622759931  % p5 delay
  0.10392320715383363  % p5 width
  11.890997400038934  % p6 delay
  0.1141272527930397  % p6 width
  11.883303463712295  % p7 delay
  0.11934332976518647  % p7 width
  5.940346750117669  % quadrant delay
   ] store    
/a10 [ 
  11.870255884662251  % p1 delay
  0.24926326067621396  % p1 width
  11.627261913532986  % p2 delay
  0.48772075225425126  % p2 width
  11.401006709297277  % p3 delay
  0.7050052291468631  % p3 width
  11.201126478014806  % p4 delay
  0.8916211348287959  % p4 width
  11.036121661040383  % p5 delay
  1.0393583630906704  % p5 width
  10.912994009526542  % p6 delay
  1.1416713778561558  % p6 width
  10.836964879593466  % p7 delay
  1.1939991529573461  % p7 width
  5.405629193521989  % quadrant delay
   ] store      




/a20 [ 
  11.730827315951456  % p1 delay
  0.4971341380973975  % p1 width
  11.247686685343746  % p2 delay
  0.9732376712143491  % p2 width
  10.798693242131715  % p3 delay
  1.407947044520391  % p3 width
  10.402477789378082  % p4 delay
  1.78228682672421  % p4 width
  10.075528131993294  % p5 delay
  2.079475909290011  % p5 width
  9.831551570148512  % p6 delay
  2.285806430413743  % p6 width
  9.680871958761386  % p7 delay
  2.391516582063389  % p7 width
  4.8149587039683155  % quadrant delay
   ] store    

/a30 [ 
  11.582072392748948  % p1 delay
  0.7421737945018947  % p1 width
  10.862633911787377  % p2 delay
  1.454218311923288  % p2 width
  10.194732255409651  % p3 delay
  2.106545777255711  % p3 width
  9.605233324537401  % p4 delay
  2.6708278536717955  % p4 width
  9.118304754762583  % p5 delay
  3.1210612368032926  % p5 width
  8.754459346379754  % p6 delay
  3.435090920436508  % p6 width
  8.529472562792705  % p7 delay
  3.5965061939786693  % p7 width
  4.226667363010421  % quadrant delay
   ] store   



/a40 [ 
  11.424050411047465  % p1 delay
  0.9828418379051129  % p1 width
  10.473248533619292  % p2 delay
  1.9280479848577236  % p2 width
  9.590640663430097  % p3 delay
  2.7980351182823426  % p3 width
  8.810545720192863  % p4 delay
  3.555566231331163  % p4 width
  8.164652806450142  % p5 delay
  4.164668715768244  % p5 width
  7.680713770893433  % p6 delay
  4.592711162444033  % p6 width
  7.380758970713202  % p7 delay
  4.813962276129942  % p7 width
  3.6395557969349425  % quadrant delay
   ] store  



/a50 [ 
  11.25647168216318  % p1 delay
  1.2174139856738683  % p1 width
  10.080431345631026  % p2 delay
  2.391612373063623  % p2 width
  8.987846411116894  % p3 delay
  3.4787553647023585  % p3 width
  8.01966536065963  % p4 delay
  4.433803253978574  % p4 width
  7.214999377113287  % p5 delay
  5.210430981795014  % p5 width
  6.609527274825396  % p6 delay
  5.762766698554145  % p6 width
  6.232831441964791  % p7 delay
  6.050997667516469  % p7 width
  3.0524467812417413  % quadrant delay
   ] store    

/a53 [ 
  11.204229246524123  % p1 delay
  1.2863028469519246  % p1 width
  9.962015674530373  % p2 delay
  2.528117843985992  % p2 width
  8.807469507353026  % p3 delay
  3.680145761308111  % p3 width
  7.783358489290968  % p4 delay
  4.695379940110421  % p4 width
  6.930993065963889  % p5 delay
  5.5244810879620445  % p5 width
  6.288586696196958  % p6 delay
  6.117000009644471  % p6 width
  5.888323429144677  % p7 delay
  6.427466502066167  % p7 width
  2.876129898966852  % quadrant delay
   ] store   

/a60 [ 
  11.078495962518918  % p1 delay
  1.4438411449625086  % p1 width
  9.684772040454877  % p2 delay
  2.840939034126027  % p2 width
  8.38774096372643  % p3 delay
  4.143446978421139  % p3 width
  7.234097294409224  % p4 delay
  5.300789342760972  % p4 width
  6.270187484640822  % p5 delay
  6.2573120579578045  % p5 width
  5.540415121300725  % p6 delay
  6.9509377594411745  % p6 width
  5.083782352079723  % p7 delay
  7.31917029639942  % p7 width
  2.4640721668002356  % quadrant delay
   ] store   

/a70 [ 
  10.888278735987464  % p1 delay
  1.6594599780251222  % p1 width
  9.286332677429444  % p2 delay
  3.270497867115676  % p2 width
  7.791694139706859  % p3 delay
  4.783840563470704  % p3 width
  6.455843532587245  % p4 delay
  6.147367771354908  % p4 width
  5.331869368850619  % p5 delay
  7.300805550943892  % p5 width
  4.473484564450537  % p6 delay
  8.165497800155037  % p6 width
  3.9315873351224724  % p7 delay
  8.640550109600042  % p7 width
  1.8728900051999772  % quadrant delay
   ] store    

/a80 [ 
  10.681702836852158  % p1 delay
  1.8602538062958054  % p1 width
  8.88398269670934  % p2 delay
  3.6714981402848607  % p2 width
  7.200946234572324  % p3 delay
  5.385275030570618  % p3 width
  5.687867904890517  % p4 delay
  6.9536645196485765  % p4 width
  4.403487202517624  % p5 delay
  8.324602905316311  % p5 width
  3.4104122823979494  % p6 delay
  9.417450259887687  % p6 width
  2.774084338047487  % p7 delay
  10.068107274017336  % p7 width
  1.2766645679914034  % quadrant delay
   ] store    




/a90 [ 
  10.447373907519674  % p1 delay
  2.038123534960869  % p1 width
  8.472609797490058  % p2 delay
  4.0258541900581655  % p2 width
  6.615791805649657  % p3 delay
  5.91534811864263  % p3 width
  4.935247854465985  % p4 delay
  7.666864442425741  % p4 width
  3.4934960493166684  % p5 delay
  9.260584158941057  % p5 width
  2.358772151850779  % p6 delay
  10.696787617357046  % p6 width
  1.6101420251774101  % p7 delay
  11.792019752288254  % p7 width
  0.6709845938560051  % quadrant delay
   ] store  

/a95 [ 
  10.307313139895288  % p1 delay
  2.111222840209404  % p1 width
  8.256837177571334  % p2 delay
  4.169598534647832  % p2 width
  6.323664766096179  % p3 delay
  6.124919743159786  % p3 width
  4.567759372280754  % p4 delay
  7.93736307227887  % p4 width
  3.052826978493542  % p5 delay
  9.604367560734132  % p5 width
  1.8471062124079367  % p6 delay
  11.250122874450298  % p6 width
  1.0294512420668695  % p7 delay
  13.056647531415762  % p7 width
  0.36079895429200803  % quadrant delay
   ] store    

/a96 [ 
  10.275153279505902  % p1 delay
  2.1233556309882146  % p1 width
  8.2115482104066  % p2 delay
  4.1930336081984905  % p2 width
  6.264803529331843  % p3 delay
  6.157765833137692  % p3 width
  4.495281237426013  % p4 delay
  7.976346292010689  % p4 width
  2.9669207635656676  % p5 delay
  9.646432050857882  % p5 width
  1.7477032094150075  % p6 delay
  11.320166050312238  % p6 width
  0.9148247359680965  % p7 delay
  13.409077457751365  % p7 width
  0.2975881111242984  % quadrant delay
   ] store  

/a97 [ 
  10.240457024341477  % p1 delay
  2.134077471317074  % p1 width
  8.164867772841955  % p2 delay
  4.213452442998779  % p2 width
  6.205523779081837  % p3 delay
  6.185452328837567  % p3 width
  4.423234605472523  % p4 delay
  8.006618220218015  % p4 width
  2.8821971876470442  % p5 delay
  9.672069264487952  % p5 width
  1.6500883956263123  % p6 delay
  11.355113654260407  % p6 width
  0.8016574526230471  % p7 delay
  13.831443290493283  % p7 width
  0.23374710975272705  % quadrant delay
   ] store  



/a98 [ 
  10.201940773921007  % p1 delay
  2.1427535621580062  % p1 width
  8.1160304405589  % p2 delay
  4.229503836724113  % p2 width
  6.145502859365315  % p3 delay
  6.205687104545131  % p3 width
  4.351688442224891  % p4 delay
  8.024338941005154  % p4 width
  2.7990882078968866  % p5 delay
  9.67371438320096  % p5 width
  1.555079224439453  % p6 delay
  11.330237907918856  % p6 width
  0.69116413541866  % p7 delay
  14.364207461243552  % p7 width
  0.169062719379113  % quadrant delay
   ] store 
   
/a99 [ 
  10.156863627959598  % p1 delay
  2.1480428640811766  % p1 width
  8.06339164056924  % p2 delay
  4.238341714779558  % p2 width
  6.0840316757476  % p3 delay
  6.213675963725404  % p3 width
  4.280754974385665  % p4 delay
  8.02161284750413  % p4 width
  2.718452103604484  % p5 delay
  9.636460505287125  % p5 width
  1.4642999953711353  % p6 delay
  11.197329413972475  % p6 width
  0.5860923925256714  % p7 delay
  15.087472750976061  % p7 width
  0.10317752951067405  % quadrant delay
   ] store  

/a100 [ 
  10.097664622565073  % p1 delay
  2.146284244870163  % p1 width
  8.002396397096308  % p2 delay
  4.23222417093767  % p2 width
  6.019120165289753  % p3 delay
  6.1964902984829  % p3 width
  4.21068681625524  % p4 delay
  7.977592739007122  % p4 width
  2.6425485752095525  % p5 delay
  9.523271990574841  % p5 width
  1.3819874635530311  % p6 delay
  10.855567612314722  % p6 width
  0.4941631819604595  % p7 delay
  16.184573443763554  % p7 width
  0.03542827811961047  % quadrant delay
   ] store   


/range 
[ (01) (10) (20) (30) (40) (50) (53) (60) (70) (80) (90) (95)(96)(97) (98)(99)(100) ]
store


/procit1 {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 13 get 2.5 mul lineto
} def


/procit2 {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 11 get 2.5 mul lineto
} def



/procit3 {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 9 get 2.5 mul lineto
} def


/procit4 {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 7 get 2.5 mul lineto
} def


/procit5 {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 5 get 2.5 mul lineto
} def

/procit6 {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 3 get 2.5 mul lineto
} def

/procit7 {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 1 get 2.5 mul lineto
} def



/procit1d {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 12 get 2.5 mul lineto
} def


/procit2d {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 10 get 2.5 mul lineto
} def



/procit3d {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 8 get 2.5 mul lineto
} def


/procit4d {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 6 get 2.5 mul lineto
} def


/procit5d {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 4 get 2.5 mul lineto
} def

/procit6d {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 2 get 2.5 mul lineto
} def

/procit7d {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 0 get 2.5 mul lineto
} def


/procit8d {  dup cvi  /curval exch store  (a)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 14 get 2.5 mul lineto
} def




% 40 100 10 setgrid
40 40 showgrid
line1 


0 30 mt range {procit7d} forall
40 0 lineto 0 0 lineto closepath
0 settint 0.8 setgray fill 

0 30 mt range {procit6d} forall
40 0 lineto 0 0 lineto closepath
0.1 settint 0.8 setgray fill 

0 30 mt range {procit5d} forall
40 0 lineto 0 0 lineto closepath
0.2 settint 0.8 setgray fill

0 30 mt range {procit4d} forall
40 0 lineto 0 0 lineto closepath
0.27 settint 0.8 setgray fill

0 30 mt range {procit3d} forall
40 0 lineto 0 0 lineto closepath
0.43 settint 0.8 setgray fill



0 30 mt range {procit2d} forall
40 0 lineto 0 0 lineto closepath
0.5 settint 0.8 setgray fill

0 30 mt range {procit1d} forall
40 0 lineto 0 0 lineto closepath
0.6 settint 0.8 setgray fill



0 15 mt range {procit8d} forall
40 0 lineto 0 0 lineto closepath
0.7 settint 0.8 setgray fill 







0 0 mt range {procit1} forall
40 0 lineto closepath
0.6 settint 0.6 setgray fill 

0 0 mt range {procit2} forall
40 0 lineto closepath
0.5 settint 0.6 setgray fill

0 0 mt range {procit3} forall
40 0 lineto closepath
0.43 settint 0.6 setgray fill 

0 0 mt range {procit4} forall
40 0 lineto closepath
0.27 settint 0.6 setgray fill 

0 0 mt range {procit5} forall
40 0 lineto closepath
0.2 settint 0.6 setgray fill 


0 0 mt range {procit6} forall
40 0 lineto closepath
0.1 settint 0.6 setgray fill 


0 0 mt range {procit7} forall
40 0 lineto closepath
0 settint 0.6 setgray fill 







black

0 0 mt 
range {procit1} forall
stroke

0 0 mt 
range {procit2} forall
stroke

0 0 mt 
range {procit3} forall
 stroke 

0 0 mt 
range {procit4} forall
 stroke 

0 0 mt 
range {procit5} forall
 stroke 

0 0 mt 
range {procit6} forall
 stroke 

0 0 mt 
range {procit7} forall
 stroke 






0 30 mt 
range {procit1d} forall

0 30 mt 
range {procit2d} forall

0 30 mt 
range {procit3d} forall
 stroke 

0 30 mt 
range {procit4d} forall
 stroke 

0 30 mt 
range {procit5d} forall
 stroke 

0 30 mt 
range {procit6d} forall
 stroke 

0 30 mt 
range {procit7d} forall
 stroke 

0 15 mt 
range {procit8d} forall
 stroke 


0.3 0.3 0.3 setrgbcolor line3 1 setlinecap 1 setlinejoin

0 0 mt 40 u 40 r 40 d 40 l
[{ 0 0 mt 0.4 l} 10 5 ] yrpt
[{ 40 0 mt 0.4 r} 10 5 ] yrpt
[{ 0 0 mt 0.4 d} 10 5 ] xrpt
[{ 0 40 mt 0.4 u} 10 5 ] xrpt

/cstretch 0.02 store
/sstretch 0 store
/font0 /StoneSans-Bold 1.5 gonzofont
/font1 /StoneSans-Bold 1.2 gonzofont
/font2 /StoneSans-Bold 1 gonzofont
/font: /StoneSans-Bold [0.6 0 0 0.6 0 0.6] gonzofont
/font; /StoneSans-Bold [1.5 0 0 1.5 0 0.2] gonzofont
/yinc 2 store
font0

20 43.7 (BEST  EFFICIENCY  N |;=|0 28\nMAGIC  SINEWAVE) cc





font1
/yinc 1.5 store

0 -2.2 (0.0) cc
20 -2.2 (0.5) cc
40 -2.2 (1.0)cc

20 -4.3 (AMPLITUDE) cc

41 -0.5 (0) cl
41 9.5 (4) cl
41 19.5 (8) cl
41 29.5 (12) cl
41 39.5 (16) cl

45.5 21 (DELAY\nTIME IN\nDEGREES) cc

font2
26.5 1.2 (PULSE  WIDTHS) cc

1.5 17 (PULSE  DELAYS) cl


2.6 32.6 (0|:o) cc
27.4 32.6 (90|:o) cc


% generate actual magic sinewave

/makemagic {gsave translate 0.25 dup scale line3

/ht 17 store
/dht 6 store

0 setlinecap 0 setlinejoin
dht setlinewidth

0 0 mt 
a50 0 get pr
0 settint 0.8 setgray stroke

0 a50 0 get add a50 1 get add 0 mt
a50 2 get pr
0.1 settint 0.8 setgray stroke


0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add     0 mt
a50 4 get pr
0.2 settint 0.8 setgray stroke

0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add
     0 mt
a50 6 get pr
0.3 settint 0.8 setgray stroke

0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add a50 6 get add a50 7 get add
     0 mt
a50 8 get pr
0.4 settint 0.8 setgray stroke


0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add a50 6 get add a50 7 get add
a50 8 get add a50 9 get add
     0 mt
a50 10 get pr
0.5 settint 0.8 setgray stroke


0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add a50 6 get add a50 7 get add
a50 8 get add a50 9 get add a50 10 get add a50 11 get add
     0 mt
a50 12 get pr
0.6 settint 0.8 setgray stroke

0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add a50 6 get add a50 7 get add
a50 8 get add a50 9 get add a50 10 get add a50 11 get add
a50 12 get add a50 13 get add
     0 mt
a50 14 get pr
0.7 settint 0.8 setgray stroke

%% pulses

a50 0 get 0 mt
ht pu
0 a50 1 get pr
ht pd
closepath
0 settint 0.6 setgray fill


a50 0 get a50 1 get add a50 2 get add 
0 mt ht pu
0 a50 3 get pr
ht pd
closepath
0.1 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
0 mt ht pu
0 a50 5 get pr
ht pd
closepath
0.2 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
a50 5 get add a50 6 get add
0 mt ht pu
0 a50 7 get pr
ht pd
closepath
0.3 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
a50 5 get add a50 6 get add a50 7 get add a50 8 get add
0 mt ht pu
0 a50 9 get pr
ht pd
closepath
0.4 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
a50 5 get add a50 6 get add a50 7 get add a50 8 get add
a50 9 get add a50 10 get add
0 mt ht pu
0 a50 11 get pr
ht pd
closepath
0.5 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
a50 5 get add a50 6 get add a50 7 get add a50 8 get add
a50 9 get add a50 10 get add a50 11 get add a50 12 get add
0 mt ht pu
0 a50 13 get pr
ht pd
closepath
0.6 settint 0.6 setgray fill





1 setlinecap 1 setlinejoin
black

0 0 mt
a50 0 get 0 rlineto
0 ht pu
a50 1 get 0 rlineto
0 ht pd

a50 2 get 0 rlineto
0 ht pu
a50 3 get 0 rlineto
0 ht pd

a50 4 get 0 rlineto
0 ht pu
a50 5 get 0 rlineto
0 ht pd

a50 6 get 0 rlineto
0 ht pu
a50 7 get 0 rlineto
0 ht pd

a50 8 get 0 rlineto
0 ht pu
a50 9 get 0 rlineto
0 ht pd

a50 10 get 0 rlineto
0 ht pu
a50 11 get 0 rlineto
0 ht pd


a50 12 get 0 rlineto
0 ht pu
a50 13 get 0 rlineto
0 ht pd

a50 14 get 0 rlineto


0.45 setlinewidth
stroke









grestore} def


3.5 33 makemagic




} store   % end special1code definition







%%%%%%%%%%% special2 code

/special2code {


/ad01 [ 
  7.434338157133027  % delay a=60-p5e
  0.11880195485247924  % delay b=p5e-p5s
  0.019577960879085587  % delay c=p1e-p1s
  14.855161666700834  % delay d=p2s-p1e
  0.021983040440492374  % delay e=p2e-p2s
  0.0911673899925809  % delay f=p3s-p2e
  0.0353778304366692  % delay g=p3e-p3s
  7.4235919995647634  % delay h=30-p3e
   ] store  
 
/ad10 [ 
  6.840486668588909  % delay a=60-p5e
  1.1877031146444991  % delay b=p5e-p5s
  0.19606479817654332  % delay c=p1e-p1s
  13.542825252098737  % delay d=p2s-p1e
  0.1524725715290529  % delay e=p2e-p2s
  0.9104569599226266  % delay f=p3s-p2e
  0.4224088615298953  % delay g=p3e-p3s
  6.7475817735097365  % delay h=30-p3e
   ] store   



/ad20 [ 
  6.179615738852249  % delay a=60-p5e
  2.368314508230462  % delay b=p5e-p5s
  0.39486570406405263  % delay c=p1e-p1s
  12.090328683781834  % delay d=p2s-p1e
  0.2773208755122525  % delay e=p2e-p2s
  1.8107046591154443  % delay f=p3s-p2e
  0.8802494355140809  % delay g=p3e-p3s
  5.998600394929625  % delay h=30-p3e
   ] store   

/ad30 [ 
  5.51798715656065  % delay a=60-p5e
  3.537987411554724  % delay b=p5e-p5s
  0.5996610353231375  % delay c=p1e-p1s
  10.6414917563349  % delay d=p2s-p1e
  0.378916570008613  % delay e=p2e-p2s
  2.6949373104326213  % delay f=p3s-p2e
  1.3768763200109077  % delay g=p3e-p3s
  5.252142439774445  % delay h=30-p3e
   ] store    



/ad40 [ 
  4.8560795807034935  % delay a=60-p5e
  4.692317283738298  % delay b=p5e-p5s
  0.8138114048538583  % delay c=p1e-p1s
  9.195452323744191  % delay d=p2s-p1e
  0.46036801366636126  % delay e=p2e-p2s
  3.5594981265840886  % delay f=p3s-p2e
  1.9150363136688284  % delay g=p3e-p3s
  4.50743695304088  % delay h=30-p3e
   ] store    






/ad50 [ 
  4.194298075500072  % delay a=60-p5e
  5.825866502969745  % delay b=p5e-p5s
  1.0408488460292488  % delay c=p1e-p1s
  7.751463747608284  % delay d=p2s-p1e
  0.5238895562340744  % delay e=p2e-p2s
  4.403346953313516  % delay f=p3s-p2e
  2.496487356236706  % delay g=p3e-p3s
  3.7637989621083534  % delay h=30-p3e
   ] store    

/ad53 [ 
  3.995843046736013  % delay a=60-p5e
  6.160868086216446  % delay b=p5e-p5s
  1.112006440311525  % delay c=p1e-p1s
  7.318567062952312  % delay d=p2s-p1e
  0.5397256759732585  % delay e=p2e-p2s
  4.652707315620958  % delay f=p3s-p2e
  2.679463155973238  % delay g=p3e-p3s
  3.5408192162162493  % delay h=30-p3e
   ] store   

/ad60 [ 
  3.5330039078836606  % delay a=60-p5e
  6.9314513603008905  % delay b=p5e-p5s
  1.2842465239317846  % delay c=p1e-p1s
  6.308872401421397  % delay d=p2s-p1e
  0.5713975364200223  % delay e=p2e-p2s
  5.228837780084575  % delay f=p3s-p2e
  3.1216051264200075  % delay g=p3e-p3s
  3.0205853635376627  % delay h=30-p3e
   ] store   

 
/ad70 [ 
  2.8725257224432425  % delay a=60-p5e
  7.998916501222098  % delay b=p5e-p5s
  1.5460427838912807  % delay c=p1e-p1s
  4.8671218102361  % delay d=p2s-p1e
  0.6062046544537196  % delay e=p2e-p2s
  6.042997615507133  % delay f=p3s-p2e
  3.789041064453741  % delay g=p3e-p3s
  2.2771498477926854  % delay h=30-p3e
   ] store   

/ad80 [ 
  2.2131268407607223  % delay a=60-p5e
  9.012727944067371  % delay b=p5e-p5s
  1.8200962344110607  % delay c=p1e-p1s
  3.4258327180993433  % delay d=p2s-p1e
  0.6400219482894229  % delay e=p2e-p2s
  6.85987852874419  % delay f=p3s-p2e
  4.495547368289273  % delay g=p3e-p3s
  1.532768417338616  % delay h=30-p3e
   ] store   




/ad90 [ 
  1.55474755544018  % delay a=60-p5e
  9.946227643338275  % delay b=p5e-p5s
  2.048752785780998  % delay c=p1e-p1s
  1.9853102905593687  % delay d=p2s-p1e
  0.736140589142309  % delay e=p2e-p2s
  7.705915111477708  % delay f=p3s-p2e
  5.236535369142075  % delay g=p3e-p3s
  0.7863706551190859  % delay h=30-p3e
   ] store    


/ad95 [ 
  1.225355348586767  % delay a=60-p5e
  10.367111550363887  % delay b=p5e-p5s
  2.0303138224619843  % delay c=p1e-p1s
  1.2665437513423114  % delay d=p2s-p1e
  0.9241283097125574  % delay e=p2e-p2s
  8.155346335065047  % delay f=p3s-p2e
  5.619630049711802  % delay g=p3e-p3s
  0.4115708327556433  % delay h=30-p3e
   ] store 
  
/ad98 [ 
  1.026684367555248  % delay a=60-p5e
  10.596415552349142  % delay b=p5e-p5s
  1.807508982542501  % delay c=p1e-p1s
  0.837605401539733  % delay d=p2s-p1e
  1.2493523058395936  % delay e=p2e-p2s
  8.441202830348274  % delay f=p3s-p2e
  5.855882255842914  % delay g=p3e-p3s
  0.18534830398259316  % delay h=30-p3e
   ] store     


/ad100 [ 
  0.8921862350266565  % delay a=60-p5e
  10.732271751681054  % delay b=p5e-p5s
  1.3169014782635031  % delay c=p1e-p1s
  0.5554591355065241  % delay d=p2s-p1e
  1.8052854865738012  % delay e=p2e-p2s
  8.644568525896716  % delay f=p3s-p2e
  6.020358566571353  % delay g=p3e-p3s
  0.032968820480391514  % delay h=30-p3e
   ] store    


/range 
[ (01) (10) (20) (30) (40) (50) (53) (60) (70) (80) (90) (95) (98)(100) ]
store


/procit1 {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 1 get 2.5 mul lineto
} def


/procit2 {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 2 get 2.5 mul lineto
} def



/procit3 {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 4 get 2.5 mul lineto
} def


/procit4 {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 5 get 2.5 mul lineto
} def


/procit5 {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 6 get 2.5 mul lineto
} def

/procit6 {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 3 get 2.5 mul lineto
} def

/procit7 {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 1 get 2.5 mul lineto
} def



/procit1d {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 0 get 2.5 mul lineto
} def


/procit2d {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 3 get 2.5 mul lineto
} def



/procit3d {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 7 get 2.5 mul lineto
} def


/procit4d {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 6 get 2.5 mul lineto
} def


/procit5d {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 4 get 2.5 mul lineto
} def

/procit6d {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 2 get 2.5 mul lineto
} def

/procit7d {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 0 get 2.5 mul lineto
} def


/procit8d {  dup cvi  /curval exch store  (ad)exch  mergestr cvn /curdat exch store

curval 2.5 div   curdat cvx exec 14 get 2.5 mul lineto
} def




% 40 100 10 setgrid
40 40 showgrid
line1 

% delays

0 37.5 mt range {procit2d} forall
40 0 lineto 0 0 lineto closepath
0.15 settint 0.8 setgray fill

0 18.75 mt range {procit1d} forall
40 0 lineto 0 0 lineto closepath
0 settint 0.8 setgray fill 


0 18.75 mt range {procit3d} forall
40 0 lineto 0 0 lineto closepath
0.3 settint 0.8 setgray fill

% pulses

0 0 mt range {procit1} forall
40 0 lineto 0 0 lineto closepath
0.0 settint 0.6 setgray fill

0 0 mt range {procit4} forall
40 0 lineto 0 0 lineto closepath
0.5 settint 0.6 setgray fill

0 0 mt range {procit5} forall
40 0 lineto 0 0 lineto closepath
0.6 settint 0.6 setgray fill

0 0 mt range {procit2} forall
40 0 lineto 0 0 lineto closepath
0.15 settint 0.6 setgray fill

0 0 mt range {procit3} forall
40 0 lineto 0 0 lineto closepath
0.3 settint 0.6 setgray fill


black line1

0 18.75 mt 
range {procit1d} forall stroke

0 37.5 mt 
range {procit2d} forall stroke

0 18.75 mt 
range {procit3d} forall stroke
 stroke


% width outlines

0 0 mt 
range {procit1} forall stroke

0 0 mt 
range {procit2} forall stroke

0 0 mt 
range {procit3} forall stroke

0 0 mt 
range {procit4} forall stroke

0 0 mt 
range {procit5} forall stroke





0.3 0.3 0.3 setrgbcolor line3 1 setlinecap 1 setlinejoin

0 0 mt 40 u 40 r 40 d 40 l
[{ 0 0 mt 0.4 l} 10 5 ] yrpt
[{ 40 0 mt 0.4 r} 10 5 ] yrpt
[{ 0 0 mt 0.4 d} 10 5 ] xrpt
[{ 0 40 mt 0.4 u} 10 5 ] xrpt

/cstretch 0.02 store
/sstretch 0 store
/font0 /StoneSans-Bold 1.5 gonzofont
/font1 /StoneSans-Bold 1.2 gonzofont
/font2 /StoneSans-Bold 1 gonzofont
/font: /StoneSans-Bold [0.6 0 0 0.6 0 0.6] gonzofont
/font; /StoneSans-Bold [1.5 0 0 1.5 0 0.2] gonzofont
/yinc 2 store
font0

20 45 (DELTA FRIENDLY  N |;=|0 28\nMAGIC  SINEWAVE) cc





font1
/yinc 1.5 store

0 -2.2 (0.0) cc
20 -2.2 (0.5) cc
40 -2.2 (1.0)cc

20 -4.3 (AMPLITUDE) cc

41 -0.5 (0) cl
41 9.5 (4) cl
41 19.5 (8) cl
41 29.5 (12) cl
41 39.5 (16) cl

46.5 21 (DELAY\nTIME IN\nDEGREES) cc

font2
23.5 4.7 (PULSE  WIDTHS) cc

1.5 22.5 (PULSE  DELAYS) cl




% generate actual magic sinewave

/makemagicold {gsave translate 0.25 dup scale line3

/ht 12 store
/dht 6 store

0 setlinecap 0 setlinejoin
dht setlinewidth

0 0 mt 
a50 0 get pr
0 settint 0.8 setgray stroke

0 a50 0 get add a50 1 get add 0 mt
a50 2 get pr
0.1 settint 0.8 setgray stroke


0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add     0 mt
a50 4 get pr
0.2 settint 0.8 setgray stroke

0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add
     0 mt
a50 6 get pr
0.3 settint 0.8 setgray stroke

0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add a50 6 get add a50 7 get add
     0 mt
a50 8 get pr
0.4 settint 0.8 setgray stroke


0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add a50 6 get add a50 7 get add
a50 8 get add a50 9 get add
     0 mt
a50 10 get pr
0.5 settint 0.8 setgray stroke


0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add a50 6 get add a50 7 get add
a50 8 get add a50 9 get add a50 10 get add a50 11 get add
     0 mt
a50 12 get pr
0.6 settint 0.8 setgray stroke

0 a50 0 get add a50 1 get add a50 2 get add a50 3 get add
a50 4 get add a50 5 get add a50 6 get add a50 7 get add
a50 8 get add a50 9 get add a50 10 get add a50 11 get add
a50 12 get add a50 13 get add
     0 mt
a50 14 get pr
0.7 settint 0.8 setgray stroke

%% pulses

a50 0 get 0 mt
ht pu
0 a50 1 get pr
ht pd
closepath
0 settint 0.6 setgray fill


a50 0 get a50 1 get add a50 2 get add 
0 mt ht pu
0 a50 3 get pr
ht pd
closepath
0.1 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
0 mt ht pu
0 a50 5 get pr
ht pd
closepath
0.2 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
a50 5 get add a50 6 get add
0 mt ht pu
0 a50 7 get pr
ht pd
closepath
0.3 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
a50 5 get add a50 6 get add a50 7 get add a50 8 get add
0 mt ht pu
0 a50 9 get pr
ht pd
closepath
0.4 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
a50 5 get add a50 6 get add a50 7 get add a50 8 get add
a50 9 get add a50 10 get add
0 mt ht pu
0 a50 11 get pr
ht pd
closepath
0.5 settint 0.6 setgray fill

a50 0 get a50 1 get add a50 2 get add a50 3 get add a50 4 get add
a50 5 get add a50 6 get add a50 7 get add a50 8 get add
a50 9 get add a50 10 get add a50 11 get add a50 12 get add
0 mt ht pu
0 a50 13 get pr
ht pd
closepath
0.6 settint 0.6 setgray fill





1 setlinecap 1 setlinejoin
black

0 0 mt
a50 0 get 0 rlineto
0 ht pu
a50 1 get 0 rlineto
0 ht pd

a50 2 get 0 rlineto
0 ht pu
a50 3 get 0 rlineto
0 ht pd

a50 4 get 0 rlineto
0 ht pu
a50 5 get 0 rlineto
0 ht pd

a50 6 get 0 rlineto
0 ht pu
a50 7 get 0 rlineto
0 ht pd

a50 8 get 0 rlineto
0 ht pu
a50 9 get 0 rlineto
0 ht pd

a50 10 get 0 rlineto
0 ht pu
a50 11 get 0 rlineto
0 ht pd


a50 12 get 0 rlineto
0 ht pu
a50 13 get 0 rlineto
0 ht pd

a50 14 get 0 rlineto


0.45 setlinewidth
stroke









grestore} def


/makemagic {gsave translate 0.8 dup scale line3

/ht 3 store
/dht 1.5 store

0 setlinecap 0 setlinejoin
dht setlinewidth

0 0 mt 
ad70 0 get pr
0 settint 0.8 setgray stroke


ad70 0 get ad70 1 get add ad70 2 get add  
0 mt
ad70 3 get pr
0.15 settint 0.8 setgray stroke


ad70 0 get ad70 1 get add ad70 2 get add  
ad70 3 get add ad70 4 get add ad70 5 get add ad70 6 get add
0 mt
ad70 7 get pr
0.3 settint 0.8 setgray stroke

% pulses


ad70 0 get 0 mt
ht 2 mul pu
ad70 1 get pr
ht 2 mul pd
closepath
0 settint 0.6 setgray fill



ad70 0 get ad70 1 get add 0 mt
ht 2 mul pu
ad70 2 get pr
ht 2 mul pd
closepath
0.15 settint 0.6 setgray fill

ad70 0 get ad70 1 get add ad70 2 get add  ad70 3 get add              0 mt
ht 2 mul pu
ad70 4 get pr
ht 2 mul pd
closepath
0.30 settint 0.6 setgray fill

ad70 0 get ad70 1 get add ad70 2 get add  ad70 3 get add  ad70 4 get add            0 mt
ht 2 mul pu
ad70 5 get pr
ht 2 mul pd
closepath
0.5 settint 0.6 setgray fill

ad70 0 get ad70 1 get add ad70 2 get add  ad70 3 get add  ad70 4 get add
ad70 5 get add            0 mt
ht 2 mul pu
ad70 6 get pr
ht 2 mul pd
closepath
0.6 settint 0.6 setgray fill





% outlines

black line1
1 setlinecap 1 setlinejoin


0 0 mt
ad70 0 get pr
ht pu
ad70 1 get pr
ht pd
ht pu
ad70 2 get pr
ht pd

ad70 3 get pr 
ht pu
ad70 4 get pr
ht pd
ht pu
ad70 5 get pr
ht pd
ht pu
ad70 6 get pr
ht pd

ad70 7 get pr


stroke




0 0 mt
ad70 0 get pr
ht 2 mul  pu
ad70 1 get ad70 2 get add pr
ht 2 mul pd

ad70 3 get pr
ht 2 mul pu

ad70 4 get ad70 5 get add ad70 6 get add pr
ht 2 mul pd



stroke






% p3 poker

17.8 -0.45 mt 1.65 -2.5 rlineto black line1 stroke

11.5 -0.45 mt -1.65 -2.5 rlineto black line1 stroke



grestore } def






 12 31 makemagic

font2
11 30.5  (0|:o) cc
37.5 30.5   (30|:o) cc
28.5 28.3 (p2) cc
18.9 28.3 (p1) cc


18 31.8 (p5) cc
28.8 31.8 (p4) cc
32.7 31.8 (p3) cc

18 34.2 (p6) cc
30.2 34.2 (p7) cc

} store  % end special 2 def

% ----------



%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%


 % //// REVISED DIPDRAW PROC /////
electronics begin       
% dipdraw - draws a dip integrated circuit.  (old code to be improved)

% Enter with currentpoint set to pin 1 and scale
% set so that 1.0 = distance between pins.  Then
% do a numpins-(name)-(hipins)-(lopins) dipdraw
% Pin callouts preceeded by / will be complemented.
    
% main dipdraw entry:
/dipdraw { save /dipsnap exch def /hipins exch def /lopins
exch def /chipname exch def /numpins exch def

mark 0 0 0 0 0 0 0 0 0 0 0 0 % temp patch

/howlong
{numpins 2 div cvi 1 add} def /howhigh {4 numpins 36 ge
{1 add} if} def /stub {howhigh 1.4 sub 2 div} def

% internal service subs start here:

/pinproc {numpins 2 div cvi{newpath 0 cpos 0.37 0 360 arc
gsave 1 setgray fill grestore 0.067 setlinewidth stroke 
pin# 5 string cvs dup stringwidth pop 2 div neg cpos
0.2 sub moveto show 1 0 translate /pin# pin# dir add
def} repeat } def

/stretchprint { dup stringwidth pop 2 div neg exch length
1 sub stretch mul 2 div sub  0 moveto callout (/)
anchorsearch true eq {currentpoint exch stretch add exch
moveto pop dup /callout exch def stringwidth
pop callout length 1 sub stretch mul add /barwide exch def
0.033 setlinewidth gsave currentpoint 0.55 add moveto
barwide 0 rlineto stroke grestore} if stretch 0 callout
ashow pop} def

/pincallouts{0 vpos translate {workstring ( ) search true
eq {/callout exch def pop /workstring exch def callout
stretchprint 1 0 translate}{dup /callout exch def
stretchprint exit } ifelse}loop} def

% actual dipdraw process starts here:

% ........ the outline:

gsave 1 setlinecap 1 setlinejoin
currentpoint translate


newpath -1 howhigh 2 div 0.7 -90 90  arc 0 stub
rlineto howlong 0 rlineto 0 howhigh neg rlineto howlong
neg 0 rlineto closepath 

gsave grayshade setgray fill grestore
  grayshade dup 1 ne {0.33}{0} ifelse setgray 
0.36 setlinewidth stroke   


 newpath -.55 .45 0.15 0 360
arc fill 
black
% ........ pin circles and numbers:

/Helvetica-Bold findfont [0.4 0 0 0.55 0 0] makefont
setfont gsave /pin# 1 def  /dir 1 def /cpos 0 def pinproc
grestore gsave /pin# numpins def  /dir -1 def /cpos howhigh
def pinproc grestore


%  pin callouts:

/Helvetica findfont [0.35 0 0 0.6 0 0] makefont setfont
/stretch 0.033 def gsave /workstring hipins def /vpos
0.6 def  pincallouts grestore gsave /workstring
lopins def /vpos howhigh 1.05 sub def pincallouts
grestore

%  device number:
grayshade 1 ne {0.33}{0} ifelse setgray
/Helvetica-Bold findfont [1.4 0 0 1 0 0] makefont setfont
/stretch 0.05 def gsave numpins 2 div 1 sub 2 div howhigh
2 div 0.33 sub translate chipname dup /callout exch def
stretchprint grestore
black
%  end cleanup:

grestore grestore
cleartomark dipsnap restore} def
end  % get out of electronics? 

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%











/special1 {save /s1snap exch store  4.5 2.5 translate 
0.8 dup scale special1code s1snap restore} store


/special2 {save /s1snap exch store  4.5 17 translate 
0.8 dup scale special2code s1snap restore} store



/special5 {gsave 4 -5.85 translate 
         line1  black
         0.3 0 mt 0.3 l 5.2 u 0.3 r
         13.2 0 mt  0.3 r 5.2 u 0.3 l
         15.3 0 mt 0.3 l 5.2 u 0.3 r
         18.3 0 mt 0.3 r 5.2 u 0.3 l grestore
             } store

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/xkernoff {/kern kernsave store} def

/pagenum 1 store

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black  beige 0.35 setgray 
21 -2.5 (|3\320|j|j) ggnum 10 string cvs mergestr (|j.|j) mergestr
pagenum 10 string cvs mergestr (|j|j\320) mergestr cc
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setpagefonts

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/su {surl font6} store
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/tabs [7 20] store

/overstrikeht 0.52 store

% /font7 /helvetica [0.7 0 0 0.7 0 0.5] gonzofont
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20 47.3 0.7  add  % 1 sub  
(Magic |j|jSinewave |j|jSourcecode:)cc

 20 45.3 0.7  add  %1 sub  
 (Some |j|jPIC |j|jProgramming |j|jGuidelines) cc

black
font2
textleft 43  0.3 add % this one only  need |h below 
(|/aqua |/staytint1 |3Don Lancaster
Synergetics, Box 809, Thatcher, AZ 85552
copyright c2004 as |/surl |6GuruGram|1|/gurgrm01  |/tinton1 |6#40
|/surl http://www.tinaja.com|/tinaja 
|/surl don@tinaja.com|/maildon 
(928) 428-4073
|/aqua |/black  
|a|0A|b|1|j|jnew class of |/su math functions|1|/math01  called |/su Magic Sinewaves|1|/magsn01  now lets you efficiently produce power sinewaves that can have |/to any|/tx  chosen number of low harmonics forced very near |/to zero|/tx . And do so using the fewest possible switching events for the highest possible energy efficiency. Two new intros appear |/su here|1|/msintro1  and |/su here|1|/deltams1 , along with a development proposal |/su here|1|/msinprop , a tutorial |/su here|1|/stepsynt , visualizations |/su here|1 |/vismagsn , jitter and distortion analysis |/su here|1|/msquant , lots of calculators |/su here|1|/magsn01 , some evaluation chips           |/su here|1|/numschip.pdf  and seminars and workshops |/su here|1|/info01 .
|h
Successful magic sinewave sourcecode development seems to need a unique programming style. Combined with non-obvious and often non-mainstream techniques required to create useful |/su real world devices|1|/numschip.pdf . In this |/su GuruGram|1|/gurgrm01 , we will be looking at my programming techniques for |/to PIC|/tx  based magic sinewave sourcecode development and evaluation.
|h
The latest fully tested and professional sourcecode is now |/su readily available|1|/numschip.pdf  to commercial users at quite reasonable pricing. As are |/su custom new designs|1|/msinprop . Free        |/su older sourcecode|1|/msd28a.asm  has been posted to |/su my website|1|/magsn01  for possible limited demo use by students or low budget home experimenters.
|h
|c
Why a PIC?
|d
The |/su PIC|1|/picup01  family of microprocessors from |/su Microchip Technology|1|/microchip  are an obvious and economical choice for low end magic sinewave development. The |/to 16F628|/tx  easily holds a |/su Delta Friendly|1|/deltams1  |/to Delta 28|/tx  generator, and the |/to 16F648|/tx  nicely accommodates     |/to Delta 44|/tx , |/to Delta 60|/tx , |/to Best Efficiency 28|/tx , and possibly a |/to Best Efficiency 44|/tx  design.
|h
But we will note in passing that programming of faster premium |/to DSP|/tx  or higher level microcomputer chips that can directly work with 12-bit or even 16-bit data words would likely lead to simpler and cleaner code. The reason being first that the fully expanded delay values required for |/su magic sinewaves|1|/magsn01  often demand a full 12-bit resolution. And second that coding and timing has to be extremely tight, ultra precise, and perfectly equalized for useful results.
) cl 

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(|c
Getting |jStarted
|d
At first glance, |/su Magic Sinewave|1|/msintro1  sourcecode seems trivially easy: For all the |/su best|/msintro1       |/su efficiency|1|/msintro1  designs, you set a pair of port lines, delay an interval, clear the port lines, delay some more, and repeat for full cycles. For |/su delta friendly|1|/deltams1  designs, you do the same thing using port patterns instead.
|h
But, as always, the devil is in the details\274
|6|/shiftin |/red |/burplebox3 |/staytint1 
|h
 Magic sinewave timing must be exceptionally precise and 
 perfectly equalized for useful low harmonic rejection!
|1|/shiftout |/aqua |/black 
|h
Your first problem in any |/su Magic Sinewave|1|/msinprop  development is to |/to create a list of delay       |/to values that establish the position and spacing of each Magic Sinewave pulse.|/tx  You can start with our |/su Magic Sinewave Calculators|1|/magsn01 , such as this |/su 28-bit one|1|/mscal28nd.asp .
|h
From the calculators, you extract a list of values (auto extraction features and custom services are available to |/su Synergetics Partners|1|/msinprop ). You then quantize these values to your available accuracy as set by your clock to output frequency ratio. A        |/to Delta-28|/tx  might involve |/to 3472|/tx  counts per |/to 30|/tx  degrees or |/to 41,664|/tx  instruction cycles per output cycle. Or |/to 166,656|/tx  PIC clock cycles.
|h
Next, you "shake the box" and check the nearest |/to 78,125|/tx  or so quantized magic sinewaves to find the one with the best mix of lowest distortion and amplitude accuracy. Per |/su these guidelines|1|/msquant . (again, auto quantizer code and custom services are available to |/su Synergetics Partners|1|/msinprop ). To prevent any delay versus amplitude sensitivity, |/to the totals of delay values for any amplitude must be a constant|/tx .
|h
Performance of your final delay choices can be verified by simulation. You can use |/su Sigview 32|1|/sigview  per |/su this tutorial|1|/sigview.pdf .
|h
As typical examples, a |/to Delta 28|/tx  Magic sinewave might need eight delay values per amplitude or |/to 808|/tx  total values for amplitudes |/to 0-100|/tx . As we will shortly see, these values may range from very low integers to several thousand counts each.
|h
Thankfully, there are tricks we can pull so we can store them as 8-bit data values. At present, our goal is simply to gain a raw list of the uncompressed delay values. Note that Best Efficiency magic sinewaves will require |/to double|/tx  the storage of their Delta Friendly equivalents. But will reject more harmonics and use fewer switching transitions to do so. For a correspondingly higher efficiency.
|h
A second task after your desired delay tables are complete is to |/to generate a list of      |/to patterns|/tx  needed for delta friendly output. These are not in the least obvious and can be quite subtle, but they are detailed |/su here|1|/numschip.pdf , |/su here|1|/deltapat.psl , |/su here|1|/deltapat.pdf , and |/su here|1|/vismagsn.pdf
.
|h
Only after the delay list and the pattern list are created and simulator checked can you even begin to worry about programming any actual hardware.
) cl 

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/tabs [10] store
(|c
Which |jTools?
|d
The ideal way to develop |/su Magic Sinewaves|1|/magsn01  is with a real time |/to ICE|/tx  in circuit |/to PIC|/tx emulator. Preferably one that includes internal high performance |/su Fourier|1|/hack64  Spectral Analysis. Since such tools are usually very costly, here instead is my bare minimum recommendation for low end |/su Magic Sinewave|1|/msinprop  development tools\274
|6|/shiftin |/aqua |/burplebox6 |/staytint1 
|h
            |/su Oshensoft|1|/oshen  |t|/to PIC development system
            |/su Transtronics|1|/transtronics  |t|/to Pocket Programmer II
            |/su Sigview 32|1|/sigview  |t|/to Fourier Analysis Simulator
            |/su Synergetics|1|/magsn01  |t|/to JavaScript calculators
            |/su Synergetics|1|/post01  |t|/to Gonzo analysis routines
|h
|1|/shiftout |/aqua |/black 
In addition, a |/to 20 MHz|/tx  breadboarding system will be required, combined with methods of accurately observing and testing the generated waveforms. Minimum gear here might include a Tektronix |/to 2246|/tx  oscilloscope and a Hewlett Packard         |/to 3581C|/tx  Frequency Selective Voltmeter. A quality audio spectrum analyzer, of course, is also highly desirable.
|h
|c
Some |jFirst |jPrinciples
|d
Here are some of the concepts that can make Magic Sinewave development rather tricky\274
|h
|/to Exact Timing|j\320 |1|/tx Coding must be precise to within |/to one |/tx instruction cycle to fully guarantee proper rejection of low harmonics.
|h
|/to Full Equalization|j\320 |1|/tx Each and every path through the updating process and all other code must take |/to exactly|/tx  the same number of instruction cycles. No interrupts or side projects are allowed. Chip is 100% committed.
|h
|/to Variable Clocking|j\320 |1|/tx The frequency reference clock is a |/to data input|/tx  that varies over a mid to wide range. Certain chip features such as baud rates, timers, or A/D converters may end up restricted or useless.
|h
|/to High Clock to Output Ratio|j\320 |1|/tx As many as |/to 41,664|/tx  instruction cycles are typically required per |/to single|/tx  output cycle to guarantee proper low harmonic rejection. In certain Magic Sinewave "pinch points", few instruction cycles will be available.
|h
|/to Machine Language Only|j\320 |1|/tx Magic Sinewaves demand the utmost in instruction set organization and use. Compiling assembly code from a higher language flat out ain't gonna happen. Bare metal programming is a must. 
|h
|/to Special Speed Tricks|j\320 |1|/tx Required minimum instruction times trade against code length, complexity, and obtuseness. Techniques here include table lookup, pipelining, splitting, linear "unwrapped" coding, and limited subroutine use. 
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/tabs [ 5 13] store
/font- /StoneSans-Bold [0.95 0 0 0.95 0 0.25 ] gonzofont

(|/to Understanding RETLW|j\320 |1|/tx The usual mechanism for a |/to PIC|/tx  table lookup involves jumping to a calculated subroutine, followed by a |/to RETLW|/tx  that returns a literal value to the |/to W|/tx  register.
|h
|/to Understanding PCLATH|j\320 |1|/tx Modifying the program counter is a useful way of indexing table lookups and precision delays. The high bytes are preset by tricky and obscure register |/to PCLATH|/tx . Which must be carefully reset before reuse. 
|h
|/to Wide Delay Range|j\320 |1|/tx Needed time delay values go from very few to many thousands of cycles. Special expansion techniques (covered below) permit 8-bit table lookup storage of up to 12-bit data.
|h
|/to Pipelining|j\320 |1|/tx Slower delay table lookups are best done early, prestashing their values in registers for later fast access. There simply is not enough time for multiple table lookups and |/to PCLATH|/tx  mods at certain code pinch points.  
|h
|/to Split Code|j\320 |1|/tx Separate code is best done for zero amplitude which still has to maintain sync. Because pinch points are different for low and high amplitudes, a pair of separate low and high amplitude routines may prove useful for fancier        |/su Magic Sinewave|1|/msinprop  sequences.
|h
|/to Compromise|j\320 |1|/tx A sense of balance must be maintained. Certain low amplitudes of extremely low power may not be initially realizable. And an occasional one or two byte timing error may be necessary. 
|h
|c
A |jPrecision |jTime |jDelay
|d
An essential routine for |/su Magic Sinewave|1|/magsn01  code is a precision wide range time delay having minimum overhead. This module delays from |/to 0|/tx  to |/to 255|/tx  machine cycles with a mere |/to six|/tx  bytes of overhead, |/to including|/tx  its calling subroutine\274
|6|/shiftin |/burple |/burplebox10.5 |/staytint1 
|h
CALL as subroutine with delay value in W
and PCLATH preset to page three\274
|h
     02FE   |tSUBWF PCL,1   |t;  move pc to needed delay 
     02FF   |tNOP           |t;  padding - never accessed
     0300   |tNOP           |t;  burn one cycle if used
|-        . . . . . . . .   |t|t         . . . . . . . .
|6     03FD |tNOP           |t;  burn one cycle if used
     03FE   |tNOP           |t;  burn one cycle if used
     03FF   |tRETLW 0x00    |t;  return to calling routine
|h
|1|/shiftout |/aqua |/black 
Yeah, this uses up a whole page of |/to NOP|/tx  commands. But otherwise is fast, clean, and convenient. A subtraction gets used so that |/to more|/tx  cycle-burning |/to NOP|/tx  instructions are used for |/to longer|/tx  time delays. Note that the code |/to must|/tx  begin |/to two|/tx  bytes |/to before|/tx  page three. Note further that an input delay value of zero goes directly to a |/to RETLW|/tx  return.
) cl 

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/tabs [5 9.5 15 20] store

(|c
Delay |jValue |jExpansion
|d
The needed delay values for |/su Magic Sinewave|1|/magsn01  pulse widths and interpulse spacings vary from a very few to many thousands of instruction cycles. Thus, they cannot be directly stored as single 8-bit words. Instead, a two step process gets used\274
|6|/shiftin |/aqua |/burplebox4 |/staytint1 
|h
           To gain the needed resolution, delay values 
           can consist of an expansion calculation that
           is combined with a residue error correction.
|h
|1|/shiftout |/aqua |/black 
The amplitude versus delay curves of |/su VISMAGSN.PDF|1|/vismagsn  show that most delays are more or less linear with amplitude. This suggests using an amplitude |/to ramp|/tx  or its inverse to approximate most of the delay. Any residue can then be reduced to 8-bit values in the |/to 0-255|/tx  range and use the above precision time delay to exactly make up any remaining error.
|h
All of which may need a multiply. By far the simplest and fastest 8-bit multiply is to run around a loop an integral number of times. Here is an example routine that delays |/to five|/tx  times the amplitude plus |/to six|/tx  overhead cycles\274
|6|/shiftin |/burple |/burplebox6 |/staytint1 
|h
EXPANDG  |tMOVF   |tAMPLIT,0 |t; get amplitude
LOOPG    |tBTFSC  |tSTATUS,Z |t; check zero flag
         |tRETLW  |t00       |t; return when done
         |tADDLW  |t0xFF     |t; count down 
         |tGOTO   |tLOOPG    |t; repeat for five more
|h
|1|/shiftout |/aqua |/black 
Thus, |/to two|/tx  steps are used for most time delays. Most of the delay is taken out with an amplitude dependent calculation. Any residue error is then taken out with a precision delay that is wholly within an 8-bit range. At certain code pinch points, it may be necessary to |/to truncate|/tx  or threshold the amplitude delay loops. See the actual sourcecode for specific examples.
|h
|c
Updating
|d
The updating code can be more or less conventional, except that\274
|6|/shiftin |/aqua |/burplebox5 |/staytint1 
|h
  Update code SHOULD be reasonably compact and fast.
|h
  Update code MUST be inside the normal delay timing.
|h
  Update code MUST be fully equalized for ALL paths.
|h
|1|/shiftout |/aqua |/black 
Present thinking is to have |/to seven|/tx  input lines capable of |/to 128|/tx  logic states.
) cl

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(|/to 101|/tx  of these states can be used to directly |/to parallel input|/tx  amplitudes |/to 0-100|/tx  for immediate updates. Codes |/to X111 XXXX|/tx  can be used to sense four pushbuttons for |/to step down|/tx , |/to step up|/tx , |/to slew down|/tx , and |/to slew up|/tx . 
|h
The |/to step|/tx  buttons will advance or retard |/to one|/tx  count per pressing and |/to must be           |/to released|/tx  before an additional advance can be made. Pressed |/to slew|/tx  buttons will        |/to continually|/tx  advance or retard at a preprogrammed |/to slew rate|/tx . The down buttons "stick" at amplitude |/to 0|/tx , while the up buttons "stick" at amplitude |/to 100|/tx . All buttons up is a "make no changes" state, as are any multi-button down lockout states.
|h
Eleven states remain for special functions. Exciting possibilities here include\274
|h|/staytint |6
                      \267 soft or slow starts 
                      \267 advancing or retarding output phase 
                      \267 increasing or decreasing slew rate
                      \267 speed steps for a blender
                      \267 intensity presets for stage lighting
                      \267 direct analog input modes
                      \267 flame flicker or random effects
                      \267 power factor correction or ups
                      \267 mood lighting ultra slow dimming
                      \267 phase sequence or direction reversal
                      \267 custom system control features
                      \267 parallel input change slewing
|h|/tintoff |/black |1 
The |/su MSD28-5X|1|/numschip.pdf  evaluation chip presently attempts an update |/to six|/tx  times per cycle, or every |/to 60|/tx  degrees of phase. Giving a |/to thirty degree|/tx  average latency. This seems to be a useful compromise between complexity and transient behavior. 
|h
|c
Synchronization
|d
Output synchronization pulses can be enormously useful. Besides being handy for scope viewing, they are essential for solar power and similar synchronous inverter apps where the output is to be phase and/or frequency locked to an existing power line reference.
|h
A square wave is presently provided precisely at the first zero degree phase transition of phase |/to "A"|/tx . Its position is slightly adjustable to match system needs. Square wave is high for 0-180 degrees and low for 180-360 degrees.
|h
Quite a bit has to happen inside any 60 degree update cycle interval. These start with an |/to UPDATE|/tx  routine that finds and stores a possible new amplitude but does        |/to not|/tx  immediately use it. An equalizing delay follows to center any possible sync pulse. An amplitude dependent delay follows that still uses the |/to old|/tx  delay values needed to exactly complete the previous cycle.
|h
At this point, the start of a "real" sync pulse will be output if at phase zero, and "fake" sync pulses will be output at phases 60, 120, 180, 240, and 300. 
|h
) cl

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/tabs [7 20 20 ] store

(A |/to HANDSH,2|/tx  steering flag bit decides when a real sync pulse is to be output.
|h
The update cycle interval continues by pipelining the delay values for this and future cycles into appropriate registers using an |/to GRABDLY|/tx  routine. This is followed by an amplitude dependent delay that now uses the |/to new|/tx  delay values. 
|h
There are presently |/to two|/tx  possible routes through the update cycle interval. The "normal" route is followed by amplitudes |/to 1-100|/tx  as described above. The "zero" route is followed only by amplitude zero. It eliminates any amplitude dependent delays and substitutes the |/to rest|/tx  of the output code with a long fixed delay.
|h
This maintains exact sync and frequency during zero amplitude output that exactly matches that of the higher amplitude outputs. The zero flag does the steering between zero and "live" amplitude outputs.
|h
|c
Organization
|d
Here is how the |/su MSD28D-05X|1|/numschip.pdf  is arranged\274
|6|/shiftin |/aqua |/burplebox9.5 |/staytint1 
|h
 Page ZERO   |t Setup and main output loop
 Page ONE    |t Main output loop
 Page TWO    |t Utilities and expansion
 Page THREE  |t Precision time delay
 |h
 Page FOUR   |t Delay tables A and B
 Page FIVE   |t Delay tables C and D
 Page SIX    |t Delay tables E and F
 Page SEVEN  |t Delay tables G and H
|h
|1|/shiftout |/aqua |/black 
While considerable room remains in the chip, fancier |/su Magic Sinewave|1|/magsn01  devices should almost certainly start with the larger sixteen page |/to 16F648|/tx . We'll note in passing that |/to five|/tx  delay tables can be placed on |/to two|/tx  pages by splitting by |/to 0-50|/tx  and |/to 51-100|/tx  amplitude and properly incrementing |/to PCLATH|/tx .
|h
|c
For  More  Help
|d
The |/su MS28D-05X|1|/numschip.pdf  chips are available at $19.63 each plus shipping. Sourcecode and one hour of consulting is separately available for $89 additional. 
|h
You can order your samples and sourcecode |/su here|1|/maildon . Or via our |/su eBay|1|/ebay  store.
|h
Licensing arrangements for your own chip production using our sourcecode or any of its derivatives or variants are available and are quite reasonably priced. You can |/su email me|1|/maildon  for further details.
|h
Additional |/su Magic Sinewave|1|/magsn01  services, programming, seminars, training and project development is available |/su here|1|/msinprop  and |/su here|1|/maildon . Further |/surl |6GuruGrams|1|/gurgrm01  columns await your ongoing support as a |/surl |6Synergetics Partner|1|/advt01 .
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