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|
%D \module
%D [ file=mp-spec.mp,
%D version=1999.6.26,
%D title=\CONTEXT\ \METAPOST\ graphics,
%D subtitle=special extensions,
%D author=Hans Hagen,
%D date=\currentdate,
%D copyright={PRAGMA / Hans Hagen \& Ton Otten}]
%C
%C This module is part of the \CONTEXT\ macro||package and is
%C therefore copyrighted by \PRAGMA. See licen-en.pdf for
%C details.
% Spot colors are not handled by mptopdf !
% (r,g,b) => cmyk : r=123 g= 1 b=hash
% => spot : r=123 g= 2 b=hash
% => transparent rgb : r=123 g= 3 b=hash
% => transparent cmyk : r=123 g= 4 b=hash
% => transparent spot : r=123 g= 5 b=hash
% => rest : r=123 g=n>10 b=whatever
%D This module is rather preliminary and subjected to
%D changes. Here we closely cooperates with the \METAPOST\
%D to \PDF\ converter module built in \CONTEXT\ and provides
%D for instance shading. More information can be found in
%D type {supp-mpe.tex}.
if unknown context_tool : input mp-tool ; fi ;
if known context_spec : endinput ; fi ;
boolean context_spec ; context_spec := true ;
numeric _special_counter_ ; _special_counter_ := 0 ;
numeric _color_counter_ ; _color_counter_ := 11 ; % < 10 reserved
numeric _special_signal_ ; _special_signal_ := 123 ;
numeric _special_div_ ; _special_div_ := 1000 ;
%D When set to \type {true}, shading will be supported. Some
%D day I will also write an additional directive.
boolean _inline_specials_ ; _inline_specials_ := false ;
%D Because we want to output only those specials that are
%D actually used in a figure, we need a bit complicated
%D bookkeeping and collection of specials. At the cost of some
%D obscurity, we now have rather efficient resources.
string _global_specials_ ; _global_specials_ := "" ;
string _local_specials_ ; _local_specials_ := "" ;
% vardef add_special_signal = % write the version number
% if (length _global_specials_>0) or (length _local_specials_ >0) :
% special ("%%MetaPostSpecials: 1.0 " & decimal _special_signal_ ) ;
% fi ;
% enddef ;
%
% After some reported problems at the \CONTEXT\ mailing list,
% Taco's came up with:
% TH: \quotation {Ok, got it. There is a bug in mp-spec.mp (inside metafun).
% Because of a wrapping number, it fails to recognize the fact that there
% are embedded specials at all.} The corrected definition is:
vardef add_special_signal = % write the version number
if (length _global_specials_ <> 0) or (length _local_specials_ <> 0) :
special ("%%MetaPostSpecials: 2.0 " & decimal _special_signal_ & " " & decimal _special_div_) ;
fi ;
enddef ;
% \quotation {It now tests for \quote {not equal to zero} instead of
% \quote {larger than zero}: because of all the included files, the
% string \type {_local_specials_} becomes longer than the maximum number
% \quote {length} can return, so it returns -32768 instead, and that is
% of course less than zero.}
vardef add_extra_specials =
scantokens _global_specials_ ;
scantokens _local_specials_ ;
enddef ;
vardef reset_extra_specials =
% only local ones
_local_specials_ := "" ;
enddef ;
boolean insidefigure ; insidefigure := false ;
% todo: alleen als special gebruikt flush
extra_beginfig :=
" insidefigure := true ; " &
" reset_extra_specials ; " &
extra_beginfig ;
extra_endfig :=
" add_special_signal ; " &
extra_endfig &
" add_extra_specials ; " &
" reset_extra_specials ; " &
" insidefigure := false ; " ;
def set_extra_special (expr s) =
if insidefigure :
_local_specials_ := _local_specials_ & s ;
else :
_global_specials_ := _global_specials_ & s ;
fi
enddef ;
def flush_special (expr typ, siz, dat) =
_special_counter_ := _special_counter_ + 1 ;
if _inline_specials_ :
set_extra_special
( "special "
& "(" & ditto
& dat & " "
& decimal _special_counter_ & " "
& decimal typ & " "
& decimal siz
& " special"
& ditto & ");" ) ;
else :
set_extra_special
( "special "
& "(" & ditto
& "%%MetaPostSpecial: "
& decimal siz & " "
& dat & " "
& decimal _special_counter_ & " "
& decimal typ
& ditto & ");" ) ;
fi ;
enddef ;
%D The next hack is needed in case you use a version of
%D \METAPOST\ that does not provide you the means to configure
%D the buffer size. Patrick Gundlach suggested to use arrays
%D in this case.
boolean bufferhack ; bufferhack := false ; % true ;
if bufferhack :
string _global_specials_[] ; numeric _nof_global_specials_ ;
string _local_specials_[] ; numeric _nof_local_specials_ ;
_nof_global_specials_ := _nof_local_specials_ := 0 ;
vardef add_special_signal = % write the version number
if (_nof_global_specials_>0) or (_nof_local_specials_>0) :
special ("%%MetaPostSpecials: 1.0 " & decimal _special_signal_ ) ;
fi ;
enddef ;
vardef add_extra_specials =
for i=1 upto _nof_global_specials_ :
scantokens _global_specials_[i] ;
endfor;
for i=1 upto _nof_local_specials_ :
scantokens _local_specials_[i] ;
endfor;
enddef ;
vardef reset_extra_specials =
string _local_specials_[] ; _nof_local_specials_ := 0 ;
enddef ;
def set_extra_special (expr s) =
if insidefigure :
_local_specials_[incr(_nof_local_specials_)] := s ;
else :
_global_specials_[incr(_nof_global_specials_)] := s ;
fi
enddef ;
fi ;
%D So far for this hack.
%D Shade allocation.
newinternal shadefactor ; shadefactor := 1 ;
pair shadeoffset ; shadeoffset := origin ;
% vardef define_linear_shade (expr a, b, ca, cb) =
% flush_special(30, 15, "0 1 " & decimal shadefactor & " " &
% dddecimal ca & " " & ddecimal (a shifted shadeoffset) & " " &
% dddecimal cb & " " & ddecimal (b shifted shadeoffset) ) ;
% _special_counter_
% enddef ;
% vardef define_circular_shade (expr a, b, ra, rb, ca, cb) =
% flush_special(31, 17, "0 1 " & decimal shadefactor & " " &
% dddecimal ca & " " & ddecimal (a shifted shadeoffset) & " " & decimal ra & " " &
% dddecimal cb & " " & ddecimal (b shifted shadeoffset) & " " & decimal rb ) ;
% _special_counter_
% enddef ;
vardef _is_cmyk_(expr c) =
(redpart c = _special_signal_/_special_div_) and (greenpart c = 1/_special_div_)
enddef ;
vardef _is_spot_(expr c) =
(redpart c = _special_signal_/_special_div_) and (greenpart c = 2/_special_div_)
enddef ;
numeric mp_shade_version ; mp_shade_version := 2 ; % more colors, needs new backend
vardef define_linear_shade (expr a, b, ca, cb) =
if (mp_shade_version > 1) and _is_cmyk_(ca) and _is_cmyk_(cb) :
flush_special(32, 17, "0 1 " & decimal shadefactor & " " &
cmykcolorpattern[bluepart ca] & " " & ddecimal (a shifted shadeoffset) & " " &
cmykcolorpattern[bluepart cb] & " " & ddecimal (b shifted shadeoffset) ) ;
elseif (mp_shade_version > 1) and _is_spot_(ca) and _is_spot_(cb) :
flush_special(34, 17, "0 1 " & decimal shadefactor & " " &
spotcolorpattern[bluepart ca] & " " & ddecimal (a shifted shadeoffset) & " " &
cmykcolorpattern[bluepart cb] & " " & ddecimal (b shifted shadeoffset) ) ;
else :
flush_special(30, 15, "0 1 " & decimal shadefactor & " " &
dddecimal ca & " " & ddecimal (a shifted shadeoffset) & " " &
dddecimal cb & " " & ddecimal (b shifted shadeoffset) ) ;
fi ;
_special_counter_
enddef ;
vardef define_circular_shade (expr a, b, ra, rb, ca, cb) =
if (mp_shade_version > 1) and _is_cmyk_(ca) and _is_cmyk_(cb) :
flush_special(33, 19, "0 1 " & decimal shadefactor & " " &
cmykcolorpattern[bluepart ca] & " " & ddecimal (a shifted shadeoffset) & " " & decimal ra & " " &
cmykcolorpattern[bluepart cb] & " " & ddecimal (b shifted shadeoffset) & " " & decimal rb ) ;
elseif (mp_shade_version > 1) and _is_spot_(ca) and _is_spot_(cb) :
flush_special(35, 19, "0 1 " & decimal shadefactor & " " &
spotcolorpattern[bluepart ca] & " " & ddecimal (a shifted shadeoffset) & " " & decimal ra & " " &
spotcolorpattern[bluepart cb] & " " & ddecimal (b shifted shadeoffset) & " " & decimal rb ) ;
else :
flush_special(31, 17, "0 1 " & decimal shadefactor & " " &
dddecimal ca & " " & ddecimal (a shifted shadeoffset) & " " & decimal ra & " " &
dddecimal cb & " " & ddecimal (b shifted shadeoffset) & " " & decimal rb ) ;
fi ;
_special_counter_
enddef ;
%D A few predefined shading macros.
boolean trace_shades ; trace_shades := false ;
% if (n=1) : a := llcorner p ; b := urcorner p ;
% elseif (n=2) : a := llcorner p ; b := ulcorner p ;
% elseif (n=3) : a := lrcorner p ; b := ulcorner p ;
% else : a := llcorner p ; b := lrcorner p ;
% fi ;
def set_linear_vector (suffix a,b)(expr p,n) =
if (n=1) : a := llcorner p ;
b := urcorner p ;
elseif (n=2) : a := lrcorner p ;
b := ulcorner p ;
elseif (n=3) : a := urcorner p ;
b := llcorner p ;
elseif (n=4) : a := ulcorner p ;
b := lrcorner p ;
elseif (n=5) : a := .5[ulcorner p,llcorner p] ;
b := .5[urcorner p,lrcorner p] ;
elseif (n=6) : a := .5[llcorner p,lrcorner p] ;
b := .5[ulcorner p,urcorner p] ;
elseif (n=7) : a := .5[lrcorner p,urcorner p] ;
b := .5[llcorner p,ulcorner p] ;
elseif (n=8) : a := .5[urcorner p,ulcorner p] ;
b := .5[lrcorner p,llcorner p] ;
else : a := .5[ulcorner p,llcorner p] ;
b := .5[urcorner p,lrcorner p] ;
fi ;
enddef ;
def linear_shade (expr p, n, ca, cb) =
begingroup ;
save a, b, sh ; pair a, b ;
set_linear_vector(a,b)(p,n) ;
fill p withshade define_linear_shade (a,b,ca,cb) ;
if trace_shades :
drawarrow a -- b withpen pencircle scaled 1pt ;
fi ;
endgroup ;
enddef ;
vardef predefined_linear_shade (expr p, n, ca, cb) =
save a, b, sh ; pair a, b ;
set_linear_vector(a,b)(p,n) ;
set_shade_vector(a,b)(p,n) ;
define_linear_shade (a,b,ca,cb)
enddef ;
def set_circular_vector (suffix ab, r)(expr p,n) =
if (n=1) : ab := llcorner p ;
elseif (n=2) : ab := lrcorner p ;
elseif (n=3) : ab := urcorner p ;
elseif (n=4) : ab := ulcorner p ;
else : ab := center p ; r := .5r ;
fi ;
enddef ;
def circular_shade (expr p, n, ca, cb) =
begingroup ;
save ab, r ; pair ab ; numeric r ;
r := (xpart lrcorner p - xpart llcorner p) ++
(ypart urcorner p - ypart lrcorner p) ;
set_circular_vector(ab,r)(p,n) ;
fill p withshade define_circular_shade(ab,ab,0,r,ca,cb) ;
if trace_shades :
drawarrow ab -- ab shifted (0,r) withpen pencircle scaled 1pt ;
fi ;
endgroup ;
enddef ;
vardef predefined_circular_shade (expr p, n, ca, cb) =
save ab, r ; pair ab ; numeric r ;
r := (xpart lrcorner p - xpart llcorner p) ++
(ypart urcorner p - ypart lrcorner p) ;
set_circular_vector(ab,r)(p,n) ;
define_circular_shade(ab,ab,0,r,ca,cb)
enddef ;
%D Since a \type {fill p withshade s} syntax looks better
%D than some macro, we implement a new primary.
primarydef p withshade sc = % == p withcolor shadecolor(sh)
hide (_color_counter_ := _color_counter_ + 1)
p withcolor (_special_signal_/_special_div_,_color_counter_/_special_div_,sc/_special_div_)
enddef ;
vardef shadecolor(expr sc) =
hide (_color_counter_ := _color_counter_ + 1)
(_special_signal_/_special_div_,_color_counter_/_special_div_,sc/_special_div_)
enddef ;
%D Figure inclusion.
%numeric cef ; cef := 0 ;
def externalfigure primary filename =
doexternalfigure (filename)
enddef ;
def doexternalfigure (expr filename) text transformation =
begingroup ; save p, t ; picture p ; transform t ;
p := nullpicture ; t := identity transformation ;
flush_special(10, 9,
dddecimal (xxpart t, yxpart t, xypart t) & " " &
dddecimal (yypart t, xpart t, ypart t) & " " & filename) ;
addto p contour unitsquare scaled 0 ;
setbounds p to unitsquare transformed t ;
_color_counter_ := _color_counter_ + 1 ;
draw p withcolor (_special_signal_/_special_div_,_color_counter_/_special_div_,_special_counter_/_special_div_) ;
endgroup ;
enddef ;
%D Experimental:
%numeric currenthyperlink ; currenthyperlink := 0 ;
def hyperlink primary t = dohyperlink(t) enddef ;
def hyperpath primary t = dohyperpath(t) enddef ;
def dohyperlink (expr destination) text transformation =
begingroup ; save somepath ; path somepath ;
somepath := fullsquare transformation ;
dohyperpath(destination) somepath ;
endgroup ;
enddef ;
def dohyperpath (expr destination) expr somepath =
begingroup ;
flush_special(20, 7,
ddecimal (xpart llcorner somepath, ypart llcorner somepath) & " " &
ddecimal (xpart urcorner somepath, ypart urcorner somepath) & " " & destination) ;
_color_counter_ := _color_counter_ + 1 ;
fill boundingbox unitsquare scaled 0 withcolor
(_special_signal_/_special_div_,_color_counter_/_special_div_,_special_counter_/_special_div_) ;
endgroup ;
enddef ;
% \setupinteraction[state=start]
% \setupcolors [state=start]
%
% Hello There! \blank
%
% \startMPcode
% pickup pencircle scaled 5 ;
% draw fullcircle scaled 4cm withcolor red ;
% hyperpath "nextpage" boundingbox currentpicture ;
% draw origin withcolor blue ;
% \stopMPcode
%
% \blank Does it work or not?
%
% \startMPcode
% pickup pencircle scaled 5 ;
% draw fullcircle scaled 4cm withcolor red ;
% hyperpath "nextpage" fullcircle scaled 4cm ;
% draw origin withcolor blue ;
% draw fullcircle scaled 4cm shifted (1cm,1cm);
% \stopMPcode
%
% \blank Does it work or not? \page Hello There! \blank
%
% \startMPcode
% pickup pencircle scaled 5 ;
% draw fullcircle scaled 2cm shifted (-2cm,-1cm) ;
% draw fullcircle scaled 3cm shifted (2cm,1cm) withcolor red ;
% draw fullcircle scaled 1cm ;
% hyperlink "previouspage" scaled 3cm shifted (2cm,1cm) ;
% draw origin withcolor blue ;
% \stopMPcode
%
% \blank Does it work or not?
_cmyk_counter_ := 0 ;
extra_endfig := " resetcmykcolors ; " & extra_endfig ;
def resetcmykcolors =
numeric cmykcolorhash[][][][] ;
enddef ;
resetcmykcolors ; boolean cmykcolors ; cmykcolors := false ; % true
string cmykcolorpattern[] ; % needed for transparancies
vardef cmyk(expr c,m,y,k) =
if cmykcolors :
save ok ; boolean ok ;
if unknown cmykcolorhash[c][m][y][k] :
ok := false ; % not yet defined
elseif cmykcolorhash[c][m][y][k] = -1 :
ok := false ; % locally defined and undefined
else :
ok := true ; % globally already defined
fi ;
if not ok :
save s ; string s ; s := dddecimal (c,m,y) & " " & decimal k ;
_cmyk_counter_ := _cmyk_counter_ + 1 ;
cmykcolorpattern[_cmyk_counter_/_special_div_] := s ;
cmykcolorhash[c][m][y][k] := _cmyk_counter_ ;
flush_special(1, 7, decimal _cmyk_counter_ & " " & s) ;
_local_specials_ := _local_specials_ &
" cmykcolorhash[" & decimal c & "][" & decimal m &
"][" & decimal y & "][" & decimal k & "] := -1 ; " ;
fi ;
(_special_signal_/_special_div_,1/_special_div_,cmykcolorhash[c][m][y][k]/_special_div_)
else :
(1-c-k,1-m-k,1-y-k)
fi
enddef ;
% newcolor truecyan, truemagenta, trueyellow ;
%
% truecyan = cmyk (1,0,0,0) ;
% truemagenta = cmyk (0,1,0,0) ;
% trueyellow = cmyk (0,0,1,0) ;
%D Spot colors
_spotcolor_counter_ := 0 ;
_spotcolor_number_ := 0 ;
extra_endfig := " resetspotcolors ; " & extra_endfig ;
def resetspotcolors =
numeric spotcolorhash[][] ;
enddef ;
resetspotcolors ; boolean spotcolors ; spotcolors := false ; % true
string spotcolorpattern[] ; % needed for transparancies
vardef spotcolor(expr p, s) =
multitonecolor(p, 1, "", decimal s)
enddef ;
vardef multitonecolor(expr n, f, d, p) = % name fractions names factors
if spotcolors :
save ok, pc_tag ; boolean ok ; string pc_tag ;
pc_tag := "_pct_" & n ;
if not unstringed(pc_tag) :
_spotcolor_number_ := _spotcolor_number_ + 1 ;
setunstringed(pc_tag,_spotcolor_number_) ;
fi ;
pp := getunstringed(pc_tag) ;
pc_tag := "_pct_"& decimal f & "_" & if d = "" : n else : d fi & "_" & p ; % check for d empty
if not unstringed(pc_tag) :
_spotcolor_number_ := _spotcolor_number_ + 1 ;
setunstringed(pc_tag,_spotcolor_number_) ;
fi ;
ps := getunstringed(pc_tag) ;
if unknown spotcolorhash[pp][ps] :
ok := false ; % not yet defined
elseif spotcolorhash[pp][ps] = -1 :
ok := false ; % locally defined and undefined
else :
ok := true ; % globally already defined
fi ;
if not ok :
save ss ; string ss ; ss := n & " " & decimal f & " " & if d = "" : n else : d fi & " " & p ;
_spotcolor_counter_ := _spotcolor_counter_ + 1 ;
spotcolorpattern[_spotcolor_counter_/_special_div_] := ss ;
spotcolorhash[pp][ps] := _spotcolor_counter_ ;
flush_special(2, 7, decimal _spotcolor_counter_ & " " & ss) ;
_local_specials_ := _local_specials_ &
"spotcolorhash["&decimal pp&"]["&decimal ps&"]:=-1;" ;
fi ;
(_special_signal_/_special_div_,2/_special_div_,spotcolorhash[pp][ps]/_special_div_)
else :
.5white
fi
enddef ;
%D Transparency
normaltransparent := 1 ; multiplytransparent := 2 ;
screentransparent := 3 ; overlaytransparent := 4 ;
softlighttransparent := 5 ; hardlighttransparent := 6 ;
colordodgetransparent := 7 ; colorburntransparent := 8 ;
darkentransparent := 9 ; lightentransparent := 10 ;
differencetransparent := 11 ; exclusiontransparent := 12 ;
% nottransparent := 0 ;
% compatibletransparent := 99 ;
% fill fullcircle scaled 10cm withcolor transparant(8,.3,red) ;
vardef transparent(expr n, t, c) =
save s, ss, nn, cc, is_cmyk, is_spot, ok ;
string s, ss ; numeric nn ; color cc ; boolean is_cmyk, is_spot, ok ;
% transparancy type
if string n :
if expandafter known scantokens(n&"transparent") :
nn := scantokens(n&"transparent") ;
else :
nn := 0 ;
fi
else : % nn := min(n,13)
nn := if n<13 : n else : nn := 0 fi ;
fi ;
% we need to expand the color (can be cmyk(..) or predefined)
cc := c ; % expand color
% check for cmyk special
is_cmyk := (redpart cc = _special_signal_/_special_div_)
and (greenpart cc = 1/_special_div_) ;
is_spot := (redpart cc = _special_signal_/_special_div_)
and (greenpart cc = 2/_special_div_) ;
% build special string, fetch cmyk components
s := decimal nn & " " & decimal t & " " &
if is_cmyk : cmykcolorpattern[bluepart cc]
elseif is_spot : spotcolorpattern[bluepart cc]
else : dddecimal cc fi ;
% check if this one is already used
ss := cleanstring("tr_" & s) ;
% we now have rather unique names, i.e. a color spec of .234 becomes
% tr..._234.... and metapost gives a number overflow (parse error)
% for variables like tr_12345678 which may result from many decimal
% positions (imo mp bug)
ss := asciistring(ss) ;
% efficiency hack
if expandafter unknown scantokens(ss) :
ok := false ; % not yet defined
elseif scantokens(ss) < 0 :
ok := false ; % locally defined and undefined
else :
ok := true ; % globally already defined
fi ;
if not ok :
if is_spot :
flush_special(5, 8, s) ;
elseif is_cmyk :
flush_special(4, 8, s) ;
else :
flush_special(3, 7, s) ;
fi ;
scantokens(ss) := _special_counter_ ;
_local_specials_ := _local_specials_ &
"scantokens(" & ditto & ss & ditto & ") := -1 ;" ;
fi ;
% go ahead
if is_spot :
(_special_signal_/_special_div_,5/_special_div_,scantokens(ss)/_special_div_)
elseif is_cmyk :
(_special_signal_/_special_div_,4/_special_div_,scantokens(ss)/_special_div_)
else :
(_special_signal_/_special_div_,3/_special_div_,scantokens(ss)/_special_div_)
fi
enddef ;
%D This function returns true of false, dependent on transparency.
vardef is_transparent(text t) =
begingroup ; save transparent ; save _c_, _b_ ;
vardef transparent(expr nn, tt, cc) = _b_ := true ; cc enddef ;
boolean _b_ ; _b_ := false ;
color _c_ ; _c_ := t ; _b_
endgroup
enddef ;
%D This function returns the not transparent color.
vardef not_transparent(text t) =
begingroup ; save transparent ;
vardef transparent(expr nn, tt, cc) = cc enddef ;
t endgroup
enddef ;
%D Basic position tracking:
def register (expr label, width, height, offset) =
begingroup ;
flush_special(50, 7,
ddecimal offset & " " &
decimal width & " " &
decimal height & " " & label) ;
endgroup ;
enddef ;
%D We cannot scale cmyk colors directly since this spoils
%D the trigger signal (such colors are no real colors).
vardef scaledcmyk(expr c,m,y,k,sf) =
cmyk(sf*c,sf*m,sf*y,sf*k)
enddef ;
vardef scaledcmykasrgb(expr c,m,y,k,sf) =
(sf*(1-c-k,1-m-k,1-y-k))
enddef ;
vardef scaledrgbascmyk(expr c,m,y,k,sf) =
scaledcmyk(1-c,1-m,1-y,0,sf)
enddef ;
vardef scaledrgb(expr r,g,b,sf) =
(sf*(r,g,b))
enddef ;
vardef scaledgray(expr s,sf) =
(sf*(s,s,s))
enddef ;
% spotcolor is already scaled
endinput ;
% just an exercise (due to a question by Chof on the context mailing list); scaling of
% 'special' colors is not possible and the next solution is incomplete (spot colors,
% transparency, etc); watch the the tricky chained macro construction
% vardef normalgray(expr s ) = (s,s,s) enddef ;
% vardef normalrgb (expr r,g,b ) = (r,g,b) enddef ;
% vardef normalcmyk(expr c,m,y,k) = if cmykcolors : save ok ; boolean ok ; if unknown cmykcolorhash[c][m][y][k] : ok := false ; elseif cmykcolorhash[c][m][y][k] = -1 : ok := false ; else : ok := true ; fi ; if not ok : save s ; string s ; s := dddecimal (c,m,y) & " " & decimal k ; _cmyk_counter_ := _cmyk_counter_ + 1 ; cmykcolorpattern[_cmyk_counter_/_special_div_] := s ; cmykcolorhash[c][m][y][k] := _cmyk_counter_ ; flush_special(1, 7, decimal _cmyk_counter_ & " " & s) ; _local_specials_ := _local_specials_ & " cmykcolorhash[" & decimal c & "][" & decimal m & "][" & decimal y & "][" & decimal k & "] := -1 ; " ; fi ; (_special_signal_/_special_div_,1/_special_div_,cmykcolorhash[c][m][y][k]/_special_div_) else : (1-c-k,1-m-k,1-y-k) fi enddef ;
% vardef gray(expr s) = normalgray(s ) enddef ;
% vardef rgb (expr r,g,b) = normalrgb (r,g,b ) enddef ;
% vardef cmyk(expr c,m,y,k) = normalcmyk(c,m,y,k) enddef ;
% numeric _scaled_color_t_ ;
% color _scaled_color_c_ ;
% def withscaledcolor =
% hide (
% _scaled_color_t_ := 0 ; % direct
% def gray(expr s) =
% hide (
% _gray_s_ := s ;
% _scaled_color_t_ := 1; % gray
% )
% 0
% enddef ;
% def rgb (expr r,g,b) =
% hide (
% _rgb_r_ := r ; _rgb_g_ := g ; _rgb_b_ := b ;
% _scaled_color_t_ := 2 ; % rgb
% )
% 0
% enddef ;
% def cmyk (expr c,m,y,k) =
% hide (
% _cmyk_c_ := c ; _cmyk_m_ := m ; _cmyk_y_ := y ; _cmyk_k_ := k ;
% _scaled_color_t_ := 3 ; % cmyk
% )
% 0
% enddef ; )
% dowithscaledcolor
% enddef ;
% def dowithscaledcolor expr t =
% hide (
% if color t : _scaled_color_c_ := t fi ;
% vardef gray(expr s) = normalgray(s) enddef ;
% vardef rgb (expr r,g,b) = normalrgb (r,g,b) enddef ;
% vardef cmyk(expr c,m,y,k) = normalcmyk(c,m,y,k) enddef ;
% )
% enddef ;
% def by expr s =
% if _scaled_color_t_ = 0 :
% withcolor s*_scaled_color_c_
% elseif _scaled_color_t_ = 1 :
% withcolor gray(s*_gray_s_)
% elseif _scaled_color_t_ = 2 :
% withcolor rgb (s*_rgb_r_, s*_rgb_g_, s*_rgb_b_)
% elseif _scaled_color_t_ = 3 :
% withcolor cmyk(s*_cmyk_c_, s*_cmyk_m_, s*_cmyk_y_, s*_cmyk_k_)
% fi
% enddef ;
% fill fullcircle scaled 10cm withscaledcolor cmyk(0,0,1,0) by .5 ;
% fill fullcircle scaled 8cm withscaledcolor rgb (0,0,1) by .5 ;
% fill fullcircle scaled 6cm withscaledcolor gray(1) by .5 ;
% fill fullcircle scaled 4cm withscaledcolor (0,1,0) by .5 ;
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