summaryrefslogtreecommitdiff
diff options
context:
space:
mode:
-rw-r--r--metapost/context/base/mp-grap.mpiv929
-rw-r--r--tex/context/base/cont-new.mkiv2
-rw-r--r--tex/context/base/context-version.pdfbin4127 -> 4128 bytes
-rw-r--r--tex/context/base/context.mkiv2
-rw-r--r--tex/context/base/font-ctx.lua6
-rw-r--r--tex/context/base/l-pdfview.lua2
-rw-r--r--tex/context/base/s-fonts-features.lua14
-rw-r--r--tex/context/base/s-fonts-shapes.lua16
-rw-r--r--tex/context/base/s-fonts-shapes.mkiv22
-rw-r--r--tex/context/base/status-files.pdfbin24754 -> 24752 bytes
-rw-r--r--tex/context/base/status-lua.pdfbin211738 -> 211900 bytes
-rw-r--r--tex/generic/context/luatex/luatex-fonts-merged.lua2
12 files changed, 521 insertions, 474 deletions
diff --git a/metapost/context/base/mp-grap.mpiv b/metapost/context/base/mp-grap.mpiv
index 1c7a50124..34b1bd1cc 100644
--- a/metapost/context/base/mp-grap.mpiv
+++ b/metapost/context/base/mp-grap.mpiv
@@ -24,7 +24,7 @@ fi
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-% $Id: graph.mp,v 1.2 2004/09/19 21:47:10 karl Exp $
+% $Id : graph.mp,v 1.2 2004/09/19 21 :47 :10 karl Exp $
% Public domain.
% Macros for drawing graphs
@@ -39,10 +39,10 @@ fi
% glabel<suffix>(pic,loc) place label pic near graph coords or time loc
% gdotlabel<suffix>(pic,loc) same with dot
% OUT loc value for labels relative to whole graph
-% gdata(file,s,text) read coords from file; evaluate t w/ tokens s[]
+% gdata(file,s,text) read coords from file ; evaluate t w/ tokens s[]
% auto.<x or y> default x or y tick locations (for interation)
% itick.<bot|top|..>(fmt,u) draw inward tick from given side at u w/ format
-% otick.<bot|top|..>(fmt,u) draw outward tick at coord u; label format fmt
+% otick.<bot|top|..>(fmt,u) draw outward tick at coord u ; label format fmt
% grid.<bot|top|..>(fmt,u) draw grid line at u with given side labeled
% autogrid([itick|.. bot|..],..) iterate over auto.x, auto.y, drawing tick/grids
% frame.[bot|top..] draw frame (or one side of the frame)
@@ -61,9 +61,9 @@ fi
% Other than the above-documented user interface, all externally visible names
% are of the form X_.<suffix>, Y_.<suffix>, or Z_.<suffix>, or they start
-% with `graph_' (was: "`G' and end with `_'").
+% with `graph_'
-% Depends on:
+% Depends on :
input string.mp
% Private version of a few marith macros, fixed for double math...
@@ -71,106 +71,112 @@ newinternal mzero ; mzero := -53*mlog 2 ; % Anything at least this small is tr
newinternal mlogten ; mlogten := mlog(10) ; % Would this be better inline?
% Safely convert a number to mlog form
-vardef graph_mlog primary x = if x=0 : mzero else : mlog(abs x) fi enddef;
+vardef graph_mlog primary x =
+ if unknown x : whatever
+ elseif x=0 : mzero
+ else : mlog(abs x)
+ fi
+enddef ;
% Convert x from mlog form into a pair whose xpart gives a mantissa and whose
% ypart gives a power of ten.
vardef graph_Meform(expr x) =
- if x<=mzero: origin
- else:
- save e; e=round(x/mlogten)-3;
- (mexp(x-e*mlogten), e)
+ if x<=mzero : origin
+ else :
+ save e, m ; e=floor(x/mlogten)-3; m := mexp(x-e*mlogten) ;
+ if abs m<1000 : m := m*10 ; e := e-1 ; elseif abs m>=10000 : m := m/10 ; e := e+1 ; fi
+ (m, e)
fi
-enddef;
+enddef ;
% Modified from above.
vardef graph_Feform(expr x) =
- interim warningcheck:=0;
- if x=0: origin
- else:
- save e; e=round(if x<0: -mlog(-x) else: mlog(x) fi/mlogten)-3;
- (x/(10**e), e)
+ interim warningcheck :=0 ;
+ if x=0 : origin
+ else :
+ save e, m ; e=floor(if x<0 : -mlog(-x) else : mlog(x) fi/mlogten)-3; m := x/(10**e) ;
+ if abs m<1000 : m := m*10 ; e := e-1 ; elseif abs m>=10000 : m := m/10 ; e := e+1 ; fi
+ (m, e)
fi
-enddef;
+enddef ;
vardef graph_error(expr x,s) =
- interim showstopping:=0;
- show x; errmessage s;
-enddef;
+ interim showstopping :=0 ;
+ show x ; errmessage s;
+enddef ;
%%%%%%%%%%%%%%%%%%%%%%%% Data structures, begingraph %%%%%%%%%%%%%%%%%%%%%%%%
-vardef Z_@# = (X_@#,Y_@#) enddef; % used in place of plain.mp's z convention
+vardef Z_@# = (X_@#,Y_@#) enddef ; % used in place of plain.mp's z convention
def graph_suffix(suffix $) = % convert from x or y to X_ or Y_
- if str$="x": X_ else: Y_ fi
-enddef;
+ if str$="x" : X_ else : Y_ fi
+enddef ;
-% New:
+% New :
save graph_background ; color graph_background ; % if defined, fill the frame.
def begingraph(expr w, h) =
begingroup
- save X_, Y_;
+ save X_, Y_ ;
X_.graph_coordinate_type =
- Y_.graph_coordinate_type = linear; % coordinate system for each axis
- Z_.graph_dimensions = (w,h); % dimensions of graph not counting axes etc.
-% Z_.low, Z_.high user-specified coordinate ranges in units used in graph_current_graph
-
- save graph_finished_graph;
- picture graph_finished_graph; % the finished part of the graph
- graph_finished_graph = nullpicture;
- save graph_current_graph;
- picture graph_current_graph; % what has been drawn in current coords
- graph_current_graph = nullpicture;
- save graph_current_bb;
- picture graph_current_bb; % picture whose bbox is graph_current_graph's w/ linewidths 0
- graph_current_bb = nullpicture;
- save graph_last_drawn;
- picture graph_last_drawn; % result of last gdraw or gfill
- graph_last_drawn = nullpicture;
- save graph_plot_picture;
- picture graph_plot_picture; % a picture from the `plot' option known when plot allowed
- save graph_label;
- picture graph_label[]; % labels to place around the whole graph when it is done
- save graph_autogrid_needed;
- boolean graph_autogrid_needed; % whether autogrid is needed
- graph_autogrid_needed = true;
- save graph_frame_needed;
- boolean graph_frame_needed; % whether frame needs to be drawn
- graph_frame_needed = true;
- save graph_number_of_arrowheads; % number of arrowheads for next gdraw
- graph_number_of_arrowheads = 0;
+ Y_.graph_coordinate_type = linear ; % coordinate system for each axis
+ Z_.graph_dimensions = (w,h) ; % dimensions of graph not counting axes etc.
+ %also, Z_.low, Z_.high user-specified coordinate ranges in units used in graph_current_graph
+
+ save graph_finished_graph ;
+ picture graph_finished_graph ; % the finished part of the graph
+ graph_finished_graph = nullpicture ;
+ save graph_current_graph ;
+ picture graph_current_graph ; % what has been drawn in current coords
+ graph_current_graph = nullpicture ;
+ save graph_current_bb ;
+ picture graph_current_bb ; % picture whose bbox is graph_current_graph's w/ linewidths 0
+ graph_current_bb = nullpicture ;
+ save graph_last_drawn ;
+ picture graph_last_drawn ; % result of last gdraw or gfill
+ graph_last_drawn = nullpicture ;
+ save graph_plot_picture ;
+ picture graph_plot_picture ; % a picture from the `plot' option known when plot allowed
+ save graph_label ;
+ picture graph_label[] ; % labels to place around the whole graph when it is done
+ save graph_autogrid_needed ;
+ boolean graph_autogrid_needed ; % whether autogrid is needed
+ graph_autogrid_needed = true ;
+ save graph_frame_needed ;
+ boolean graph_frame_needed ; % whether frame needs to be drawn
+ graph_frame_needed = true ;
+ save graph_number_of_arrowheads ; % number of arrowheads for next gdraw
+ graph_number_of_arrowheads = 0 ;
if known graph_background : % new feature!
fill origin--(w,0)--(w,h)--(0,h)--cycle withcolor graph_background ;
fi
-enddef;
+enddef ;
-% Additional variables not explained above:
+% Additional variables not explained above :
% graph_modified_lower, graph_modified_higher pairs giving bounds used in auto<x or y>
-% graph_exponent, graph_comma variables and macros used in auto<x or y>
-% Gc_ temporary macro used in auto<x or y> ????
-% graph_modified_bias an offset to graph_modified_lower and graph_modified_higher to ease computing exponents
+% graph_exponent, graph_comma variables and macros used in auto<x or y>
+% graph_modified_bias
+% an offset to graph_modified_lower and graph_modified_higher to ease computing exponents
% Some additional variables function as constants. Most can be modified by the
% user to alter the behavior of these macros.
-% Not very modifiable: log, linear,
-% graph_frame_pair_a, graph_frame_pair_b, graph_margin_pair
-% Modifiable: Gtemplate.suffix, Glmarks[], Gumarks, Gemarks, Gmarks,
-% Gminlog, Autoform
-
+% Not very modifiable : log, linear,
+% graph_frame_pair_a, graph_frame_pair_b, graph_margin_pair
+% Modifiable : Gtemplate.suffix, Glmarks[], Gumarks, Gemarks, Gmarks,
+% Gminlog, Autoform
-newinternal log, linear; % coordinate system codes
-log:=1; linear:=2;
+newinternal log, linear ; % coordinate system codes
+log :=1 ; linear :=2;
+% note that mp-tool.mpiv defines log as log10...
-
-%%%%%%%%%%%%%%%%%%%%%% Coordinates: setcoords, setrange %%%%%%%%%%%%%%%%%%%%%%
+%%%%%%%%%%%%%%%%%%%%%% Coordinates : setcoords, setrange %%%%%%%%%%%%%%%%%%%%%%
% Graph-related usr input is `user graph coordinates' as specified by arguments
% to setcoords.
% `Internal graph coordinates' are used for graph_current_graph, graph_current_bb, Z_.low, Z_.high.
-% Their meaning depends on the appropriate component of Z_.graph_coordinate_type:
+% Their meaning depends on the appropriate component of Z_.graph_coordinate_type :
% log means internal graph coords = mlog(user graph coords)
% -log means internal graph coords = -mlog(user graph coords)
% linear means internal graph coords = (user graph coords)
@@ -178,13 +184,14 @@ log:=1; linear:=2;
vardef graph_set_default_bounds = % Set default Z_.low, Z_.high
- forsuffixes $=low,high:
- (if known X_$: whatever else: X_$ fi, if known Y_$: whatever else: Y_$ fi)
- = graph_margin_fraction$[llcorner graph_current_bb,urcorner graph_current_bb] + graph_margin_pair$;
+ forsuffixes $=low,high :
+ (if known X_$ : whatever else : X_$ fi, if known Y_$ : whatever else : Y_$ fi)
+ = graph_margin_fraction$[llcorner graph_current_bb,urcorner graph_current_bb] +
+ graph_margin_pair$ ;
endfor
-enddef;
-pair graph_margin_pair.low, graph_margin_pair.high;
-graph_margin_pair.high = -graph_margin_pair.low = (.00002,.00002);
+enddef ;
+pair graph_margin_pair.low, graph_margin_pair.high ;
+graph_margin_pair.high = -graph_margin_pair.low = (.00002,.00002) ;
% Set $, $$, $$$ so that shifting by $ then transforming by $$ and then $$$
@@ -192,31 +199,31 @@ graph_margin_pair.high = -graph_margin_pair.low = (.00002,.00002);
% `essential bounding box' is either what Z_.low and Z_.high imply or the
% result of ignoring pen widths in graph_current_graph.
vardef graph_remap(suffix $,$$,$$$) =
- save p_;
- graph_set_default_bounds;
- pair p_, $; $=-Z_.low;
- p_ = (max(X_.high-X_.low,.9), max(Y_.high-Y_.low,.9));
- transform $$, $$$;
- forsuffixes #=$$,$$$: xpart#=ypart#=xypart#=yxpart#=0; endfor
- (Z_.high+$) transformed $$ = p_;
- p_ transformed $$$ = Z_.graph_dimensions;
-enddef;
-graph_margin_fraction.low=-.07; % bbox fraction for default range start
-graph_margin_fraction.high=1.07; % bbox fraction for default range stop
+ save p_ ;
+ graph_set_default_bounds ;
+ pair p_, $ ; $=-Z_.low;
+ p_ = (max(X_.high-X_.low,.9), max(Y_.high-Y_.low,.9)) ;
+ transform $$, $$$ ;
+ forsuffixes #=$$,$$$ : xpart#=ypart#=xypart#=yxpart#=0 ; endfor
+ (Z_.high+$) transformed $$ = p_ ;
+ p_ transformed $$$ = Z_.graph_dimensions ;
+enddef ;
+graph_margin_fraction.low=-.07 ; % bbox fraction for default range start
+graph_margin_fraction.high=1.07 ; % bbox fraction for default range stop
def graph_with_pen_and_color(expr q) =
withpen penpart q withcolor
- if colormodel q=1:
+ if colormodel q=1 :
false
- elseif colormodel q=3:
+ elseif colormodel q=3 :
(greypart q)
- elseif colormodel q=5:
+ elseif colormodel q=5 :
(redpart q, greenpart q, bluepart q)
- elseif colormodel q=7:
+ elseif colormodel q=7 :
(cyanpart q, magentapart q, yellowpart q, blackpart q)
fi
-enddef;
+enddef ;
% Add picture component q to picture @# and change part p to tp, where p is
% something from q that needs coordinate transformation. The type of p is pair
@@ -224,101 +231,115 @@ enddef;
% Pair o is the value of p that makes tp (0,0). This implements the trick
% whereby using 1 instead of 0 for th the width or height or the setbounds path
% for a label picture suppresses shifting in x or y.
-vardef old_graph_picture_conversion@#(expr q, o)(text tp) =
- save p;
- if stroked q:
- path p; p=pathpart q;
- addto @# doublepath tp graph_with_pen_and_color(q) dashed dashpart q;
- elseif filled q:
- path p; p=pathpart q;
- addto @# contour tp graph_with_pen_and_color(q);
- else:
- interim truecorners:=0;
- pair p; p=llcorner q;
- if urcorner q<>p: p:=p+graph_coordinate_multiplication(o-p,urcorner q-p); fi
- addto @# also q shifted ((tp)-llcorner q);
- fi
-enddef;
-% TH: new version from code found at sarovar tracker. This makes
+%vardef graph_picture_conversion@#(expr q, o)(text tp) =
+% save p ;
+% if stroked q :
+% path p ; p=pathpart q;
+% addto @# doublepath tp graph_with_pen_and_color(q) dashed dashpart q ;
+% elseif filled q :
+% path p ; p=pathpart q;
+% addto @# contour tp graph_with_pen_and_color(q) ;
+% else :
+% interim truecorners :=0 ;
+% pair p ; p=llcorner q;
+% if urcorner q<>p : p :=p+graph_coordinate_multiplication(o-p,urcorner q-p) ; fi
+% addto @# also q shifted ((tp)-llcorner q) ;
+% fi
+%enddef ;
+% TH : new version from code found at sarovar tracker. This makes
% grdaw clip the result to the window defined with setrange
vardef graph_picture_conversion@#(expr q, o)(text tp) =
- save p, tp_geclipt;
- picture tp_geclipt; tp_geclipt:=nullpicture;
- if stroked q:
- path p; p=pathpart q;
+ save p, tp_geclipt ;
+ picture tp_geclipt ; tp_geclipt :=nullpicture;
+ if stroked q :
+ path p ; p=pathpart q;
%%% --- SDV added
- addto tp_geclipt doublepath tp graph_with_pen_and_color(q) dashed dashpart q;
- clip tp_geclipt to origin--(xpart Z_.graph_dimensions,0)--Z_.graph_dimensions--(0, ypart Z_.graph_dimensions)--cycle;
- addto @# also tp_geclipt;
+ addto tp_geclipt doublepath tp graph_with_pen_and_color(q) dashed dashpart q ;
+ clip tp_geclipt to origin--(xpart Z_.graph_dimensions,0)--Z_.graph_dimensions--(0, ypart Z_.graph_dimensions)--cycle ;
+ addto @# also tp_geclipt ;
%%%
%%% --- SDV deleted
- %%addto @# doublepath tp graph_with_pen_and_color(q) dashed dashpart q;
+ %%addto @# doublepath tp graph_with_pen_and_color(q) dashed dashpart q ;
%%%
- elseif filled q:
- path p; p=pathpart q;
- addto @# contour tp graph_with_pen_and_color(q);
- else:
- interim truecorners:=0;
- pair p; p=llcorner q;
- if urcorner q<>p: p:=p+graph_coordinate_multiplication(o-p,urcorner q-p); fi
- addto @# also q shifted ((tp)-llcorner q);
+ elseif filled q :
+ path p ; p=pathpart q;
+ addto @# contour tp graph_with_pen_and_color(q) ;
+ else :
+ interim truecorners :=0 ;
+ pair p ; p=llcorner q;
+ if urcorner q<>p : p :=p+graph_coordinate_multiplication(o-p,urcorner q-p) ; fi
+ addto @# also q shifted ((tp)-llcorner q) ;
fi
-enddef;
+enddef ;
-def graph_coordinate_multiplication(expr a,b) = (xpart a*xpart b, ypart a*ypart b) enddef;
+def graph_coordinate_multiplication(expr a,b) = (xpart a*xpart b, ypart a*ypart b) enddef ;
-vardef graph_clear_bounds@# = numeric @#.low, @#.high; enddef;
+vardef graph_clear_bounds@# = numeric @#.low, @#.high ; enddef;
% Finalize anything drawn in the present coordinate system and set up a new
% system as requested
vardef setcoords(expr tx, ty) =
- interim warningcheck:=0;
- if length graph_current_graph>0:
- save s, S, T;
- graph_remap(s, S, T);
- for q within graph_current_graph:
- graph_picture_conversion.graph_finished_graph(q, -s, p shifted s transformed S transformed T);
+ interim warningcheck :=0 ;
+ if length graph_current_graph>0 :
+ save s, S, T ;
+ graph_remap(s, S, T) ;
+ for q within graph_current_graph :
+ graph_picture_conversion.graph_finished_graph(q,-s,p shifted s transformed S transformed T) ;
endfor
- graph_current_graph := graph_current_bb := nullpicture;
+ graph_current_graph := graph_current_bb := nullpicture ;
fi
- graph_clear_bounds.X_; graph_clear_bounds.Y_;
- X_.graph_coordinate_type:=tx; Y_.graph_coordinate_type:=ty;
-enddef;
+ graph_clear_bounds.X_ ; graph_clear_bounds.Y_;
+ X_.graph_coordinate_type := tx ; Y_.graph_coordinate_type := ty;
+enddef ;
% Set Z_.low and Z_.high to correspond to given range of user graph
% coordinates. The text argument should be a sequence of pairs and/or strings
% with 4 components in all.
vardef setrange(text t) =
- interim warningcheck:=0;
- save r_; r_=0;
- string r_[]s;
+ interim warningcheck :=0 ;
+ save r_ ; r_=0;
+ string r_[]s ;
for x_=
- for p_=t: if pair p_: xpart p_, ypart fi p_, endfor:
- r_[incr r_] if string x_: s fi = x_;
- if r_>2:
- graph_set_bounds if r_=3: X_ else: Y_ fi(r_[r_-2] if unknown r_[r_-2]: s fi, x_);
+ for p_=t : if pair p_ : xpart p_, ypart fi p_, endfor :
+ r_[incr r_] if string x_ : s fi = x_ ;
+ if r_>2 :
+ graph_set_bounds if r_=3 : X_ else : Y_ fi (r_[r_-2] if unknown r_[r_-2] : s fi, x_) ;
fi
- exitif r_=4;
+ exitif r_=4 ;
endfor
-enddef;
+enddef ;
-% @# is X_ or Y_; l and h are numeric or string
-% It would not be OK to set (@#low,@#high) to a pair expression because $ might
-% try to rescale @#low when evaluating the right-hand side for @#high.
+% @# is X_ or Y_ ; l and h are numeric or string
vardef graph_set_bounds@#(expr l, h) =
- graph_clear_bounds@#;
- if @#graph_coordinate_type>0:
- @#low = if abs @#graph_coordinate_type=log: graph_mlog fi if string l : scantokens fi l;
- @#high = if abs @#graph_coordinate_type=log: graph_mlog fi if string h : scantokens fi h;
- else:
- -@#high = if abs @#graph_coordinate_type=log: graph_mlog fi if string l : scantokens fi l;
- -@#low = if abs @#graph_coordinate_type=log: graph_mlog fi if string h : scantokens fi h;
+ graph_clear_bounds@# ;
+ if @#graph_coordinate_type>0 :
+ @#low = if unknown l :
+ whatever
+ else :
+ if abs @#graph_coordinate_type=log : graph_mlog fi if string l : scantokens fi l
+ fi ;
+ @#high = if unknown h :
+ whatever
+ else :
+ if abs @#graph_coordinate_type=log : graph_mlog fi if string h : scantokens fi h
+ fi ;
+ else :
+ -@#high = if unknown l :
+ whatever
+ else :
+ if abs @#graph_coordinate_type=log : graph_mlog fi if string l : scantokens fi l
+ fi ;
+ -@#low = if unknown h :
+ whatever
+ else :
+ if abs @#graph_coordinate_type=log : graph_mlog fi if string h : scantokens fi h
+ fi ;
fi
-enddef;
+enddef ;
@@ -330,36 +351,37 @@ enddef;
% x and y parts of each coordinate pair. Boolean parameter c tells whether to
% force the result to be polygonal.
vardef graph_scan_path(expr p, c)(suffix tx, ty) =
- if (str tx="") and (str ty=""): p
- else:
- save r_; path r_;
+ if (str tx="") and (str ty="") : p
+ else :
+ save r_ ; path r_;
r_ := graph_pair_adjust(point 0 of p, tx, ty)
- if path p:
- for t=1 upto length p:
- if c: --
- else: ..controls graph_pair_adjust(postcontrol(t-1) of p, tx, ty)
+ if path p :
+ for t=1 upto length p :
+ if c : --
+ else : ..controls graph_pair_adjust(postcontrol(t-1) of p, tx, ty)
and graph_pair_adjust(precontrol t of p, tx, ty) ..
fi
graph_pair_adjust(point t of p, tx, ty)
endfor
- if cycle p: &cycle fi
- fi;
- if pair p: point 0 of fi r_
+ if cycle p : &cycle fi
+ fi ;
+ if pair p : point 0 of fi r_
fi
-enddef;
-vardef graph_pair_adjust(expr p)(suffix tx, ty) = (tx xpart p, ty ypart p) enddef;
+enddef ;
+vardef graph_pair_adjust(expr p)(suffix tx, ty) = (tx xpart p, ty ypart p) enddef ;
% Convert path p from user graph coords to internal graph coords.
vardef graph_convert_user_path_to_internal primary p =
- interim warningcheck:=0;
- graph_scan_path(p, (abs X_.graph_coordinate_type<>linear) or (abs Y_.graph_coordinate_type<>linear),
- if abs X_.graph_coordinate_type=log: graph_mlog fi,
- if abs Y_.graph_coordinate_type=log: graph_mlog fi)
+ interim warningcheck :=0 ;
+ graph_scan_path(p,
+ (abs X_.graph_coordinate_type<>linear) or (abs Y_.graph_coordinate_type<>linear),
+ if abs X_.graph_coordinate_type=log : graph_mlog fi,
+ if abs Y_.graph_coordinate_type=log : graph_mlog fi)
transformed (identity
- if X_.graph_coordinate_type<0: xscaled -1 fi
- if Y_.graph_coordinate_type<0: yscaled -1 fi)
-enddef;
+ if X_.graph_coordinate_type<0 : xscaled -1 fi
+ if Y_.graph_coordinate_type<0 : yscaled -1 fi)
+enddef ;
% Convert label location t_ from user graph coords to internal graph coords.
@@ -367,23 +389,23 @@ enddef;
% or a single item of non-pair type, just return t_. Unknown coordinates
% produce unknown components in the result.
vardef graph_label_convert_user_to_internal(text t_) =
- save n_; n_=0;
- interim warningcheck:=0;
- if 0 for x_=t_: +1 if pair x_: +1 fi endfor <= 1:
+ save n_ ; n_=0;
+ interim warningcheck :=0 ;
+ if 0 for x_=t_ : +1 if pair x_ : +1 fi endfor <= 1 :
t_
- else:
- n_0 = n_1 = 0;
+ else :
+ n_0 = n_1 = 0 ;
point 0 of graph_convert_user_path_to_internal (
for x_=
- for y_=t_: if pair y_: xpart y_, ypart fi y_, endfor
- 0, 0:
- if known x_: if string x_ : scantokens fi x_
- else: hide(n_[n_]:=whatever) 0
+ for y_=t_ : if pair y_ : xpart y_, ypart fi y_, endfor
+ 0, 0 :
+ if known x_ : if string x_ : scantokens fi x_
+ else : hide(n_[n_] :=whatever) 0
fi
- exitif incr n_=2;
+ exitif incr n_=2 ;
,endfor) + (n_0,n_1)
fi
-enddef;
+enddef ;
@@ -393,57 +415,58 @@ enddef;
% initial "%", and return true if at least one token is found. The tokens
% are stored in @#1, @#2, .. with "" in the last @#[] entry.
vardef graph_read_line@#(expr f) =
- save n_, s_; string s_;
- s_ = readfrom f;
- string @#[];
- if s_<>EOF:
- @#1 := loptok s_;
- n_ = if @#1="%": 0 else: 1 fi;
- forever:
- @#[incr n_] := loptok s_;
- exitif @#[n_]="";
+ save n_, s_ ; string s_;
+ s_ = readfrom f ;
+ string @#[] ;
+ if s_<>EOF :
+ @#0 := s_ ;
+ @#1 := loptok s_ ;
+ n_ = if @#1="%" : 0 else : 1 fi ;
+ forever :
+ @#[incr n_] := loptok s_ ;
+ exitif @#[n_]="" ;
endfor
@#1<>""
- else: false
+ else : false
fi
-enddef;
+enddef ;
% Execute c for each line of data read from file f, and stop at the first
% line with no data. Commands c can use line number i and tokens $1, $2, ...
def gdata(expr f)(suffix $)(text c) =
- for i=1 upto infinity:
- exitunless graph_read_line$(f);
+ for i=1 upto infinity :
+ exitunless graph_read_line$(f) ;
c
endfor
-enddef;
+enddef ;
% Read a path from file f. The path is terminated by blank line or EOF.
vardef graph_readpath(expr f) =
- interim warningcheck:=0;
- save s;
- gdata(f, s, if i>1:--fi
- if s2="": ( i, scantokens s1)
- else: (scantokens s1, scantokens s2) fi
+ interim warningcheck :=0 ;
+ save s ;
+ gdata(f, s, if i>1 :--fi
+ if s2="" : ( i, scantokens s1)
+ else : (scantokens s1, scantokens s2) fi
)
-enddef;
+enddef ;
% Append coordinates t to polygonal path @#. The coordinates can be numerics,
% strings, or a single pair.
vardef augment@#(text t) =
- interim warningcheck := 0;
- if not path begingroup @# endgroup:
- Gerr(begingroup @# endgroup, "Cannot augment--not a path");
- else:
- def graph_comma= hide(def graph_comma=,enddef) enddef;
- if known @#: @#:=@#-- else: @#= fi
- (for p=t:
- graph_comma if string p: scantokens fi p
- endfor);
+ interim warningcheck := 0 ;
+ if not path begingroup @# endgroup :
+ Gerr(begingroup @# endgroup, "Cannot augment--not a path") ;
+ else :
+ def graph_comma= hide(def graph_comma=,enddef) enddef ;
+ if known @# : @# :=@#-- else : @#= fi
+ (for p=t :
+ graph_comma if string p : scantokens fi p
+ endfor) ;
fi
-enddef;
+enddef ;
@@ -452,109 +475,113 @@ enddef;
% Unknown pair components are set to 0 because glabel and gdotlabel understand
% unknown coordinates as `0 in absolute units'.
vardef graph_unknown_pair_bbox(expr p) =
- if known p: addto graph_current_bb doublepath p;
- else:
- save x,y;
- z = llcorner graph_current_bb;
- if unknown xpart p: xpart p= else: x:= fi 0;
- if unknown ypart p: ypart p= else: y:= fi 0;
- addto graph_current_bb doublepath (p+z);
+ if known p : addto graph_current_bb doublepath p ;
+ else :
+ save x,y ;
+ z = llcorner graph_current_bb ;
+ if unknown xpart p : xpart p= else : x := fi 0 ;
+ if unknown ypart p : ypart p= else : y := fi 0 ;
+ addto graph_current_bb doublepath (p+z) ;
fi
- graph_current_bb := image(fill llcorner graph_current_bb..urcorner graph_current_bb--cycle);
-enddef;
+ graph_current_bb := image(fill llcorner graph_current_bb..urcorner graph_current_bb--cycle) ;
+enddef ;
% Initiate a gdraw or gfill command. This must be done before scanning the
% argument, because that could invoke the `if known graph_plot_picture' test in a following
% plot option .
-def graph_addto = graph_last_drawn:=graph_plot_picture:=nullpicture; addto graph_last_drawn enddef;
+def graph_addto =
+ graph_last_drawn := graph_plot_picture := nullpicture ; addto graph_last_drawn
+enddef;
% Handle the part of a Gdraw command that uses path or data file p.
def graph_draw expr p =
- if string p: graph_convert_user_path_to_internal graph_readpath(p)
- elseif path p or pair p: graph_convert_user_path_to_internal p
- else: graph_error(p,"gdraw argument should be a data file or a path")
+ if string p : graph_convert_user_path_to_internal graph_readpath(p)
+ elseif path p or pair p : graph_convert_user_path_to_internal p
+ else : graph_error(p,"gdraw argument should be a data file or a path")
origin
fi
withpen currentpen graph_withlist _op_
-enddef;
+enddef ;
% Handle the part of a Gdraw command that uses path or data file p.
def graph_fill expr p =
- if string p: graph_convert_user_path_to_internal graph_readpath(p) --cycle
- elseif cycle p: graph_convert_user_path_to_internal p
- else: graph_error(p,"gfill argument should be a data file or a cyclic path")
+ if string p : graph_convert_user_path_to_internal graph_readpath(p) --cycle
+ elseif cycle p : graph_convert_user_path_to_internal p
+ else : graph_error(p,"gfill argument should be a data file or a cyclic path")
origin..cycle
fi graph_withlist _op_
-enddef;
+enddef ;
-def gdraw = graph_addto doublepath graph_draw enddef;
-def gfill = graph_addto contour graph_fill enddef;
+def gdraw = graph_addto doublepath graph_draw enddef ;
+def gfill = graph_addto contour graph_fill enddef ;
% This is used in graph_draw and graph_fill to allow postprocessing graph_last_drawn
-def graph_withlist text t_ = t_; graph_post_draw; enddef;
+def graph_withlist text t_ = t_ ; graph_post_draw; enddef;
% Set graph_plot_picture so the postprocessing step will plot picture p at each path knot.
% Also select nullpen to suppress stroking.
def plot expr p =
- if known graph_plot_picture:
+ if known graph_plot_picture :
withpen nullpen
- hide (graph_plot_picture:=image(
- if bounded p: for q within p: graph_addto_currentpicture q endfor % Save memory
- else: graph_addto_currentpicture p
+ hide (graph_plot_picture :=image(
+ if bounded p : for q within p : graph_addto_currentpicture q endfor % Save memory
+ else : graph_addto_currentpicture p
fi graph_setbounds origin..cycle))
fi
-enddef;
+enddef ;
% This hides a semicolon that could prematurely end graph_withlist's text argument
-def graph_addto_currentpicture primary p = addto currentpicture also p; enddef;
-def graph_setbounds = setbounds currentpicture to enddef;
+def graph_addto_currentpicture primary p = addto currentpicture also p ; enddef;
+def graph_setbounds = setbounds currentpicture to enddef ;
-def gdrawarrow = graph_number_of_arrowheads:=1; gdraw enddef;
-def gdrawdblarrow = graph_number_of_arrowheads:=2; gdraw enddef;
+def gdrawarrow = graph_number_of_arrowheads :=1 ; gdraw enddef;
+def gdrawdblarrow = graph_number_of_arrowheads :=2 ; gdraw enddef;
-% Post-process the filled or stroked picture graph_last_drawn as follows: (1) update
-% the bounding box information; (2) transfer it to graph_current_graph unless the pen has
-% been set to nullpen to disable stroking; (3) plot graph_plot_picture at each knot.
+% Post-process the filled or stroked picture graph_last_drawn as follows : (1) update
+% the bounding box information ; (2) transfer it to graph_current_graph unless the pen has
+% been set to nullpen to disable stroking ; (3) plot graph_plot_picture at each knot.
vardef graph_post_draw =
- save p;
- path p; p=pathpart graph_last_drawn;
- graph_unknown_pair_bbox(p);
- if filled graph_last_drawn or not graph_is_null(penpart graph_last_drawn):
- addto graph_current_graph also graph_last_drawn;
+ save p ;
+ path p ; p=pathpart graph_last_drawn;
+ graph_unknown_pair_bbox(p) ;
+ if filled graph_last_drawn or not graph_is_null(penpart graph_last_drawn) :
+ addto graph_current_graph also graph_last_drawn ;
fi
- if length graph_plot_picture>0:
- for i=0 upto length p if cycle p: -1 fi:
- addto graph_current_graph also graph_plot_picture shifted point i of p;
+ if length graph_plot_picture>0 :
+ for i=0 upto length p if cycle p : -1 fi :
+ addto graph_current_graph also graph_plot_picture shifted point i of p ;
endfor
- picture graph_plot_picture;
+ picture graph_plot_picture ;
fi
- if graph_number_of_arrowheads>0:
- graph_draw_arrowhead(p, graph_with_pen_and_color(graph_last_drawn));
- if graph_number_of_arrowheads>1: graph_draw_arrowhead(reverse p, graph_with_pen_and_color(graph_last_drawn)); fi
- graph_number_of_arrowheads:=0;
+ if graph_number_of_arrowheads>0 :
+ graph_draw_arrowhead(p, graph_with_pen_and_color(graph_last_drawn)) ;
+ if graph_number_of_arrowheads>1 :
+ graph_draw_arrowhead(reverse p, graph_with_pen_and_color(graph_last_drawn)) ;
+ fi
+ graph_number_of_arrowheads :=0 ;
fi
-enddef;
-vardef graph_is_null(expr p) = (urcorner p=origin) and (llcorner p=origin) enddef;
+enddef ;
+vardef graph_is_null(expr p) = (urcorner p=origin) and (llcorner p=origin) enddef ;
-vardef graph_draw_arrowhead(expr p)(text w) = % Draw arrowhead for path p, with list w
+vardef graph_draw_arrowhead(expr p)(text w) = % Draw arrowhead for path p, with list w
addto graph_current_graph also
image(filldraw arrowhead(
- graph_arrowhead_extent(precontrol infinity of p, point infinity of p)) w;
- graph_setbounds point infinity of p..cycle);
-enddef;
+ graph_arrowhead_extent(precontrol infinity of p, point infinity of p)) w ;
+ graph_setbounds point infinity of p..cycle) ;
+enddef ;
vardef graph_arrowhead_extent(expr p, q) =
- if p<>q: (q - 100pt*unitvector(q-p)) -- fi
+ if p<>q : (q - 100pt*unitvector(q-p)) -- fi
q
-enddef;
+enddef ;
@@ -562,46 +589,46 @@ enddef;
% Argument c is a drawing command that needs an additional argument p that gives
% a location in internal graph coords. Draw in graph_current_graph enclosed in a setbounds
-% path. Unknown components of p cause the setbounds path to have width or
-% height 1 instead of 0. Then graph_unknown_pair_bbox sets these components to 0 and graph_picture_conversion
+% path. Unknown components of p cause the setbounds path to have width or height 1 instead of 0.
+% Then graph_unknown_pair_bbox sets these components to 0 and graph_picture_conversion
% suppresses subsequent repositioning.
def graph_draw_label(expr p)(suffix $)(text c) =
- save sdim_; pair sdim_;
- sdim_ := (if unknown xpart p: 1+ fi 0, if unknown ypart p: 1+ fi 0);
- graph_unknown_pair_bbox(p);
+ save sdim_ ; pair sdim_;
+ sdim_ := (if unknown xpart p : 1+ fi 0, if unknown ypart p : 1+ fi 0) ;
+ graph_unknown_pair_bbox(p) ;
addto graph_current_graph also
- image(c(p); graph_setbounds p--p+sdim_--cycle) _op_
-enddef;
+ image(c(p) ; graph_setbounds p--p+sdim_--cycle) _op_
+enddef ;
% Stash the result drawing command c in the graph_label table using with list w and
% an index based on angle laboff$.
vardef graph_stash_label(suffix $)(text c) text w =
- graph_label[1.5+angle laboff$ /90] = image(c(origin) w);
-enddef;
+ graph_label[1.5+angle laboff$ /90] = image(c(origin) w) ;
+enddef ;
def graph_label_location primary p =
- if pair p: graph_draw_label(p)
- elseif numeric p: graph_draw_label(point p of pathpart graph_last_drawn)
- else: graph_stash_label
+ if pair p : graph_draw_label(p)
+ elseif numeric p : graph_draw_label(point p of pathpart graph_last_drawn)
+ else : graph_stash_label
fi
-enddef;
+enddef ;
% Place label p at user graph coords t using with list w. (t is a time, a pair
% or 2 numerics or strings).
vardef glabel@#(expr p)(text t) text w =
- graph_label_location graph_label_convert_user_to_internal(t) (@#,label@#(p)) w; enddef;
+ graph_label_location graph_label_convert_user_to_internal(t) (@#,label@#(p)) w ; enddef;
% Place label p at user graph coords t using with list w and draw a dot there.
% (t is a time, a pair, or 2 numerics or strings).
vardef gdotlabel@#(expr p)(text t) text w =
- graph_label_location graph_label_convert_user_to_internal(t) (@#,dotlabel@#(p)) w; enddef;
+ graph_label_location graph_label_convert_user_to_internal(t) (@#,dotlabel@#(p)) w ; enddef;
-def OUT = enddef; % location text for outside labels
+def OUT = enddef ; % location text for outside labels
@@ -610,32 +637,32 @@ def OUT = enddef; % location text for outside labels
% Grid lines and tick marks are transformed versions of the templates below.
% In the template paths, (0,0) is on the edge of the frame and inward is to
% the right.
-path Gtemplate.itick, Gtemplate.otick, Gtemplate.grid;
-Gtemplate.itick = origin--(7bp,0);
-Gtemplate.otick = (-7bp,0)--origin;
-Gtemplate.grid = origin--(1,0);
+path Gtemplate.itick, Gtemplate.otick, Gtemplate.grid ;
+Gtemplate.itick = origin--(7bp,0) ;
+Gtemplate.otick = (-7bp,0)--origin ;
+Gtemplate.grid = origin--(1,0) ;
-vardef itick@#(expr f,u) text w = graph_tick_label(@#,@,false,f,u,w); enddef;
+vardef itick@#(expr f,u) text w = graph_tick_label(@#,@,false,f,u,w) ; enddef;
-vardef otick@#(expr f,u) text w = graph_tick_label(@#,@,false,f,u,w); enddef;
+vardef otick@#(expr f,u) text w = graph_tick_label(@#,@,false,f,u,w) ; enddef;
-vardef grid@#(expr f,u) text w = graph_tick_label(@#,@,true,f,u,w); enddef;
+vardef grid@#(expr f,u) text w = graph_tick_label(@#,@,true,f,u,w) ; enddef;
% Produce a tick or grid mark for label suffix $, Gtemplate suffix $$,
% coordinate value u, and with list w. Boolean c tells whether Gtemplate$$
-% needs scaling by X_.graph_dimensions or Y_.graph_dimensions, and f gives a format string or a label
-% picture.
+% needs scaling by X_.graph_dimensions or Y_.graph_dimensions,
+% and f gives a format string or a label picture.
def graph_tick_label(suffix $,$$)(expr c, f, u)(text w) =
graph_draw_label(graph_label_convert_user_to_internal(graph_generate_label_position($,u)),,draw graph_gridline_picture$($$,c,f,u,w) shifted)
-enddef;
+enddef ;
% Generate label positioning arguments appropriate for label suffix $ and
% coordinate u.
def graph_generate_label_position(suffix $)(expr u) =
- if xpart laboff.$=0: u,whatever else: whatever,u fi
-enddef;
+ if xpart laboff.$=0 : u,whatever else : whatever,u fi
+enddef ;
% Generate a picture of a grid line labeled with coordinate value u, picture
@@ -643,218 +670,223 @@ enddef;
% suffix $ identifies entries in the Gtemplate table, and boolean c tells
% whether to scale Gtemplate$.
vardef graph_gridline_picture@#(suffix $)(expr c, f, u)(text w) =
- if unknown u: graph_error(u,"Label coordinate should be known"); nullpicture
- else:
- save p; path p;
- interim warningcheck:=0;
- graph_autogrid_needed:=false;
+ if unknown u : graph_error(u,"Label coordinate should be known") ; nullpicture
+ else :
+ save p ; path p;
+ interim warningcheck :=0 ;
+ graph_autogrid_needed :=false ;
p = Gtemplate$ zscaled -laboff@#
- if c: Gxyscale fi
- shifted (((.5 + laboff@# dotprod (.5,.5)) * laboff@#) Gxyscale);
- image(draw p w;
- label@#(if string f: format(f,u) else: f fi, point 0 of p))
+ if c : Gxyscale fi
+ shifted (((.5 + laboff@# dotprod (.5,.5)) * laboff@#) Gxyscale) ;
+ image(draw p w ;
+ label@#(if string f : format(f,u) else : f fi, point 0 of p))
fi
-enddef;
-def Gxyscale = xscaled X_.graph_dimensions yscaled Y_.graph_dimensions enddef;
+enddef ;
+def Gxyscale = xscaled X_.graph_dimensions yscaled Y_.graph_dimensions enddef ;
% Draw the frame or the part corresponding to label suffix @# using with list w.
vardef frame@# text w =
- graph_frame_needed:=false;
- picture p_;
+ graph_frame_needed :=false ;
+ picture p_ ;
p_ = image(draw
- if str@#<>"": subpath round(angle laboff@#*graph_frame_pair_a+graph_frame_pair_b) of fi
- unitsquare Gxyscale w);
- graph_draw_label((whatever,whatever),,draw p_ shifted);
-enddef;
-pair graph_frame_pair_a; graph_frame_pair_a=(1,1)/90; % unitsquare subpath is linear in label angle
-pair graph_frame_pair_b; graph_frame_pair_b=(.75,2.25);
+ if str@#<>"" : subpath round(angle laboff@#*graph_frame_pair_a+graph_frame_pair_b) of fi
+ unitsquare Gxyscale w) ;
+ graph_draw_label((whatever,whatever),,draw p_ shifted) ;
+enddef ;
+pair graph_frame_pair_a ; graph_frame_pair_a=(1,1)/90; % unitsquare subpath is linear in label angle
+pair graph_frame_pair_b ; graph_frame_pair_b=(.75,2.25);
%%%%%%%%%%%%%%%%%%%%%%%%%% Automatic grid selection %%%%%%%%%%%%%%%%%%%%%%%%%%
-string Glmarks[]; % marking options per decade for logarithmic scales
-string Gumarks; % mark spacing options per decade for linear scales
-string Gemarks; % exponent spacing options for logarithmic scales
-newinternal Gmarks, Gminlog;
-Gmarks := 4; % minimum number marks generated by auto.x or auto.y
-Gminlog := 3.0; % revert to uniform marks when largest/smallest < this
+string Glmarks[] ; % marking options per decade for logarithmic scales
+string Gumarks ; % mark spacing options per decade for linear scales
+string Gemarks ; % exponent spacing options for logarithmic scales
+newinternal Gmarks, Gminlog ;
+Gmarks := 4 ; % minimum number marks generated by auto.x or auto.y
+Gminlog := mlog 3 ; % revert to uniform marks when largest/smallest < this
-def Gfor(text t) = for i=t endfor enddef; % to shorten the mark templates below
-Glmarks[1]="1,2,5";
-Glmarks[2]="1,1.5,2,3,4,5,7";
-Glmarks[3]="1Gfor(6upto10:,i/5)Gfor(5upto10:,i/2)Gfor(6upto9:,i)";
-Glmarks[4]="1Gfor(11upto20:,i/10)Gfor(11upto25:,i/5)Gfor(11upto19:,i/2)";
-Glmarks[5]="1Gfor(21upto40:,i/20)Gfor(21upto50:,i/10)Gfor(26upto49:,i/5)";
-Gumarks="10,5,2"; % start with 10 and go down; a final `,1' is appended
-Gemarks="20,10,5,2,1";
+def Gfor(text t) = for i=t endfor enddef ; % to shorten the mark templates below
+Glmarks[1]="1,2,5" ;
+Glmarks[2]="1,1.5,2,3,4,5,7" ;
+Glmarks[3]="1Gfor(6upto10 :,i/5)Gfor(5upto10 :,i/2)Gfor(6upto9 :,i)" ;
+Glmarks[4]="1Gfor(11upto20 :,i/10)Gfor(11upto25 :,i/5)Gfor(11upto19 :,i/2)" ;
+Glmarks[5]="1Gfor(21upto40 :,i/20)Gfor(21upto50 :,i/10)Gfor(26upto49 :,i/5)" ;
+Gumarks="10,5,2" ; % start with 10 and go down; a final `,1' is appended
+Gemarks="20,10,5,2,1" ;
% Determine the X_ or Y_ bounds on the range to be covered by automatic grid
% marks. Suffix @# is X_ or Y_. The result is log or linear to specify the
% type of grid spacing to use. Bounds are returned in variables local to
-% begingraph..endgraph: pairs graph_modified_lower and graph_modified_higher
+% begingraph..endgraph : pairs graph_modified_lower and graph_modified_higher
% are upper and lower bounds in
% `modified exponential form'. In modified exponential form, (x,y) means
% (x/1000)*10^y, where 1000<=abs x<10000.
vardef graph_bounds@# =
- interim warningcheck:=0;
- save l, h;
- graph_set_default_bounds;
- if @#graph_coordinate_type>0: (l,h) else: -(h,l) fi = (@#low, @#high);
- if abs @#graph_coordinate_type=log:
- graph_modified_lower := graph_Meform(l)+graph_modified_bias;
- graph_modified_higher := graph_Meform(h)+graph_modified_bias;
- if h-l >=mlog Gminlog: log else: linear fi
- else:
- graph_modified_lower := graph_Feform(l)+graph_modified_bias;
- graph_modified_higher := graph_Feform(h)+graph_modified_bias;
+ interim warningcheck :=0 ;
+ save l, h ;
+ graph_set_default_bounds ;
+ if @#graph_coordinate_type>0 : (l,h) else : -(h,l) fi = (@#low, @#high) ;
+ if abs @#graph_coordinate_type=log :
+ graph_modified_lower := graph_Meform(l)+graph_modified_bias ;
+ graph_modified_higher := graph_Meform(h)+graph_modified_bias ;
+ if h-l >= Gminlog : log else : linear fi
+ else :
+ graph_modified_lower := graph_Feform(l)+graph_modified_bias ;
+ graph_modified_higher := graph_Feform(h)+graph_modified_bias ;
linear
fi
-enddef;
-pair graph_modified_bias; graph_modified_bias=(0,3);
-pair graph_modified_lower, graph_modified_higher;
+enddef ;
+pair graph_modified_bias ; graph_modified_bias=(0,3);
+pair graph_modified_lower, graph_modified_higher ;
% Scan Glmarks[k] and evaluate tokens t for each m where l<=m<=h.
def graph_scan_marks(expr k, l, h)(text t) =
- for m=scantokens Glmarks[k]:
- exitif m>h;
- if m>=l: t fi
+ for m=scantokens Glmarks[k] :
+ exitif m>h ;
+ if m>=l : t fi
endfor
-enddef;
+enddef ;
% Scan Gmark[k] and evaluate tokens t for each m and e where m*10^e belongs
% between l and h (inclusive), where both l and h are in modified exponent form.
def graph_scan_mark(expr k, l, h)(text t) =
- for e=ypart l upto ypart h:
- graph_scan_marks(k, if e>ypart l: 1 else: xpart l/1000 fi,
- if e<ypart h: 10 else: xpart h/1000 fi, t)
+ for e=ypart l upto ypart h :
+ graph_scan_marks(k, if e>ypart l : 1 else : xpart l/1000 fi,
+ if e<ypart h : 10 else : xpart h/1000 fi, t)
endfor
-enddef;
+enddef ;
% Select a k for which graph_scan_mark(k,...) gives enough marks.
vardef graph_select_mark =
- save k;
- k = 0;
- forever:
- exitif unknown Glmarks[k+1];
- exitif 0 graph_scan_mark(incr k, graph_modified_lower, graph_modified_higher, +1) >= Gmarks;
+ save k ;
+ k = 0 ;
+ forever :
+ exitif unknown Glmarks[k+1] ;
+ exitif 0 graph_scan_mark(incr k, graph_modified_lower, graph_modified_higher, +1) >= Gmarks ;
endfor
k
-enddef;
+enddef ;
% Try to select an exponent spacing from Gemarks. If successful, set @# and
% return true
vardef graph_select_exponent_mark@# =
- numeric @#;
- for e=scantokens Gemarks:
- @# = e;
- exitif floor(ypart graph_modified_higher/e)-floor(graph_modified_exponent_ypart(graph_modified_lower)/e) >= Gmarks;
- numeric @#;
+ numeric @# ;
+ for e=scantokens Gemarks :
+ @# = e ;
+ exitif floor(ypart graph_modified_higher/e) -
+ floor(graph_modified_exponent_ypart(graph_modified_lower)/e) >= Gmarks ;
+ numeric @# ;
endfor
known @#
-enddef;
+enddef ;
-vardef graph_modified_exponent_ypart(expr p) = ypart p if xpart p=1000: -1 fi enddef;
+vardef graph_modified_exponent_ypart(expr p) = ypart p if xpart p=1000 : -1 fi enddef ;
% Compute the mark spacing d between xpart graph_modified_lower and xpart graph_modified_higher.
vardef graph_tick_mark_spacing =
- interim warningcheck:=0;
- save m, n, d;
- m = Gmarks;
+ interim warningcheck :=0 ;
+ save m, n, d ;
+ m = Gmarks ;
n = 1 for i=1 upto
- (mlog(xpart graph_modified_higher-xpart graph_modified_lower) - mlog m)/mlogten:
- *10 endfor;
- if n<=1000:
- for x=scantokens Gumarks:
- d = n*x;
- exitif 0 graph_generate_numbers(d,+1)>=m;
- numeric d;
+ (mlog(xpart graph_modified_higher-xpart graph_modified_lower) - mlog m)/mlogten :
+ *10 endfor ;
+ if n<=1000 :
+ for x=scantokens Gumarks :
+ d = n*x ;
+ exitif 0 graph_generate_numbers(d,+1)>=m ;
+ numeric d ;
endfor
fi
- if known d: d else: n fi
-enddef;
+ if known d : d else : n fi
+enddef ;
def graph_generate_numbers(expr d)(text t) =
- for m = d*ceiling(xpart graph_modified_lower/d) step d until xpart graph_modified_higher:
+ for m = d*ceiling(xpart graph_modified_lower/d) step d until xpart graph_modified_higher :
t
endfor
-enddef;
+enddef ;
% Evaluate tokens t for exponents e in multiples of d in the range determined
% by graph_modified_lower and graph_modified_higher.
def graph_generate_exponents(expr d)(text t) =
for e = d*floor(graph_modified_exponent_ypart(graph_modified_lower)/d+1)
- step d until d*floor(ypart graph_modified_higher/d): t
+ step d until d*floor(ypart graph_modified_higher/d) : t
endfor
-enddef;
+enddef ;
-% Adjust graph_modified_lower and graph_modified_higher so their exponent parts match and they are in true
-% exponent form ((x,y) means x*10^y). Return the new exponent.
+% Adjust graph_modified_lower and graph_modified_higher so their exponent parts match
+% and they are in true exponent form ((x,y) means x*10^y). Return the new exponent.
vardef graph_match_exponents =
- interim warningcheck := 0;
- save e;
- e+3 = if graph_modified_lower=graph_modified_bias: ypart graph_modified_higher
- elseif graph_modified_higher=graph_modified_bias: ypart graph_modified_lower
- else: max(ypart graph_modified_lower, ypart graph_modified_higher) fi;
- forsuffixes $=graph_modified_lower, graph_modified_higher:
- $ := (xpart $ for i=ypart $ upto e+2: /(10) endfor, e);
+ interim warningcheck := 0 ;
+ save e ;
+ e+3 = if graph_modified_lower=graph_modified_bias : ypart graph_modified_higher
+ elseif graph_modified_higher=graph_modified_bias : ypart graph_modified_lower
+ else : max(ypart graph_modified_lower, ypart graph_modified_higher) fi ;
+ forsuffixes $=graph_modified_lower, graph_modified_higher :
+ $ := (xpart $ for i=ypart $ upto e+2 : /(10) endfor, e) ;
endfor
e
-enddef;
+enddef ;
% Assume e is an integer and either m=0 or 1<=abs(m)<10000. Find m*(10^e)
% and represent the result as a string if its absolute value would be at least
% 4096 or less than .1. It is OK to return 0 as a string or a numeric.
vardef graph_factor_and_exponent_to_string(expr m, e) =
- if (e>3)or(e<-4):
+ if (e>3)or(e<-4) :
decimal m & "e" & decimal e
- elseif e>=0:
- if abs m<infinity/Ten_to[e]:
+ elseif e>=0 :
+ if abs m<infinity/Ten_to[e] :
m*Ten_to[e]
- else: decimal m & "e" & decimal e
+ else : decimal m & "e" & decimal e
fi
- else:
- save x; x=m/Ten_to[-e];
- if abs x>=.1: x else: decimal m & "e" & decimal e fi
+ else :
+ save x ; x=m/Ten_to[-e];
+ if abs x>=.1 : x else : decimal m & "e" & decimal e fi
fi
-enddef;
+enddef ;
def auto suffix $ =
hide(def graph_comma= hide(def graph_comma=,enddef) enddef)
- if graph_bounds.graph_suffix($)=log:
- if graph_select_exponent_mark.graph_exponent: graph_generate_exponents(graph_exponent, graph_comma graph_factor_and_exponent_to_string(1,e))
- else:
- graph_scan_mark(graph_select_mark, graph_modified_lower, graph_modified_higher, graph_comma graph_factor_and_exponent_to_string(m,e))
+ if graph_bounds.graph_suffix($)=log :
+ if graph_select_exponent_mark.graph_exponent :
+ graph_generate_exponents(graph_exponent,
+ graph_comma graph_factor_and_exponent_to_string(1,e))
+ else :
+ graph_scan_mark(graph_select_mark, graph_modified_lower, graph_modified_higher,
+ graph_comma graph_factor_and_exponent_to_string(m,e))
fi
- else:
- hide(graph_exponent:=graph_match_exponents)
- graph_generate_numbers(graph_tick_mark_spacing, graph_comma graph_factor_and_exponent_to_string(m,graph_exponent))
+ else :
+ hide(graph_exponent :=graph_match_exponents)
+ graph_generate_numbers(graph_tick_mark_spacing,
+ graph_comma graph_factor_and_exponent_to_string(m,graph_exponent))
fi
-enddef;
+enddef ;
-string Autoform; Autoform = "%g";
+string Autoform ; Autoform = "%g";
%vardef autogrid(suffix tx, ty) text w =
-% graph_autogrid_needed:=false;
-% if str tx<>"": for x=auto.x: tx(Autoform,x) w; endfor fi
-% if str ty<>"": for y=auto.y: ty(Autoform,y) w; endfor fi
-%enddef;
+% graph_autogrid_needed :=false ;
+% if str tx<>"" : for x=auto.x : tx(Autoform,x) w ; endfor fi
+% if str ty<>"" : for y=auto.y : ty(Autoform,y) w ; endfor fi
+%enddef ;
-% We redefine autogrid from graph.mp adding the possibility of differing X and Y
+% We redefine autogrid, adding the possibility of differing X and Y
% formats.
% string Autoform_X ; Autoform_X := "@.0e" ;
@@ -900,21 +932,21 @@ enddef ;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% endgraph %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
def endgraph =
- if graph_autogrid_needed: autogrid(otick.bot, otick.lft); fi
- if graph_frame_needed: frame; fi
- setcoords(linear,linear);
- interim truecorners:=1;
- for b=bbox graph_finished_graph:
- setbounds graph_finished_graph to b;
- for i=0 step .5 until 3.5:
- if known graph_label[i]:
- addto graph_finished_graph also graph_label[i] shifted point i of b;
+ if graph_autogrid_needed : autogrid(otick.bot, otick.lft) ; fi
+ if graph_frame_needed : frame ; fi
+ setcoords(linear,linear) ;
+ interim truecorners :=1 ;
+ for b=bbox graph_finished_graph :
+ setbounds graph_finished_graph to b ;
+ for i=0 step .5 until 3.5 :
+ if known graph_label[i] :
+ addto graph_finished_graph also graph_label[i] shifted point i of b ;
fi
endfor
endfor
graph_finished_graph
endgroup
-enddef;
+enddef ;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@@ -935,18 +967,18 @@ vardef escaped_format(expr s) =
enddef ;
vardef strfmt(expr f, x) =
- "\MPgraphformat{" & escaped_format(f) & "}{" & (if string x : x else: decimal x fi) & "}"
+ "\MPgraphformat{" & escaped_format(f) & "}{" & (if string x : x else : decimal x fi) & "}"
enddef ;
vardef format(expr f, x) = textext(strfmt(f, x)) enddef ;
-% A couple of extensions:
+% A couple of extensions :
-% Define a function plotsymbol() returning a picture: 10 different shapes,
+% Define a function plotsymbol() returning a picture : 10 different shapes,
% unfilled outline, interior filled with different shades of the background.
% This allows overlapping points on a plot to be more distinguishable.
-vardef graph_shapesize = .35BodyFontSize enddef ;
+vardef graph_shapesize = .33BodyFontSize enddef ;
path graph_shape[] ; % (internal) symbol path
@@ -1005,9 +1037,9 @@ endfor cycle ;
graph_shape[34] := graph_shape[24] rotated 45 ;
-% usage: gdraw p plot plotsymbol(1,red,1) ; % a filled red circle
-% usage: gdraw p plot plotsymbol(14,blue,0) ; % a blue square
-% usage: gdraw p plot plotsymbol(4,green,0.5) ; % a 50% filled green diamond
+% usage : gdraw p plot plotsymbol(1,red,1) ; % a filled red circle
+% usage : gdraw p plot plotsymbol(14,blue,0) ; % a blue square
+% usage : gdraw p plot plotsymbol(4,green,0.5) ; % a 50% filled green diamond
def stars(expr c, f) = plotsymbol(25,c,f) enddef ; % a 5-point star
def points(expr c, f) = plotsymbol( 0,c,f) enddef ;
@@ -1045,6 +1077,19 @@ def plotsymbol(expr n,c,f) = % (number,color,color|number)
fi
enddef ;
+% standard resistance color code: rainbow sequence (from /usr/share/X11/rgb.txt)
+color resistance_color[] ; string resistance_name[] ;
+resistance_color0 = (0,0,0) ; resistance_name0 = "black" ;
+resistance_color1 = (165/255,42/255,42/255) ; resistance_name1 = "brown" ;
+resistance_color2 = (1,0,0) ; resistance_name2 = "red" ;
+resistance_color3 = (1,165/255,0) ; resistance_name3 = "orange" ;
+resistance_color4 = (1,1,0) ; resistance_name4 = "yellow" ;
+resistance_color5 = (0,1,0) ; resistance_name5 = "green" ;
+resistance_color6 = (0,0,1) ; resistance_name6 = "blue" ;
+resistance_color7 = (148/255,0,211/255) ; resistance_name7 = "darkviolet" ;
+resistance_color8 = (190/255,190/255,190/255) ; resistance_name8 = "gray" ;
+resistance_color9 = (1,1,1) ; resistance_name9 = "white" ;
+
% The following extensions are not specific to graph and could be moved to metafun...
% sort a path. Efficient en memory use, not so efficient in sorting long paths...
@@ -1094,7 +1139,7 @@ enddef ;
% shift a path, point by point
%
-% example:
+% example :
%
% p1 := addnoisetopath(p0,(.1normaldeviate,.1normaldeviate)) ;
@@ -1103,7 +1148,7 @@ vardef addnoisetopath (suffix p) (text t) =
hide(pair p_i)
(for i=0 upto length p :
if i>0 : -- fi
- hide(p_i := point i of p; x := xpart p_i; y := ypart p_i)z shifted t
+ hide(p_i := point i of p ; x := xpart p_i; y := ypart p_i)z shifted t
endfor)
fi
enddef ;
@@ -1119,7 +1164,7 @@ enddef ;
% least-squares "fit" to a polynomial
%
-% example:
+% example :
%
% path p[] ;
% numeric a[] ; a0 := 1 ; a1 := .1 ; a2 := .01 ; a3 := .001 ; a4 := 0.0001 ;
@@ -1136,7 +1181,7 @@ enddef ;
% linear_fit(p1, c, 1) ;
% gdraw functionpath(p1,linear_function(c,x)) dashed evenly ;
-% a polynomial function:
+% a polynomial function :
%
% y = a0 + a1 * x + a2 * x^2 + ... + a[n] * x^n
@@ -1144,7 +1189,7 @@ vardef polynomial_function (suffix $) (expr n, x) =
(for j=0 upto n : + $[j]*(x**j) endfor) % no ;
enddef ;
-% find the determinant of a (n+1)*(n+1) matrix; indices run from 0 to n
+% find the determinant of a (n+1)*(n+1) matrix ; indices run from 0 to n
vardef det (suffix $) (expr n) =
hide(
@@ -1173,8 +1218,8 @@ vardef det (suffix $) (expr n) =
exitif determinant=0 ;
determinant := determinant * $[k][k] ;
if k<n : % subtract row k from lower rows to get a diagonal matrix
- for j=k+1 upto n:
- for i=k+1 upto n:
+ for j=k+1 upto n :
+ for i=k+1 upto n :
$[j][i] := $[j][i]-$[j][k]*$[k][i]/$[k][k] ;
endfor
endfor
@@ -1188,7 +1233,7 @@ numeric fit_chi_squared ;
% least-squares fit of a polynomial $ of order n to a path p (unweighted)
%
-% reference: P. R. Bevington, "Data Reduction and Error Analysis for the Physical
+% reference : P. R. Bevington, "Data Reduction and Error Analysis for the Physical
% Sciences", McGraw-Hill, New York 1969.
vardef polynomial_fit (suffix p, $) (expr n) (text t) =
@@ -1208,7 +1253,7 @@ vardef polynomial_fit (suffix p, $) (expr n) (text t) =
sumy[i] := 0 ;
endfor
for i=0 upto length p :
- clearxy; z = point i of p ;
+ clearxy ; z = point i of p ;
w := if length(t) > 0 : t else : 1 fi ; % weight
x1 := w ;
for j=0 upto 2n :
@@ -1314,9 +1359,9 @@ vardef power_law_fit (suffix p, $) (text t) =
$1 := exp(a0) ;
enddef ;
-% gaussian: y = a2 * exp(-ln(2)*((x-a0)/a1)^2)
+% gaussian : y = a2 * exp(-ln(2)*((x-a0)/a1)^2)
%
-% a1 is the hwhm; sigma := a1/sqrt(2ln(2)) or a1/1.17741
+% a1 is the hwhm ; sigma := a1/sqrt(2ln(2)) or a1/1.17741
newinternal lntwo ; lntwo := ln(2) ; % brrr, why not inline it
diff --git a/tex/context/base/cont-new.mkiv b/tex/context/base/cont-new.mkiv
index 192764258..d60f0f3a6 100644
--- a/tex/context/base/cont-new.mkiv
+++ b/tex/context/base/cont-new.mkiv
@@ -11,7 +11,7 @@
%C therefore copyrighted by \PRAGMA. See mreadme.pdf for
%C details.
-\newcontextversion{2013.05.18 00:46}
+\newcontextversion{2013.05.18 02:06}
%D This file is loaded at runtime, thereby providing an excellent place for
%D hacks, patches, extensions and new features.
diff --git a/tex/context/base/context-version.pdf b/tex/context/base/context-version.pdf
index d70b95eb5..6b9266881 100644
--- a/tex/context/base/context-version.pdf
+++ b/tex/context/base/context-version.pdf
Binary files differ
diff --git a/tex/context/base/context.mkiv b/tex/context/base/context.mkiv
index 5e2602f1d..1b06d3e4c 100644
--- a/tex/context/base/context.mkiv
+++ b/tex/context/base/context.mkiv
@@ -25,7 +25,7 @@
%D up and the dependencies are more consistent.
\edef\contextformat {\jobname}
-\edef\contextversion{2013.05.18 00:46}
+\edef\contextversion{2013.05.18 02:06}
\edef\contextkind {beta}
%D For those who want to use this:
diff --git a/tex/context/base/font-ctx.lua b/tex/context/base/font-ctx.lua
index 8ae74435f..2583c6520 100644
--- a/tex/context/base/font-ctx.lua
+++ b/tex/context/base/font-ctx.lua
@@ -1080,7 +1080,7 @@ end
local n = 0
-function definers.internal(specification)
+function definers.internal(specification,cs)
specification = specification or { }
local name = specification.name
local size = specification.size and number.todimen(specification.size) or texdimen.bodyfontsize
@@ -1089,11 +1089,13 @@ function definers.internal(specification)
if number then
id = number
elseif name and name ~= "" then
- local cs = specification.cs
+ local cs = cs or specification.cs
if not cs then
n = n + 1 -- beware ... there can be many and they are often used once
-- cs = formatters["internal font %s"](n)
cs = "internal font " .. n
+ else
+ specification.cs = cs
end
id = definers.define {
name = name,
diff --git a/tex/context/base/l-pdfview.lua b/tex/context/base/l-pdfview.lua
index 49c6a8c48..80033900f 100644
--- a/tex/context/base/l-pdfview.lua
+++ b/tex/context/base/l-pdfview.lua
@@ -28,7 +28,7 @@ if os.type == "windows" then
['okular'] = 'start "test" "c:/data/system/kde/bin/okular.exe" --unique', -- todo!
['sumatra'] = 'start "test" "c:/data/system/sumatrapdf/sumatrapdf.exe" -reuse-instance',
['okular'] = 'start "test" "okular.exe" --unique',
- ['sumatra'] = 'start "test" "sumatrapdf.exe" -reuse-instance',
+ ['sumatra'] = 'start "test" "sumatrapdf.exe" -reuse-instance -bg-color 0xCCCCCC',
}
closecalls= {
['default'] = "pdfclose --file",
diff --git a/tex/context/base/s-fonts-features.lua b/tex/context/base/s-fonts-features.lua
index 3f4d95096..0a7cf8b13 100644
--- a/tex/context/base/s-fonts-features.lua
+++ b/tex/context/base/s-fonts-features.lua
@@ -115,8 +115,9 @@ local showkernpair = context.showkernpair
function moduledata.fonts.features.showbasekerns(specification)
-- assumes that the font is loaded in base mode
- local id = tonumber(specification.number)
- local tfmdata = fonts.hashes.identifiers[id or font.current()]
+ specification = interfaces.checkedspecification(specification)
+ local id, cs = fonts.definers.internal(specification,"<module:fonts:features:font>")
+ local tfmdata = fonts.hashes.identifiers[id]
local done = false
for unicode, character in sortedhash(tfmdata.characters) do
local kerns = character.kerns
@@ -136,10 +137,11 @@ function moduledata.fonts.features.showbasekerns(specification)
end
function moduledata.fonts.features.showallkerns(specification)
- local id = tonumber(specification.number)
- local tfmdata = fonts.hashes.identifiers[id or font.current()]
- local allkerns = collectkerns(tfmdata)
- local characters = tfmdata.characters
+ specification = interfaces.checkedspecification(specification)
+ local id, cs = fonts.definers.internal(specification,"<module:fonts:features:font>")
+ local tfmdata = fonts.hashes.identifiers[id]
+ local allkerns = collectkerns(tfmdata)
+ local characters = tfmdata.characters
if next(allkerns) then
for first, pairs in sortedhash(allkerns) do
context.par()
diff --git a/tex/context/base/s-fonts-shapes.lua b/tex/context/base/s-fonts-shapes.lua
index 0fddfa01a..b387c11dd 100644
--- a/tex/context/base/s-fonts-shapes.lua
+++ b/tex/context/base/s-fonts-shapes.lua
@@ -11,13 +11,14 @@ moduledata.fonts.shapes = moduledata.fonts.shapes or { }
local fontdata = fonts.hashes.identifiers
+local context = context
local NC, NR = context.NC, context.NR
-local space, dontleavehmode, glyph = context.space, context.dontleavehmode, context.glyph
+local space, dontleavehmode, glyph, getvalue = context.space, context.dontleavehmode, context.glyph, context.getvalue
local formatters = string.formatters
function moduledata.fonts.shapes.showlist(specification) -- todo: ranges
specification = interfaces.checkedspecification(specification)
- local id = tonumber(specification.number) or font.current()
+ local id, cs = fonts.definers.internal(specification,"<module:fonts:shapes:font>")
local chrs = fontdata[id].characters
function char(k)
dontleavehmode()
@@ -49,7 +50,7 @@ function moduledata.fonts.shapes.showlist(specification) -- todo: ranges
for k, v in next, characters.data do
if chrs[k] then
NC() context("0x%05X",k)
- NC() char(k)
+ NC() char(k) -- getvalue(cs) context.char(k)
NC() char(v.shcode)
NC() char(v.lccode or k)
NC() char(v.uccode or k)
@@ -64,7 +65,7 @@ end
function moduledata.fonts.shapes.showlist(specification) -- todo: ranges
specification = interfaces.checkedspecification(specification)
- local id = tonumber(specification.number) or font.current()
+ local id, cs = fonts.definers.internal(specification,"<module:fonts:shapes:font>")
local chrs = fontdata[id].characters
function char(k)
dontleavehmode()
@@ -114,14 +115,12 @@ local characters = nil
local function showglyphshape(specification)
specification = interfaces.checkedspecification(specification)
- specification.cs = "showglyphshape:font"
- local id, cs = fonts.definers.internal(specification)
+ local id, cs = fonts.definers.internal(specification,"<module:fonts:shapes:font>")
local tfmdata = fontdata[id]
local charnum = tonumber(specification.character)
if not charnum then
charnum = fonts.helpers.nametoslot(n)
end
--- print(id,cs,charnum)
context.start()
context.dontleavehmode()
context.obeyMPboxdepth()
@@ -306,8 +305,7 @@ moduledata.fonts.shapes.showglyphshape = showglyphshape
function moduledata.fonts.shapes.showallglypshapes(specification)
specification = interfaces.checkedspecification(specification)
- specification.cs = "showglyphshape:font"
- local id, cs = fonts.definers.internal(specification)
+ local id, cs = fonts.definers.internal(specification,"<module:fonts:shapes:font>")
local descriptions = fontdata[id].descriptions
for unicode, description in fonts.iterators.descriptions(tfmdata) do
context.modulefontsstartshowglyphshape(unicode,description.name)
diff --git a/tex/context/base/s-fonts-shapes.mkiv b/tex/context/base/s-fonts-shapes.mkiv
index 5651bdad9..56e3d80a7 100644
--- a/tex/context/base/s-fonts-shapes.mkiv
+++ b/tex/context/base/s-fonts-shapes.mkiv
@@ -95,21 +95,21 @@
% \startTEXpage \ShowGlyphShape{simplenaskhi}{100bp}{0xF0299} \stopTEXpage
% \startTEXpage \ShowGlyphShape{simplenaskhi}{100bp}{NameMe.1190} \stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math} {40bp}{0x00066}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math} {40bp}{0x1D453}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math} {40bp}{0x1D43F}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{100bp}{0x1D444}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{100bp}{0x1D447}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{100bp}{0x02112}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{100bp}{0x1D432}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{100bp}{0x1D43D}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{100bp}{0x1D44A}\stopTEXpage
- \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{100bp}{0x1D45D}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{20bp}{0x00066}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{20bp}{0x1D453}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{20bp}{0x1D43F}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{50bp}{0x1D444}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{50bp}{0x1D447}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{50bp}{0x02112}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{50bp}{0x1D432}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{50bp}{0x1D43D}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{50bp}{0x1D44A}\stopTEXpage
+ \startTEXpage[offset=0pt]\ShowGlyphShape{name:cambria-math}{50bp}{0x1D45D}\stopTEXpage
\page
% \showallglyphshapes[name=name:cambria-math,size=100bp]
- \showallglyphshapes[name=name:dejavuserif,size=100bp]
+ % \showallglyphshapes[name=name:dejavuserif,size=100bp]
\stoptext
diff --git a/tex/context/base/status-files.pdf b/tex/context/base/status-files.pdf
index 02e1255d8..524f2c005 100644
--- a/tex/context/base/status-files.pdf
+++ b/tex/context/base/status-files.pdf
Binary files differ
diff --git a/tex/context/base/status-lua.pdf b/tex/context/base/status-lua.pdf
index 3f9c1b392..559e5cd33 100644
--- a/tex/context/base/status-lua.pdf
+++ b/tex/context/base/status-lua.pdf
Binary files differ
diff --git a/tex/generic/context/luatex/luatex-fonts-merged.lua b/tex/generic/context/luatex/luatex-fonts-merged.lua
index 9b7f60406..82ea91f77 100644
--- a/tex/generic/context/luatex/luatex-fonts-merged.lua
+++ b/tex/generic/context/luatex/luatex-fonts-merged.lua
@@ -1,6 +1,6 @@
-- merged file : luatex-fonts-merged.lua
-- parent file : luatex-fonts.lua
--- merge date : 05/18/13 00:46:06
+-- merge date : 05/18/13 02:06:59
do -- begin closure to overcome local limits and interference