Mercurial > hg > octave-nkf
view scripts/plot/struct2hdl.m @ 17136:e4968b4613a5
Overhaul default menubar (still not perfect).
* scripts/plot/figure.m: Always call __add_default_menu__.
* scripts/plot/private/__add_default_menu__.m: Check that toolkit is FLTK
before proceeding. Don't do redundant check that input is figure handle.
Don't turn off handlevisibility for submenus, they are already hidden
from above. Restrict findall() search to a depth of 1. Add __default_menu__
tags to Edit and Help menus so they can be identified. Don't call drawnow
unnecessarily in callback routines. Use gcbf() so that Save filename is
stored on a per figure basis rather than globally. Eliminate assigning
to unused variables. Add HACK to turn off menubar if property is set to
"none" on figure.
| author | Rik <rik@octave.org> |
|---|---|
| date | Thu, 01 Aug 2013 10:18:54 -0700 |
| parents | eaab03308c0b |
| children | b1fd3dc31c42 |
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## Copyright (C) 2012 pdiribarne ## ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 3 of the License, or ## (at your option) any later version. ## ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with Octave; see the file COPYING. If not, see ## <http://www.gnu.org/licenses/>. ## -*- texinfo -*- ## @deftypefn {Function File} {@var{h} =} struct2hdl (@var{s}) ## @deftypefnx {Function File} {@var{h} =} struct2hdl (@var{s}, @var{p}) ## @deftypefnx {Function File} {@var{h} =} struct2hdl (@var{s}, @var{p}, @var{hilev}) ## Construct a graphics handle object @var{h} from the structure @var{s}. ## ## The structure must contain the fields "handle", "type", "children", ## "properties", and "special". If the handle of an existing figure or axes ## is specified, @var{p}, the new object will be created as a child of that ## object. If no parent handle is provided then a new figure and the necessary ## children will be constructed using the default values from the root figure. ## ## A third boolean argument @var{hilev} can be passed to specify whether ## the function should preserve listeners/callbacks, e.g., for legends or ## hggroups. The default is false. ## @seealso{hdl2struct, findobj} ## @end deftypefn ## Author: pdiribarne <pdiribarne@new-host.home> ## Created: 2012-03-04 function [h, pout] = struct2hdl (s, p=[], hilev = false) fields = {"handle", "type", "children", "properties", "special"}; partypes = {"root", "figure", "axes", "hggroup"}; othertypes = {"line", "patch", "surface", "image", "text"}; alltypes = [partypes othertypes]; if (nargin > 3 || ! isstruct (s)) print_usage (); elseif (! all (isfield (s, fields))) print_usage (); elseif (isscalar (p)) if (! ishandle (p)) error ("struct2hdl: P is not a handle to a graphic object"); endif if (any (strcmp (get (p).type, partypes))) paridx = find (strcmp (get (p).type, alltypes)); kididx = find (strcmp (s.type, alltypes)); if (kididx <= paridx) error ("struct2hdl: incompatible input handles"); endif else error ("struct2hdl: %s object can't be parent object", get (p).type); endif hpar = p; p = [NaN; hpar]; ## create appropriate parent if needed if (any (strcmp (s.type, othertypes))) for ii = (paridx+1) : (numel (partypes)-1) eval (["hpar = " partypes{ii} "(\"parent\", hpar);"]); p = [p [NaN; hpar]]; endfor elseif (any (strcmp (s.type, {"hggroup", "axes"}))) for ii = (paridx+1) : (kididx-1) eval (["hpar = " partypes{ii} "(\"parent\", hpar);"]); p = [p [NaN; hpar]]; endfor else par = NaN; endif elseif (isempty (p)) if (any (strcmp (s.type, othertypes))) par = axes (); elseif (any (strcmp (s.type, {"hggroup", "axes"}))) par = figure (); else par = NaN; endif p = [NaN; par]; endif ## read parent (last column) in p and remove it if duplicate par = p(2,end); tst = find (p(2,:) == par); if (numel (tst) > 1) p = p(1:2, 1:(tst(end)-1)); endif ## Place the "*mode" properties as the end to avoid having the updaters ## change the mode to "manual" when the value is "auto". names = fieldnames (s.properties); n = strncmp (cellfun (@fliplr, names, "uniformoutput", false), "edom", 4); n = (n | strcmp (names, "activepositionproperty")); names = [names(!n); names(n)]; if (strcmp (s.type, "axes")) n_pos = find (strcmp (names, "position") | strcmp (names, "outerposition")); if (strcmp (s.properties.activepositionproperty, "position")) names{n_pos(1)} = "outerposition"; names{n_pos(2)} = "position"; else names{n_pos(1)} = "position"; names{n_pos(2)} = "outerposition"; endif endif ## Reorder the properties with the mode properties coming last s.properties = orderfields (s.properties, names); ## create object if (strcmp (s.type, "root")) h = 0; s.properties = rmfield (s.properties, ... {"callbackobject", "commandwindowsize", ... "screendepth", "screenpixelsperinch", ... "screensize"}); elseif (strcmp (s.type, "figure")) h = figure (); elseif (strcmp (s.type, "axes")) ## legends and colorbars are "transformed" in normal axes ## if hilev is not requested if (! hilev) if (strcmp (s.properties.tag, "legend")) s.properties.tag = ""; s.properties.userdata = []; par = gcf; elseif (strcmp (s.properties.tag, "colorbar")) s.properties.tag = ""; s.properties.userdata = []; par = gcf; endif endif [h, s] = createaxes (s, p, par); elseif (strcmp (s.type, "line")) h = createline (s, par); elseif (strcmp (s.type, "patch")) [h, s] = createpatch (s, par); elseif (strcmp (s.type, "text")) h = createtext (s, par); elseif (strcmp (s.type, "image")) h = createimage (s, par); elseif (strcmp (s.type, "surface")) h = createsurface (s, par); elseif (strcmp (s.type, "hggroup")) [h, s, p] = createhg (s, p, par, hilev); else error ("struct2hdl: %s objects are not implemented yet", s.type) endif ## children p = [p [s.handle; h]]; # [original; new] kids = s.children; nkids = length (kids); ii = 0; while (nkids) ii++; if (! any (ii == s.special)) [h2, p] = struct2hdl (s.children(ii), [p [s.handle; h]], hilev); endif nkids--; endwhile ## paste properties setprops (s, h, p, hilev); pout = p; endfunction function [h, sout] = createaxes (s, p, par) ## regular axes if (strcmp (s.properties.tag, "")) propval = {"position", s.properties.position}; hid = {"autopos_tag", "looseinset"}; for ii = 1:numel (hid) prop = hid{ii}; if (isfield (s.properties, prop)) val = s.properties.(prop); propval = [propval, prop, val]; endif endfor h = axes (propval{:}, "parent", par); if (isfield (s.properties, "__plotyy_axes__")) plty = s.properties.__plotyy_axes__; addproperty ("__plotyy_axes__", h, "any"); tmp = [p [s.handle; h]]; tst = arrayfun (@(x) any (plty == x), tmp(1:2:end)); if (sum (tst) == numel (plty)) for ii = 1:numel (plty) plty(ii) = tmp(find (tmp == plty(ii)) + 1); endfor for ii = 1:numel (plty) set (plty(ii), "__plotyy_axes__", plty); endfor endif s.properties = rmfield (s.properties, "__plotyy_axes__"); endif ## delete non-default and already set properties fields = fieldnames (s.properties); tst = cellfun (@(x) isprop (h, x), fields); s.properties = rmfield (s.properties, fields(find (tst == 0))); elseif (strcmp (s.properties.tag, "legend")) ## legends oldax = s.properties.userdata.handle; idx = find (p == oldax); newax = p(idx+1); strings = {}; kids = s.children; kids(s.special) = []; oldh = unique (arrayfun (@(x) x.properties.userdata(end), kids)); for ii = 1:length (oldh) idx = find (p(1:2:end) == oldh(ii)) * 2; if (! isempty (idx)) newh(ii) = p(idx); if (! strcmp (get (newh(ii), "type"), "hggroup")) str = get (newh(ii), "displayname"); strings = [strings str]; else str = get (get (newh(ii), "children")(1), "displayname"); strings = [strings str]; endif else error ("struct2hdl: didn't find a legend item"); endif endfor location = s.properties.location; orientation = s.properties.orientation; textpos = s.properties.textposition; box = s.properties.box; h = legend (newax, newh, strings, "location", location, ... "orientation", orientation); set (h, "textposition", textpos); # bug makes "textposition" # redefine the legend h = legend (newax, newh, strings, "location", location, ... "orientation", orientation); ## box if (strcmp (box, "on")) legend ("boxon"); endif ## visibility tst = arrayfun (@(x) strcmp (x.properties.visible, "on"), kids); if (! any (tst)) legend ("hide"); endif ## remove all properties such as "textposition" that redefines ## the entire legend. Also remove chidren s.properties = rmfield (s.properties, ... {"userdata", "xlabel",... "ylabel", "zlabel", "location", ... "title", "string","orientation", ... "visible", "textposition"}); s.children = []; elseif (strcmp (s.properties.tag, "colorbar")) ## colorbar oldax = s.properties.axes; if (! isempty (idx = find (oldax == p))) ax = p(idx+1); location = s.properties.location; h = colorbar ("peer", ax, location); s.properties = rmfield (s.properties, ... {"userdata", "xlabel" ... "ylabel", "zlabel", ... "title", "axes"}); s.children= []; else error ("hdl2struct: didn't find an object"); endif endif sout = s; endfunction function h = createline (s, par) h = line ("parent", par); addmissingprops (h, s.properties); endfunction function [h, sout] = createpatch (s, par) prp.faces = s.properties.faces; prp.vertices = s.properties.vertices; prp.facevertexcdata = s.properties.facevertexcdata; h = patch (prp); set (h, "parent", par); s.properties = rmfield (s.properties, {"faces", "vertices", "facevertexcdata"}); addmissingprops (h, s.properties); sout = s; endfunction function h = createtext (s, par) h = text ("parent", par); addmissingprops (h, s.properties); endfunction function h = createimage (s, par) h = image ("parent", par); addmissingprops (h, s.properties); endfunction function h = createsurface (s, par) h = surface ("parent", par); addmissingprops (h, s.properties); endfunction function [h, sout, pout] = createhg (s, p, par, hilev) ## Here we infer from properties the type of hggroup we should build ## an call corresponding high level functions ## We manually set "hold on" to avoid next hggroup be deleted ## the proper value of axes "nextplot" will finally be recovered hold on; if (hilev) [h, s, p] = createhg_hilev (s, p, par); if (numel (s.children) != numel (get (h).children)) warning (["struct2hdl: could not infer the hggroup type. ", ... "Will build objects but listener/callback functions ", ... "will be lost"]); if (isfield (h, "bargroup")) delete (get (h).bargroup); else delete (h); endif h = hggroup ("parent", par); addmissingprops (h, s.properties); s.special = []; else oldkids = s.children; newkids = get (h).children; nkids = numel (oldkids); ii = 1; while (nkids) p = [p [oldkids(ii++).handle; newkids(nkids--)]]; endwhile endif else h = hggroup ("parent", par); addmissingprops (h, s.properties); s.special = []; endif sout = s; pout = p; endfunction function [h, sout, pout] = createhg_hilev (s, p, par) fields = s.properties; if (isfield (fields, "contourmatrix")) ## contours xdata = s.properties.xdata; ydata = s.properties.ydata; zdata = s.properties.zdata; levellist = s.properties.levellist; textlist = s.properties.textlist; ## contour creation if (isempty (s.children(1).properties.zdata)) if (strcmpi (s.properties.fill, "on")) [cm2, h] = contourf (xdata, ydata, zdata, levellist); else [cm2, h] = contour (xdata, ydata, zdata, levellist); endif ## labels if (strcmpi (s.properties.showtext, "on")) clabel (cm2, h, textlist); endif else [cm2, h] = contour3 (xdata, ydata, zdata, levellist); endif ## delete already set properties and children s.properties = rmfield (s.properties, ... {"xdata", "ydata", "zdata", ... "contourmatrix", "levellist", ... "fill", "labelspacing", ... "levellistmode", "levelstep", ... "levelstepmode", "textlist"... "textlistmode" , "textstep", ... "textstepmode", "zlevel", ... "zlevelmode"}); elseif (isfield (fields, "udata") && isfield (fields, "vdata")) ## quiver xdata = s.properties.xdata; ydata = s.properties.ydata; udata = s.properties.udata; vdata = s.properties.vdata; h = quiver (xdata, ydata, udata, vdata); ## delete already set properties and children s.properties = rmfield (s.properties, ... {"xdata", "ydata", "zdata", ... "xdatasource", "ydatasource", "zdatasource", ... "udata", "vdata", "wdata", ... "udatasource", "vdatasource", "wdatasource"}); elseif (isfield (fields, "format")) ##errorbar form = s.properties.format; xdata = s.properties.xdata; ydata = s.properties.ydata; xldata = s.properties.xldata; ldata = s.properties.ldata; xudata = s.properties.xudata; udata = s.properties.udata; switch (form) case "xerr" h = errorbar (xdata, ydata, xldata, xudata, ">"); case "yerr" h = errorbar (xdata, ydata, ldata, udata, "~"); case "xyerr" h = errorbar (xdata, ydata, xldata, xudata, ldata, udata, "~>"); case "box" h = errorbar (xdata, ydata, xldata, xudata, "#"); case "boxy" h = errorbar (xdata, ydata, ldata, udata, "#~"); case "boxxy" h = errorbar (xdata, ydata, xldata, xudata, ldata, udata, "#~>"); otherwise error ("struct2hdl: couldn't guess the errorbar format"); endswitch ## delete already set properties s.properties = rmfield (s.properties, ... {"xdata", "ydata", ... "xldata", "ldata", ... "xudata", "udata", ... "xldatasource", "ldatasource", ... "xudatasource", "udatasource", ... "format"}); elseif (isfield (fields, "bargroup")) ## bar plot ## FIXME - here we don't have access to brothers so we first create all ## the barseries of the bargroup (but the last), then retrieve information, ## and rebuild the whole bargroup. ## The duplicate are deleted after calling "setprops" bargroup = s.properties.bargroup; oldh = s.handle; temp = arrayfun (@(x) any(x == bargroup), [p(1:2:end) oldh]); tst = sum (temp) == length (bargroup); if (isscalar (bargroup) || !tst) xdata = s.properties.xdata; ydata = s.properties.ydata; h = bar (xdata, ydata); ## delete already set properties, s.properties = rmfield (s.properties, ... {"xdata", "ydata", ... "xdatasource", "ydatasource", ... "bargroup", ... "barwidth", "baseline"}); else xdata = []; ydata = []; ##build x/y matrix nbar = length (bargroup); tmp = struct ("handle", NaN, "type", "", "children", [], "special", []); for ii = 1:(nbar - 1) idx = find (p(1:2:end) == bargroup(ii)) * 2; hdl = p (idx); xdata = [xdata get(hdl).xdata]; ydata = [ydata get(hdl).ydata]; tmp.children(ii) = hdl2struct (hdl); endfor xdata = [xdata s.properties.xdata]; ydata = [ydata s.properties.ydata]; width = s.properties.barwidth; h = bar (ydata, width); ## replace previous handles in "match", copy props and delete redundant for ii = 1:(nbar - 1) props = tmp.children(ii).properties; bl = props.baseline; tmp.children(ii).properties = rmfield (props, {"baseline", "bargroup"}); setprops (tmp.children(ii), h(ii), p, 1); delete (tmp.children(ii).handle); delete (bl); idxpar = find (p == tmp.children(ii).handle); p(idxpar) = h(ii); idxkid = idxpar - 2; p(idxkid) = get (h(ii), "children"); endfor p(2,((end-nbar+2):end)) = h(1:(end-1)); h = h(end); ## delete already set properties , s.properties = rmfield (s.properties, ... {"xdata", "ydata", "bargroup"... "barwidth", "baseline"}); endif elseif (isfield (fields, "baseline")) ## stem plot xdata = s.properties.xdata; ydata = s.properties.ydata; h = stem (xdata, ydata); ## delete already set properties, s.properties = rmfield (s.properties, ... {"xdata", "ydata", ... "xdatasource", "ydatasource", ... "baseline"}); elseif (isfield (fields, "basevalue")) ## area plot xdata = s.properties.xdata; ydata = s.properties.ydata; level = s.properties.basevalue; h = area (xdata, ydata, level); ## delete already set properties, s.properties = rmfield (s.properties, ... {"xdata", "ydata", ... "xdatasource", "ydatasource"}); else warning ("struct2hdl: could not infer the hggroup type. Will build objects but listener/callback functions will be lost"); h = hggroup ("parent", par); addmissingprops (h, s.properties); s.special = []; # children will be treated as normal children endif sout = s; pout = p; endfunction function setprops (s, h, p, hilev) more off; if (strcmpi (s.properties.tag, "")) specs = s.children(s.special); hdls = arrayfun (@(x) x.handle, specs); nh = length (hdls); msg = ""; if (! nh) set (h, s.properties); else ## Specials are objects that where automatically constructed with ## current object. Among them are "x(yz)labels", "title", high ## level hggroup children fields = fieldnames (s.properties); vals = struct2cell (s.properties); idx = find (cellfun (@(x) valcomp(x, hdls) , vals)); s.properties = rmfield (s.properties, fields(idx)); ## set all properties but special handles set (h, s.properties); ## find props with val == (one of special handles) nf = length (idx); fields = fields(idx); vals = vals(idx); while (nf) field = fields{nf}; idx = find (hdls == vals{nf}); spec = specs(idx); if (isprop (h, field)) h2 = get (h , field); set (h2, spec.properties); endif nf--; endwhile ## If hggroup children were created by high level functions, ## copy only usefull properties. if (hilev) if (strcmp (s.type, "hggroup")) nold = numel (s.children); nnew = numel (get (h).children); if (nold == nnew) hnew = get (h).children; ii = 1; while (ii <= nnew) try set (hnew (ii), "displayname", ... s.children(ii).properties.displayname); catch sprintf ("struct2hdl: couldn't set hggroup children #%d props.", ii); end_try_catch ii ++; endwhile else error ("struct2hdl: non-conformant number of children in hgggroup"); endif endif endif endif elseif (strcmpi (s.properties.tag, "legend") || strcmpi (s.properties.tag, "colorbar")) set (h, s.properties); endif endfunction function out = valcomp (x, hdls) if (isfloat (x) && isscalar (x)) out = any (x == hdls); else out = 0; endif endfunction function addmissingprops (h, props) hid = {"autopos_tag", "looseinset"}; oldfields = fieldnames (props); curfields = fieldnames (get (h)); missing = cellfun (@(x) !any (strcmp (x, curfields)), oldfields); idx = find (missing); for ii = 1:length (idx) prop = oldfields{idx(ii)}; if (! any (strcmp (prop, hid))) addproperty (prop, h, "any"); endif endfor endfunction ## FIXME: Need validation tests