Mercurial > octave-nkf
view scripts/plot/util/struct2hdl.m @ 18891:7bbe3658c5ef
maint: Use "FIXME:" coding convention in m-files.
* flipdim.m, prepad.m, rotdim.m, doc.m, strread.m, textread.m, krylov.m,
colon.m, dump_prefs.m, fileattrib.m, getappdata.m, __xzip__.m, unpack.m,
fsolve.m, axis.m, meshc.m, print.m, __ghostscript__.m, __go_draw_axes__.m,
__print_parse_opts__.m, struct2hdl.m, unique.m, spstats.m, treeplot.m, test.m,
datestr.m: Use "FIXME:" coding convention in m-files.
| author | Rik <rik@octave.org> |
|---|---|
| date | Wed, 25 Jun 2014 13:45:41 -0700 |
| parents | ee125c82e01e |
| children | 4197fc428c7d |
line wrap: on
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## Copyright (C) 2012-2013 pdiribarne ## ## This file is part of Octave. ## ## Octave 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. ## ## Octave 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 @qcode{"handle"}, @qcode{"type"}, ## @qcode{"children"}, @qcode{"properties"}, and @qcode{"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, hgload, 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 at 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 (! any (strcmpi (s.properties.tag, {"colorbar", "legend"}))) 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, "data"); tmp = [p [s.handle; h]]; tst = ismember (tmp(1:2:end), plty); 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"}); ## Also remove derived properties. Otherwise there is a possibility for ## a segfault when 'set (h, properties)' is used to restore properties ## which do not match in size the ones created with from the call to patch(). s.properties = rmfield (s.properties, {"xdata", "ydata", "zdata", "cdata"}); 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 (1, "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 = ismember ([p(1:2:end) oldh], bargroup); 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) if (! any (strcmpi (s.properties.tag, {"colorbar", "legend"}))) specs = s.children(s.special); if (isempty (specs)) hdls = []; else hdls = [specs.handle]; endif 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 else 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 = ! ismember (oldfields, curfields); 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