Mercurial > hg > octave-nkf
view scripts/plot/polar.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 | df4c4b7708a4 |
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## Copyright (C) 1993-2012 John W. Eaton ## ## 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} {} polar (@var{theta}, @var{rho}) ## @deftypefnx {Function File} {} polar (@var{theta}, @var{rho}, @var{fmt}) ## @deftypefnx {Function File} {} polar (@var{cplx}) ## @deftypefnx {Function File} {} polar (@var{cplx}, @var{fmt}) ## @deftypefnx {Function File} {} polar (@var{hax}, @dots{}) ## @deftypefnx {Function File} {@var{h} =} polar (@dots{}) ## Create a 2-D plot from polar coordinates @var{theta} and @var{rho}. ## ## If a single complex input @var{cplx} is given then the real part is used ## for @var{theta} and the imaginary part is used for @var{rho}. ## ## The optional argument @var{fmt} specifies the line format in the same way ## as @code{plot}. ## ## If the first argument @var{hax} is an axes handle, then plot into this axis, ## rather than the current axes returned by @code{gca}. ## ## The optional return value @var{h} is a graphics handle to the created plot. ## ## @seealso{rose, compass, plot} ## @end deftypefn ## Author: jwe function h = polar (varargin) [hax, varargin, nargs] = __plt_get_axis_arg__ ("polar", varargin{:}); if (nargs < 1) print_usage (); endif oldfig = ifelse (isempty (hax), [], get (0, "currentfigure")); unwind_protect hax = newplot (hax); if (nargs == 3) if (! ischar (varargin{3})) error ("polar: FMT argument must be a string"); endif htmp = __plr2__ (hax, varargin{:}); maxr = max (varargin{2}(:)); elseif (nargs == 2) if (ischar (varargin{2})) htmp = __plr1__ (hax, varargin{:}); if (iscomplex (varargin{1})) maxr = max (imag (varargin{1})(:)); else maxr = max (varargin{1}(:)); endif else fmt = ""; htmp = __plr2__ (hax, varargin{:}, fmt); maxr = max (varargin{2}(:)); endif elseif (nargs == 1) fmt = ""; htmp = __plr1__ (hax, varargin{:}, fmt); if (iscomplex (varargin{1})) maxr = max (imag (varargin{1})(:)); else maxr = max (varargin{1}(:)); endif else print_usage (); endif set (hax, "xlim", [-maxr, maxr], "ylim", [-maxr, maxr], "xaxislocation", "zero", "yaxislocation", "zero", "plotboxaspectratio", [1, 1, 1]); unwind_protect_cleanup if (! isempty (oldfig)) set (0, "currentfigure", oldfig); endif end_unwind_protect if (nargout > 0) h = htmp; endif endfunction function retval = __plr1__ (h, theta, fmt) theta = theta(:); if (iscomplex (theta)) rho = imag (theta); theta = real (theta); else rho = theta; theta = (1:rows (rho))'; endif retval = __plr2__ (h, theta, rho, fmt); endfunction function retval = __plr2__ (h, theta, rho, fmt) if (ndims (theta) > 2 || ndims (rho) > 2) error ("polar: THETA and RHO must be 2-D objects"); endif theta = real (theta); rho = real (rho); if (isscalar (theta)) if (isscalar (rho)) x = rho * cos (theta); y = rho * sin (theta); retval = __plt__ ("polar", h, x, y, fmt); else error ("polar: Can't plot constant THETA with varying RHO"); endif elseif (isvector (theta)) if (isvector (rho)) if (length (theta) != length (rho)) error ("polar: THETA and RHO vector lengths must match"); endif rho = rho(:); theta = theta(:); x = rho .* cos (theta); y = rho .* sin (theta); retval = __plt__ ("polar", h, x, y, fmt); elseif (ismatrix (rho)) theta = theta(:); t_nr = rows (theta); [r_nr, r_nc] = size (rho); if (t_nr != r_nr) rho = rho'; r_nr = r_nc; endif if (t_nr != r_nr) error ("polar: THETA vector and RHO matrix sizes must match"); endif x = diag (cos (theta)) * rho; y = diag (sin (theta)) * rho; retval = __plt__ ("polar", h, x, y, fmt); else error ("polar: invalid data for plotting"); endif elseif (ismatrix (theta)) if (isvector (rho)) rho = rho(:); r_nr = rows (rho); [t_nr, t_nc] = size (theta); if (r_nr != t_nr) theta = theta'; t_nr = t_nc; endif if (r_nr != t_nr) error ("polar: THETA matrix and RHO vector sizes must match"); endif diag_r = diag (rho); x = diag_r * cos (theta); y = diag_r * sin (theta); retval = __plt__ ("polar", h, x, y, fmt); elseif (ismatrix (rho)) if (! size_equal (rho, theta)) error ("polar: THETA and RHO matrix dimensions must match"); endif x = rho .* cos (theta); y = rho .* sin (theta); retval = __plt__ ("polar", h, x, y, fmt); else error ("polar: invalid data for plotting"); endif else error ("polar: invalid data for plotting"); endif endfunction %!demo %! clf; %! theta = linspace (0,2*pi,1000); %! rho = sin (7*theta); %! polar (theta, rho); %!demo %! clf; %! theta = linspace (0,2*pi,1000); %! cplx = theta + i*sin (7*theta); %! polar (cplx, 'g'); %!demo %! clf; %! theta = linspace (0,10*pi,1000); %! rho = sin (5/4*theta); %! polar (theta, rho);