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| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Wed, 25 Feb 2009 18:35:47 -0500 |
| parents | 5dd06f19e9be |
| children | eb63fbe60fab |
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## Copyright (C) 1994, 1995, 1996, 1997, 1999, 2000, 2002, 2003, 2004, ## 2005, 2006, 2007 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} {} axis (@var{limits}) ## Set axis limits for plots. ## ## The argument @var{limits} should be a 2, 4, or 6 element vector. The ## first and second elements specify the lower and upper limits for the x ## axis. The third and fourth specify the limits for the y axis, and the ## fifth and sixth specify the limits for the z axis. ## ## Without any arguments, @code{axis} turns autoscaling on. ## ## With one output argument, @code{x = axis} returns the current axes ## ## The vector argument specifying limits is optional, and additional ## string arguments may be used to specify various axis properties. For ## example, ## ## @example ## axis ([1, 2, 3, 4], "square"); ## @end example ## ## @noindent ## forces a square aspect ratio, and ## ## @example ## axis ("labely", "tic"); ## @end example ## ## @noindent ## turns tic marks on for all axes and tic mark labels on for the y-axis ## only. ## ## @noindent ## The following options control the aspect ratio of the axes. ## ## @table @code ## @item "square" ## Force a square aspect ratio. ## @item "equal" ## Force x distance to equal y-distance. ## @item "normal" ## Restore the balance. ## @end table ## ## @noindent ## The following options control the way axis limits are interpreted. ## ## @table @code ## @item "auto" ## Set the specified axes to have nice limits around the data ## or all if no axes are specified. ## @item "manual" ## Fix the current axes limits. ## @item "tight" ## Fix axes to the limits of the data (not implemented). ## @end table ## ## @noindent ## The option @code{"image"} is equivalent to @code{"tight"} and ## @code{"equal"}. ## ## @noindent ## The following options affect the appearance of tic marks. ## ## @table @code ## @item "on" ## Turn tic marks and labels on for all axes. ## @item "off" ## Turn tic marks off for all axes. ## @item "tic[xyz]" ## Turn tic marks on for all axes, or turn them on for the ## specified axes and off for the remainder. ## @item "label[xyz]" ## Turn tic labels on for all axes, or turn them on for the ## specified axes and off for the remainder. ## @item "nolabel" ## Turn tic labels off for all axes. ## @end table ## Note, if there are no tic marks for an axis, there can be no labels. ## ## @noindent ## The following options affect the direction of increasing values on ## the axes. ## ## @table @code ## @item "ij" ## Reverse y-axis, so lower values are nearer the top. ## @item "xy" ## Restore y-axis, so higher values are nearer the top. ## @end table ## ## If an axes handle is passed as the first argument, then operate on ## this axes rather than the current axes. ## @end deftypefn ## Author: jwe function varargout = axis (varargin) [h, varargin, nargin] = __plt_get_axis_arg__ ("axis", varargin{:}); oldh = gca (); unwind_protect axes (h); varargout = cell (max (nargin == 0, nargout), 1); if (isempty (varargout)) __axis__ (h, varargin{:}); else [varargout{:}] = __axis__ (h, varargin{:}); endif unwind_protect_cleanup axes (oldh); end_unwind_protect endfunction function curr_axis = __axis__ (ca, ax, varargin) if (nargin == 1) if (nargout == 0) set (ca, "xlimmode", "auto", "ylimmode", "auto", "zlimmode", "auto"); else xlim = get (ca, "xlim"); ylim = get (ca, "ylim"); zlim = get (ca, "zlim"); curr_axis = [xlim, ylim, zlim]; endif elseif (ischar (ax)) len = length (ax); ## 'matrix mode' to reverse the y-axis if (strcmpi (ax, "ij")) set (ca, "ydir", "reverse"); elseif (strcmpi (ax, "xy")) set (ca, "ydir", "normal"); ## aspect ratio elseif (strcmpi (ax, "image")) set (ca, "dataaspectratio", [1, 1, 1]); __do_tight_option__ (ca); elseif (strcmpi (ax, "equal") || strcmpi (ax, "square")) set (ca, "dataaspectratio", [1, 1, 1]); elseif (strcmpi (ax, "normal")) set (ca, "dataaspectratiomode", "auto"); ## axis limits elseif (len >= 4 && strcmpi (ax(1:4), "auto")) if (len > 4) if (any (ax == "x")) set (ca, "xlimmode", "auto"); endif if (any (ax == "y")) set (ca, "ylimmode", "auto"); endif if (any (ax == "z")) set (ca, "zlimmode", "auto"); endif else set (ca, "xlimmode", "auto", "ylimmode", "auto", "zlimmode", "auto"); endif elseif (strcmpi (ax, "manual")) ## fixes the axis limits, like axis(axis) should; set (ca, "xlimmode", "manual", "ylimmode", "manual", "zlimmode", "manual"); elseif (strcmpi (ax, "tight")) ## sets the axis limits to the min and max of all data. __do_tight_option__ (ca); ## tic marks elseif (strcmpi (ax, "on") || strcmpi (ax, "tic")) set (ca, "xtickmode", "auto", "ytickmode", "auto", "ztickmode", "auto"); set (ca, "xticklabelmode", "auto", "yticklabelmode", "auto", "zticklabelmode", "auto"); set (ca, "visible", "on"); elseif (strcmpi (ax, "off")) set (ca, "xtick", [], "ytick", [], "ztick", []); set (ca, "visible", "off"); elseif (len > 3 && strcmpi (ax(1:3), "tic")) if (any (ax == "x")) set (ca, "xtickmode", "auto"); else set (ca, "xtick", []); endif if (any (ax == "y")) set (ca, "ytickmode", "auto"); else set (ca, "ytick", []); endif if (any (ax == "z")) set (ca, "ztickmode", "auto"); else set (ca, "ztick", []); endif elseif (strcmpi (ax, "label")) set (ca, "xticklabelmode", "auto", "yticklabelmode", "auto", "zticklabelmode", "auto"); elseif (strcmpi (ax, "nolabel")) set (ca, "xticklabel", "", "yticklabel", "", "zticklabel", ""); elseif (len > 5 && strcmpi (ax(1:5), "label")) if (any (ax == "x")) set (ca, "xticklabelmode", "auto"); else set (ca, "xticklabel", ""); endif if (any (ax == "y")) set (ca, "yticklabelmode", "auto"); else set (ca, "yticklabel", ""); endif if (any (ax == "z")) set (ca, "zticklabelmode", "auto"); else set (ca, "zticklabel", ""); endif else warning ("unknown axis option '%s'", ax); endif elseif (isvector (ax)) len = length (ax); if (len != 2 && len != 4 && len != 6) error ("axis: expecting vector with 2, 4, or 6 elements"); endif for i = 1:2:len if (ax(i) == ax(i+1)) error ("axis: limits(%d) cannot equal limits(%d)", i, i+1); endif endfor if (len > 1) set (ca, "xlim", [ax(1), ax(2)]); endif if (len > 3) set (ca, "ylim", [ax(3), ax(4)]); endif if (len > 5) set (ca, "zlim", [ax(5), ax(6)]); endif else error ("axis: expecting no args, or a vector with 2, 4, or 6 elements"); endif if (! isempty (varargin)) __axis__ (ca, varargin{:}); endif endfunction function lims = __get_tight_lims__ (ca, ax) ## Get the limits for axis ("tight"). ## AX should be one of "x", "y", or "z". kids = findobj (ca, "-property", strcat (ax, "data")); if (isempty (kids)) ## Return the current limits. lims = get (ca, strcat (ax, "lim")); else data = get (kids, strcat (ax, "data")); if (iscell (data)) lims(1) = min (cellfun (@min, data)(:)); lims(2) = min (cellfun (@max, data)(:)); else lims = [min(data(:)), max(data(:))]; endif endif endfunction function __do_tight_option__ (ca) set (ca, "xlim", __get_tight_lims__ (ca, "x"), "ylim", __get_tight_lims__ (ca, "y"), "zlim", __get_tight_lims__ (ca, "z")); endfunction %!demo %! t=0:0.01:2*pi; x=sin(t); %! %! subplot(221); title("normal plot"); %! plot(t, x); %! %! subplot(222); title("square plot"); %! axis("square"); plot(t, x); %! %! subplot(223); title("equal plot"); %! axis("equal"); plot(t, x); %! %! subplot(224); title("normal plot again"); %! axis("normal"); plot(t, x); %!demo %! t=0:0.01:2*pi; x=sin(t); %! %! subplot(121); title("ij plot"); %! axis("ij"); plot(t, x); %! %! subplot(122); title("xy plot"); %! axis("xy"); plot(t, x); %!demo %! t=0:0.01:2*pi; x=sin(t); %! %! subplot(331); title("x tics & labels"); %! axis("ticx"); plot(t, x); %! %! subplot(332); title("y tics & labels"); %! axis("ticy"); plot(t, x); %! %! subplot(334); title("x & y tics, x labels"); %! axis("labelx","tic"); plot(t, x); %! %! subplot(335); title("x & y tics, y labels"); %! axis("labely","tic"); plot(t, x); %! %! subplot(337); title("x tics, no labels"); %! axis("nolabel","ticx"); plot(t, x); %! %! subplot(338); title("y tics, no labels"); %! axis("nolabel","ticy"); plot(t, x); %! %! subplot(333); title("no tics or labels"); %! axis("off"); plot(t, x); %! %! subplot(336); title("all tics but no labels"); %! axis("nolabel","tic"); plot(t, x); %! %! subplot(339); title("all tics & labels"); %! axis("on"); plot(t, x); %!demo %! t=0:0.01:2*pi; x=sin(t); %! %! subplot(321); title("axes at [0 3 0 1]") %! axis([0,3,0,1]); plot(t, x); %! %! subplot(322); title("auto"); %! axis("auto"); plot(t, x); %! %! subplot(323); title("manual"); %! plot(t, x, ";sine [0:2pi];"); hold on; %! axis("manual"); %! plot(-3:3,-3:3, ";line (-3,-3)->(3,3);"); hold off; %! %! subplot(324); title("axes at [0 3 0 1], then autox"); %! axis([0,3,0,1]); axis("autox"); %! plot(t, x, ";sine [0:2pi];"); %! %! subplot(325); title("axes at [3 6 0 1], then autoy"); %! axis([3,6,0,1]); axis("autoy"); %! plot(t, x, ";sine [0:2p];"); %! %! subplot(326); title("tight"); %! axis("tight"); plot(t, x); %! % The last plot should not have any whitespace outside the data %! % limits, but "tight" isn't implemented yet.