## Copyright (C) 1996, 1997 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 2, 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, write to the Free ## Software Foundation, 59 Temple Place - Suite 330, Boston, MA ## 02111-1307, USA. ## -*- texinfo -*- ## @deftypefn {Function File} {} bar (@var{x}, @var{y}) ## Given two vectors of x-y data, @code{bar} produces a bar graph. ## ## If only one argument is given, it is taken as a vector of y-values ## and the x coordinates are taken to be the indices of the elements. ## ## If two output arguments are specified, the data are generated but ## not plotted. For example, ## ## @example ## bar (x, y); ## @end example ## ## @noindent ## and ## ## @example ## [xb, yb] = bar (x, y); ## plot (xb, yb); ## @end example ## ## @noindent ## are equivalent. ## @end deftypefn ## @seealso{plot, semilogx, semilogy, loglog, polar, ## stairs, xlabel, ylabel, and title} ## Modified to use Grace by: Teemu Ikonen ## Created: 28.7.2003 ## Just replace the gnuplot commands with the Grace Bar plot with the ## right arguments, otherwise this is the same as the orginal bar.m -TI function [xb, yb] = bar (x, y) if (nargin == 1) if (isvector (x)) len = 3 * length (x) + 1; tmp_xb = tmp_yb = zeros (len, 1); tmp_xb(1) = 0.5; tmp_yb(1) = 0; k = 1; for i = 2:3:len tmp_xb(i) = k-0.5; tmp_xb(i+1) = k+0.5; tmp_xb(i+2) = k+0.5; tmp_yb(i) = x(k); tmp_yb(i+1) = x(k); tmp_yb(i+2) = 0.0; k++; endfor # Grace support gr_mat = [[1:length(x)]', x(:)]; # Grace ends else error ("bar: argument must be a vector"); endif elseif (nargin == 2) if (isvector (x) && isvector (y)) xlen = length (x); ylen = length (y); if (xlen == ylen) len = 3 * xlen + 1; tmp_xb = tmp_yb = zeros (len, 1); cutoff = zeros (1, xlen-1); for i = 1:xlen-1 cutoff(i) = (x(i) + x(i+1)) / 2.0; endfor delta_p = cutoff(1) - x(1); delta_m = delta_p; tmp_xb(1) = x(1) - delta_m; tmp_yb(1) = 0.0; k = 1; for i = 2:3:len tmp_xb(i) = tmp_xb(i-1); tmp_xb(i+1) = x(k) + delta_p; tmp_xb(i+2) = tmp_xb(i+1); tmp_yb(i) = y(k); tmp_yb(i+1) = y(k); tmp_yb(i+2) = 0.0; if (k < xlen) if (x(k+1) < x(k)) error ("bar: x vector values must be in ascending order"); endif delta_m = x(k+1) - cutoff(k); k++; if (k < xlen) delta_p = cutoff(k) - x(k); else delta_p = delta_m; endif endif endfor # Grace support gr_mat = [x(:), y(:)]; # Grace support ends else error ("bar: arguments must be the same length"); endif else error ("bar: arguments must be vectors"); endif else usage ("[xb, yb] = bar (x, y)"); endif if (nargout == 0) # plot (tmp_xb, tmp_yb); if(!__grishold__) __grcla__(); endif __grnewset__(); [cur_figure, cur_graph, cur_set] = __grgetstat__(); __grcmd__(sprintf("focus g%i; g%i type bar; autoscale onread xyaxes", \ cur_graph, cur_graph)); __grcmd__(sprintf("g%i.s%i line type 0", cur_graph, cur_set)); ## simple heuristics to set the bar width to be approximately correct bar_width = 42.0 / size(gr_mat,1) / 1.5 __grcmd__(sprintf("g%i.s%i symbol size %g", cur_graph, cur_set,\ bar_width)); __grsendmat__(gr_mat, "bar"); else xb = tmp_xb; yb = tmp_yb; endif endfunction