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Support TeX elements in FreeType renderer. * libinterp/corefcn/txt-eng.cc: New file. Contains mapping from symbol name to character code, in Unicode and MS symbol. * libinterp/corefcn/modules.mk (COREFCN_SRC): Add txt-eng.cc. * libinterp/corefcn/oct-tex-lexer.ll: Add "\n" to rules applicable to ".", as the latter does not include new line characters. * libinterp/corefcn/oct-tex-parser.yy: Remove debug statements. * libinterp/corefcn/txt-eng.ft.cc (gripe_missing_glyph, gripe_glyph_render): Change signature from char to FT_ULong. (ft_render::ft_render): Adapt to new/removed members. (ft_render::~ft_render): Remove use of fonts member. (ft_render::set_font): Likewise. Use font instead. (ft_render::push_new_line): Likewise. Change meaning of yoffset and initialize line_yoffset. (ft_render::update_line_bbox): New method. (ft_render::set_mode): Change meaning of yoffset and initialize line_yoffset. (ft_render::process_character): New method. (ft_render::visit(text_element_string)): Use it. (ft_render::visit(text_element_list), ft_render::visit(text_element_subscript), ft_render::visit(text_element_superscript), ft_render::visit(text_element_color), ft_render::visit(text_element_fontsize), ft_render::visit(text_element_fontname), ft_render::visit(text_element_fontstyle), ft_render::visit(text_element_symbol)): New methods. (ft_render::set_color): Use color member instead of red/green/blue. * libinterp/corefcn/txt-eng-ft.h (ft_render::visit(text_element_list), ft_render::visit(text_element_subscript), ft_render::visit(text_element_superscript), ft_render::visit(text_element_color), ft_render::visit(text_element_fontsize), ft_render::visit(text_element_fontname), ft_render::visit(text_element_fontstyle), ft_render::visit(text_element_symbol)): New methods. (ft_render::update_line_bbox, ft_render::process_character): New methods. (ft_render::current_face): Removed method.i (ft_render::font): New member, replaces obsolete ft_render::fonts. (ft_render::line_yoffset): New member. (ft_render::color): New member, replaces obsolete red, green and blue. (ft_render::ft_font::ft_font()): Implement default constructor. (ft_render::ft_font::operator=): Fix incorrect use of FT_Reference_Face return value. (ft_render::ft_font::is_valid): New method. * libinterp/corefcn/txt-eng.h (class text_element_symbol, class text_element_fontname, class text_element_fontsize, class text_element_fontname, class text_element_fontstyle, class text_element_color): Add forward definition. (text_element_symbol::invalid_code): New enum. (text_element_symbol::code): New member. (text_element_symbol::text_element_symbol): Initialize it. (text_element_symbol::get_symbol_code): New method. (text_element_fontstyle::get_fontstyle): New method. (text_element_fontname::get_fontname): Renamed from fontname. (text_element_fontsize::get_fontsize): Renamed from fontsize.
author Michael Goffioul <michael.goffioul@gmail.com>
date Sun, 18 Aug 2013 16:36:46 -0400
parents 87ba70043bfc
children bc924baa2c4e
line wrap: on
line source

## Copyright (C) 2007-2012 David Bateman
##
## 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} {} scatter (@var{x}, @var{y})
## @deftypefnx {Function File} {} scatter (@var{x}, @var{y}, @var{s})
## @deftypefnx {Function File} {} scatter (@var{x}, @var{y}, @var{s}, @var{c})
## @deftypefnx {Function File} {} scatter (@dots{}, @var{style})
## @deftypefnx {Function File} {} scatter (@dots{}, "filled")
## @deftypefnx {Function File} {} scatter (@dots{}, @var{prop}, @var{val}, @dots{})
## @deftypefnx {Function File} {} scatter (@var{hax}, @dots{})
## @deftypefnx {Function File} {@var{h} =} scatter (@dots{})
## Draw a 2-D scatter plot.
##
## A marker is plotted at each point defined by the coordinates in the vectors
## @var{x} and  @var{y}.
##
## The size of the markers is determined by @var{s}, which can be a scalar
## or a vector of the same length as @var{x} and @var{y}.  If @var{s}
## is not given, or is an empty matrix, then a default value of 8 points is
## used.
##
## The color of the markers is determined by @var{c}, which can be a string
## defining a fixed color; a 3-element vector giving the red, green, and blue
## components of the color; a vector of the same length as @var{x} that gives
## a scaled index into the current colormap; or an @nospell{Nx3} matrix defining
## the RGB color of each marker individually.
##
## The marker to use can be changed with the @var{style} argument, that is a
## string defining a marker in the same manner as the @code{plot} command.
## If no marker is specified it defaults to 'o' or circles.
## If the argument "filled" is given then the markers are filled.
##
## Additional property/value pairs are passed directly to the underlying
## patch object.
##
## 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 patch
## object.
## 
## Example:
##
## @example
## @group
## x = randn (100, 1);
## y = randn (100, 1);
## scatter (x, y, [], sqrt (x.^2 + y.^2));
## @end group
## @end example
##
## @seealso{scatter3, patch, plot}
## @end deftypefn

function retval = scatter (varargin)

  [hax, varargin, nargin] = __plt_get_axis_arg__ ("scatter", varargin{:});

  if (nargin < 2)
    print_usage ();
  else
  oldfig = [];
  if (isempty (hax))
    oldfig = get (0, "currentfigure");
  endif
    unwind_protect
      hax = newplot (hax);
      
      htmp = __scatter__ (hax, 2, "scatter", varargin{:});
    unwind_protect_cleanup
    if (! isempty (oldfig))
      set (0, "currentfigure", oldfig);
    endif
    end_unwind_protect
  endif

  if (nargout > 0)
    retval = htmp;
  endif

endfunction


%!demo
%! clf;
%! x = randn (100, 1);
%! y = randn (100, 1);
%! scatter (x, y, 'r');
%! title ('scatter() plot with red bubbles');

%!demo
%! clf;
%! x = randn (100, 1);
%! y = randn (100, 1);
%! c = x .* y;
%! scatter (x, y, 20, c, 'filled');
%! title ('scatter() with colored filled bubbles');

%!demo
%! clf;
%! x = randn (100, 1);
%! y = randn (100, 1);
%! scatter (x, y, [], sqrt (x.^2 + y.^2));
%! title ({'scatter() plot'; ...
%!         'bubble color determined by distance from origin'});

%!demo
%! clf;
%! rand_10x1_data5 = [0.777753, 0.093848, 0.183162, 0.399499, 0.337997, 0.686724, 0.073906, 0.651808, 0.869273, 0.137949];
%! rand_10x1_data6 = [0.37460, 0.25027, 0.19510, 0.51182, 0.54704, 0.56087, 0.24853, 0.75443, 0.42712, 0.44273];
%! x = rand_10x1_data5;
%! y = rand_10x1_data6;
%! s = 10 - 10*log (x.^2 + y.^2);
%! h = scatter (x, y, [], 'r', 's');
%! title ({'scatter() plot'; ...
%!         'marker is square, color is red'});

%!demo
%! clf;
%! rand_10x1_data3 = [0.42262, 0.51623, 0.65992, 0.14999, 0.68385, 0.55929, 0.52251, 0.92204, 0.19762, 0.93726];
%! rand_10x1_data4 = [0.020207, 0.527193, 0.443472, 0.061683, 0.370277, 0.947349, 0.249591, 0.666304, 0.134247, 0.920356];
%! x = rand_10x1_data3;
%! y = rand_10x1_data4;
%! s = 10 - 10*log (x.^2 + y.^2);
%! h = scatter (x, y, [], 'r', 's', 'filled');
%! title ({'scatter() plot'; ...
%!         'marker is square, marker is filled, color is red'});

%!demo
%! clf;
%! rand_10x1_data1 = [0.171577, 0.404796, 0.025469, 0.335309, 0.047814, 0.898480, 0.639599, 0.700247, 0.497798, 0.737940];
%! rand_10x1_data2 = [0.75495, 0.83991, 0.80850, 0.73603, 0.19360, 0.72573, 0.69371, 0.74388, 0.13837, 0.54143];
%! x = rand_10x1_data1;
%! y = rand_10x1_data2;
%! s = 10 - 10*log (x.^2 + y.^2);
%! h = scatter (x, y, s, s, 's', 'filled');
%! title ({'scatter() plot with filled square markers', ...
%!         'size and color of markers determined by algorithm'});

%!demo
%! clf;
%! k = 1;
%! for m = [1, 3]
%!   for n = [101, 50, 1]
%!     x = rand (n, 1);
%!     y = rand (n, 1);
%!     if (m > 1)
%!       str = 'Three Colors';
%!       idx = ceil (rand (n, 1) * 3);
%!       colors = eye (3);
%!       colors = colors(idx, :);
%!     else
%!       str = 'Random Colors';
%!       colors = rand (n, m);
%!     end
%!     if (n == 1)
%!       str = sprintf ('%s: 1 point', str);
%!     elseif (n < 100)
%!       str = sprintf ('%s: < 100 points', str);
%!     else
%!       str = sprintf ('%s: > 100 points', str);
%!     end
%!     subplot (2,3,k);
%!     k = k + 1;
%!     scatter (x, y, 15, colors, 'filled');
%!     axis ([0 1 0 1]);
%!     title (str);
%!   end
%! end

%!demo
%! clf;
%! k = 1;
%! for m = [1, 3]
%!   for n = [101, 50, 1]
%!     x = rand (n, 1);
%!     y = rand (n, 1);
%!     if (m > 1)
%!       str = 'Three Colors';
%!       idx = ceil (rand (n, 1) * 3);
%!       colors = eye (3);
%!       colors = colors(idx, :);
%!     else
%!       str = 'Random Colors';
%!       colors = rand (n, m);
%!     end
%!     if (n == 1)
%!       str = sprintf ('%s: 1 point', str);
%!     elseif (n < 100)
%!       str = sprintf ('%s: < 100 points', str);
%!     else
%!       str = sprintf ('%s: > 100 points', str);
%!     end
%!     subplot (2,3,k);
%!     k = k + 1;
%!     scatter (x, y, 15, colors);
%!     axis ([0 1 0 1]);
%!     title (str);
%!   end
%! end