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Applies to version: 1.5.0

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PLOT_BAUMGARTNER2013 - plot probabilistic prediction matrixes

Program code:

function out = plot_baumgartner2013( p,tang,rang,varargin)
%PLOT_BAUMGARTNER2013 plot probabilistic prediction matrixes
%   Usage:    plot_baumgartner2013(p,tang,rang);
%             plot_baumgartner2013(p,tang,rang,exptang,exprang);
%
%   Input parameters:
%     p       : prediction matrix containing probability mass vectors (PMVs) 
%               for the polar response angle as a function of the polar  
%               target angle (1st dim: response angle, 2nd dim: target
%               angle)
%     rang    : polar response angles
%     tang    : polar target angles
%
%   PLOT_BAUMGARTNER2013(p,rang,tang) plots predicted PMVs referring to  
%   the polar response angles rang as a function of the target angles 
%   tang with gray color coded probabilities similar to Baumgartner et al. 
%   (2002). Actual response patterns from psychoacoustic experiments can be 
%   overlayed optionally.
%
%   h=PLOT_BAUMGARTNER2013(...) additionally returns the figure handle.
%
%   PLOT_BAUMGARTNER2013 accepts the following optional parameters:
%
%     'exptang',exptang   Overlay actual response patterns with the   
%                         experimetal polar target angles exptang.
%
%     'exprang',exprang   Experimetal polar response angles exprang*
%                         corresponding to exptang.
%
%     'MarkerSize',ms     Set the marker (circles) size of the overlaying
%                         response pattern to ms. Default value is 6.
%
%     'cmax',cmax         Set the maximum probability of the color code to 
%                         cmax. Default value is 0.2.
%
%   PLOT_BAUMGARTNER2013 takes the following flags at the end of the line 
%   of input arguments:
%
%     'colorbar'    Display the colorbar. This is the default.
%    
%     'nocolorbar'  Do not display the colorbar.
%
%   See also: baumgartner2013
%
%   References:
%     R. Baumgartner. Modeling sagittal-plane sound localization with the
%     application to subband-encoded head related transfer functions.
%     Master's thesis, University of Music and Performing Arts, Graz, June
%     2012.
%     
%     R. Baumgartner, P. Majdak, and B. Laback. Assessment of Sagittal-Plane
%     Sound Localization Performance in Spatial-Audio Applications,
%     chapter 4, pages 93--119. Springer-Verlag GmbH, 2013.
%     
%
%   Url: http://amtoolbox.org/amt-1.5.0/doc/plot/plot_baumgartner2013.php


%   #StatusDoc: Perfect
%   #StatusCode: Perfect
%   #Verification: Verified
%   #Requirements: SOFA
%   #Author : Robert Baumgartner (2013), Acoustics Research Institute, Vienna, Austria

% This file is licensed unter the GNU General Public License (GPL) either 
% version 3 of the license, or any later version as published by the Free Software 
% Foundation. Details of the GPLv3 can be found in the AMT directory "licences" and 
% at <https://www.gnu.org/licenses/gpl-3.0.html>. 
% You can redistribute this file and/or modify it under the terms of the GPLv3. 
% This file is distributed without any warranty; without even the implied warranty 
% of merchantability or fitness for a particular purpose. 

definput.keyvals.exptang = [];
definput.keyvals.exprang = [];
definput.keyvals.MarkerSize = 6;
definput.keyvals.cmax = 0.1;
definput.flags.colorbar = {'colorbar','no_colorbar'};
[flags,kv]=ltfatarghelper({'exptang','exprang','MarkerSize','cmax'},definput,varargin);


%% Error handling
if size(p,1) ~= length(rang) || size(p,2) ~= length(tang)
  fprintf('\n Error: Dimension mismatch between p and rang/tang! \n Check the order of input arguments to fit plot_baumgartner2013(p,tang,rang). \n')
  return
end



%% Plot prediction matrix 
h = pcolor(tang,rang,p);
if not(isoctave) % does not work with x11 (mac osx)
  axis equal
end

set(gca,'XTick',-60:30:tang(end),'YTick',-60:30:rang(end),...    
	'XLim',[tang(1)-5,tang(end)+5],'YLim',[rang(1)-5,rang(end)+5],...
	'XMinorTick','on','YMinorTick','on')

colormap bone
shading flat
caxis([0 kv.cmax])
if flags.do_colorbar
    colorbar('southoutside')
end
xlabel('Target Angle (\circ)')
ylabel('Response Angle (\circ)')

%% Plot response pattern on top
if length(kv.exptang)==length(kv.exprang)
    hold on 
    h1 = plot( kv.exptang, kv.exprang, 'wo');  % shadow
    set(h1,'MarkerSize',kv.MarkerSize+round(kv.MarkerSize/3),'MarkerFaceColor','none') 
    h2 = plot( kv.exptang, kv.exprang, 'ko'); 
    set(h2,'MarkerSize',kv.MarkerSize,'MarkerFaceColor','none') 
    hold off
end

if nargout == 1
    out = h;
end
    
end