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annotate toolboxes/FullBNT-1.0.7/netlabKPM/process_options.m @ 0:cc4b1211e677 tip

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initial commit to HG from Changeset: 646 (e263d8a21543) added further path and more save "camirversion.m"
author Daniel Wolff
date Fri, 19 Aug 2016 13:07:06 +0200
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Daniel@0 1 % PROCESS_OPTIONS - Processes options passed to a Matlab function.
Daniel@0 2 % This function provides a simple means of
Daniel@0 3 % parsing attribute-value options. Each option is
Daniel@0 4 % named by a unique string and is given a default
Daniel@0 5 % value.
Daniel@0 6 %
Daniel@0 7 % Usage: [var1, var2, ..., varn[, unused]] = ...
Daniel@0 8 % process_options(args, ...
Daniel@0 9 % str1, def1, str2, def2, ..., strn, defn)
Daniel@0 10 %
Daniel@0 11 % Arguments:
Daniel@0 12 % args - a cell array of input arguments, such
Daniel@0 13 % as that provided by VARARGIN. Its contents
Daniel@0 14 % should alternate between strings and
Daniel@0 15 % values.
Daniel@0 16 % str1, ..., strn - Strings that are associated with a
Daniel@0 17 % particular variable
Daniel@0 18 % def1, ..., defn - Default values returned if no option
Daniel@0 19 % is supplied
Daniel@0 20 %
Daniel@0 21 % Returns:
Daniel@0 22 % var1, ..., varn - values to be assigned to variables
Daniel@0 23 % unused - an optional cell array of those
Daniel@0 24 % string-value pairs that were unused;
Daniel@0 25 % if this is not supplied, then a
Daniel@0 26 % warning will be issued for each
Daniel@0 27 % option in args that lacked a match.
Daniel@0 28 %
Daniel@0 29 % Examples:
Daniel@0 30 %
Daniel@0 31 % Suppose we wish to define a Matlab function 'func' that has
Daniel@0 32 % required parameters x and y, and optional arguments 'u' and 'v'.
Daniel@0 33 % With the definition
Daniel@0 34 %
Daniel@0 35 % function y = func(x, y, varargin)
Daniel@0 36 %
Daniel@0 37 % [u, v] = process_options(varargin, 'u', 0, 'v', 1);
Daniel@0 38 %
Daniel@0 39 % calling func(0, 1, 'v', 2) will assign 0 to x, 1 to y, 0 to u, and 2
Daniel@0 40 % to v. The parameter names are insensitive to case; calling
Daniel@0 41 % func(0, 1, 'V', 2) has the same effect. The function call
Daniel@0 42 %
Daniel@0 43 % func(0, 1, 'u', 5, 'z', 2);
Daniel@0 44 %
Daniel@0 45 % will result in u having the value 5 and v having value 1, but
Daniel@0 46 % will issue a warning that the 'z' option has not been used. On
Daniel@0 47 % the other hand, if func is defined as
Daniel@0 48 %
Daniel@0 49 % function y = func(x, y, varargin)
Daniel@0 50 %
Daniel@0 51 % [u, v, unused_args] = process_options(varargin, 'u', 0, 'v', 1);
Daniel@0 52 %
Daniel@0 53 % then the call func(0, 1, 'u', 5, 'z', 2) will yield no warning,
Daniel@0 54 % and unused_args will have the value {'z', 2}. This behaviour is
Daniel@0 55 % useful for functions with options that invoke other functions
Daniel@0 56 % with options; all options can be passed to the outer function and
Daniel@0 57 % its unprocessed arguments can be passed to the inner function.
Daniel@0 58
Daniel@0 59 % Copyright (C) 2002 Mark A. Paskin
Daniel@0 60 %
Daniel@0 61 % This program is free software; you can redistribute it and/or modify
Daniel@0 62 % it under the terms of the GNU General Public License as published by
Daniel@0 63 % the Free Software Foundation; either version 2 of the License, or
Daniel@0 64 % (at your option) any later version.
Daniel@0 65 %
Daniel@0 66 % This program is distributed in the hope that it will be useful, but
Daniel@0 67 % WITHOUT ANY WARRANTY; without even the implied warranty of
Daniel@0 68 % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Daniel@0 69 % General Public License for more details.
Daniel@0 70 %
Daniel@0 71 % You should have received a copy of the GNU General Public License
Daniel@0 72 % along with this program; if not, write to the Free Software
Daniel@0 73 % Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
Daniel@0 74 % USA.
Daniel@0 75 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Daniel@0 76
Daniel@0 77 function [varargout] = process_options(args, varargin)
Daniel@0 78
Daniel@0 79 % Check the number of input arguments
Daniel@0 80 n = length(varargin);
Daniel@0 81 if (mod(n, 2))
Daniel@0 82 error('Each option must be a string/value pair.');
Daniel@0 83 end
Daniel@0 84
Daniel@0 85 % Check the number of supplied output arguments
Daniel@0 86 if (nargout < (n / 2))
Daniel@0 87 error('Insufficient number of output arguments given');
Daniel@0 88 elseif (nargout == (n / 2))
Daniel@0 89 warn = 1;
Daniel@0 90 nout = n / 2;
Daniel@0 91 else
Daniel@0 92 warn = 0;
Daniel@0 93 nout = n / 2 + 1;
Daniel@0 94 end
Daniel@0 95
Daniel@0 96 % Set outputs to be defaults
Daniel@0 97 varargout = cell(1, nout);
Daniel@0 98 for i=2:2:n
Daniel@0 99 varargout{i/2} = varargin{i};
Daniel@0 100 end
Daniel@0 101
Daniel@0 102 % Now process all arguments
Daniel@0 103 nunused = 0;
Daniel@0 104 for i=1:2:length(args)
Daniel@0 105 found = 0;
Daniel@0 106 for j=1:2:n
Daniel@0 107 if strcmpi(args{i}, varargin{j})
Daniel@0 108 varargout{(j + 1)/2} = args{i + 1};
Daniel@0 109 found = 1;
Daniel@0 110 break;
Daniel@0 111 end
Daniel@0 112 end
Daniel@0 113 if (~found)
Daniel@0 114 if (warn)
Daniel@0 115 warning(sprintf('Option ''%s'' not used.', args{i}));
Daniel@0 116 args{i}
Daniel@0 117 else
Daniel@0 118 nunused = nunused + 1;
Daniel@0 119 unused{2 * nunused - 1} = args{i};
Daniel@0 120 unused{2 * nunused} = args{i + 1};
Daniel@0 121 end
Daniel@0 122 end
Daniel@0 123 end
Daniel@0 124
Daniel@0 125 % Assign the unused arguments
Daniel@0 126 if (~warn)
Daniel@0 127 if (nunused)
Daniel@0 128 varargout{nout} = unused;
Daniel@0 129 else
Daniel@0 130 varargout{nout} = cell(0);
Daniel@0 131 end
Daniel@0 132 end