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// Copyright (C) 2010 - DIGITEO - Michael Baudin
//
// This file must be used under the terms of the GNU LGPL license.
function errmsg = fminimaxCheckrhs ( funname , rhs , rhsset )
// Generates an error if the number of RHS is not in given set.
//
// Calling Sequence
// errmsg = fminimaxCheckrhs ( funname , rhs , rhsset )
//
// Parameters
// funname : a 1 x 1 matrix of strings, the name of the calling function.
// rhs : a 1 x 1 matrix of floating point integers, the actual number of input arguments
// rhsset : a 1 x n or n x 1 matrix of floating point integers, the authorized number of input arguments
// errmsg : a 1 x 1 matrix of strings, the error message. If there was no error, the error message is the empty matrix.
//
// Description
// This function is designed to be used to design functions with
// variable number of input arguments.
// Notice that it is useless to call this function if the
// function definition does not use the varargin statement.
// Last update : 05/08/2010.
// Last update : 29/07/2010.
//
// Examples
// // The function takes 2/3 input arguments and 1 output arguments
// function y = myfunction ( varargin )
// [lhs, rhs] = argn()
// fminimaxCheckrhs ( "myfunction" , rhs , 2:3 )
// fminimaxChecklhs ( "myfunction" , lhs , 1 )
// x1 = varargin(1)
// x2 = varargin(2)
// if ( rhs >= 3 ) then
// x3 = varargin(3)
// else
// x3 = 2
// end
// y = x1 + x2 + x3
// endfunction
// // Calling sequences which work
// y = myfunction ( 1 , 2 )
// y = myfunction ( 1 , 2 , 3 )
// // Calling sequences which generate an error
// y = myfunction ( 1 )
// y = myfunction ( 1 , 2 , 3 , 4 )
//
// // The function takes 2 or 4 input arguments, but not 3
// function y = myfunction ( varargin )
// [lhs, rhs] = argn()
// fminimaxCheckrhs ( "myfunction" , rhs , [2 4] )
// fminimaxChecklhs ( "myfunction" , lhs , 1 )
// x1 = varargin(1)
// x2 = varargin(2)
// if ( rhs >= 3 ) then
// x3 = varargin(3)
// x4 = varargin(4)
// else
// x3 = 2
// x4 = 3
// end
// y = x1 + x2 + x3 + x4
// endfunction
// // Calling sequences which work
// y = myfunction ( 1 , 2 )
// y = myfunction ( 1 , 2 , 3 , 4 )
// // Calling sequences which generate an error
// y = myfunction ( 1 )
// y = myfunction ( 1 , 2 , 3 )
// y = myfunction ( 1 , 2 , 3 , 4, 5 )
//
// // The function takes 2 input arguments and 0/1 output arguments.
// // Notice that if the checkrhs function is not called,
// // the variable x2 might be used from the user's context,
// // that is, if the caller has defined the variable x2, it
// // is used in the callee.
// // Here, we want to avoid this.
// function y = myfunction ( x1 , x2 )
// [lhs, rhs] = argn()
// fminimaxCheckrhs ( "myfunction" , rhs , 2 )
// fminimaxChecklhs ( "myfunction" , lhs , [0 1] )
// y = x1 + x2
// endfunction
// // Calling sequences which work
// y = myfunction ( 1 , 2 )
// // Calling sequences which generate an error
// y = myfunction ( 1 )
// y = myfunction ( 1 , 2 , 3 )
//
// Authors
// Michael Baudin - 2010 - DIGITEO
//
errmsg = []
if ( and(rhs <> rhsset) ) then
rhsstr = strcat(string(rhsset)," ")
errmsg = msprintf(gettext("%s: Unexpected number of input arguments : %d provided while the number of expected input arguments should be in the set [%s]."), funname , rhs , rhsstr );
error(errmsg)
end
endfunction
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