function [ know, x ] = p00_sol ( problem, m, know )
%*****************************************************************************80
%
%% P00_SOL returns the solution for any problem.
%
% Licensing:
%
% This code is distributed under the GNU LGPL license.
%
% Modified:
%
% 07 January 2012
%
% Author:
%
% John Burkardt
%
% Input:
%
% integer PROBLEM, the problem number.
%
% integer M, the spatial dimension.
%
% integer KNOW, 0, or the index of the previously returned solution.
%
% Output:
%
% integer KNOW, 0 if there are no more solutions, or it is the
% index of the next solution.
%
% real X(M), the solution, if known.
%
if ( problem == 1 )
[ know, x ] = p01_sol ( m, know );
elseif ( problem == 2 )
[ know, x ] = p02_sol ( m, know );
elseif ( problem == 3 )
[ know, x ] = p03_sol ( m, know );
elseif ( problem == 4 )
[ know, x ] = p04_sol ( m, know );
elseif ( problem == 5 )
[ know, x ] = p05_sol ( m, know );
elseif ( problem == 6 )
[ know, x ] = p06_sol ( m, know );
elseif ( problem == 7 )
[ know, x ] = p07_sol ( m, know );
elseif ( problem == 8 )
[ know, x ] = p08_sol ( m, know );
elseif ( problem == 9 )
[ know, x ] = p09_sol ( m, know );
elseif ( problem == 10 )
[ know, x ] = p10_sol ( m, know );
elseif ( problem == 11 )
[ know, x ] = p11_sol ( m, know );
elseif ( problem == 12 )
[ know, x ] = p12_sol ( m, know );
else
fprintf ( 1, 'x\n' );
fprintf ( 1, 'P00_SOL - Fatal error!\n' );
fprintf ( 1, ' Illegal value of PROBLEM = %d\n', problem );
error ( 'P00_SOL - Fatal error!' );
end
return
end