function grid_level = index_level_own ( level, level_max, dim_num, ...
point_num, grid_index, grid_base )
%*****************************************************************************80
%
%% INDEX_LEVEL_OWN: determine first level at which given index is generated.
%
% Discussion:
%
% We are constructing a sparse grid based on a 1D OWN rule (Gauss Legendre
% or Gauss Hermite). The grid is built up of product grids,
% with a characteristic LEVEL.
%
% We are concerned with identifying points in this product grid which
% have actually been generated previously, on a lower value of LEVEL.
%
% This routine determines the lowest value of LEVEL at which each of
% the input points would be generated.
%
% In 1D, given LEVEL, the number of points is ORDER = 2**(LEVEL+1) + 1,
% (except that LEVEL = 0 implies ORDER = 1%), the BASE is (ORDER-1)/2,
% and the point INDEX values range from -BASE to +BASE.
%
% The values of INDEX and BASE allow us to determine the abstract
% properties of the point. In particular, if INDEX is 0, the corresponding
% abscissa is 0, the special "nested" value we need to take care of.
%
% Licensing:
%
% This code is distributed under the MIT license.
%
% Modified:
%
% 30 March 2008
%
% Author:
%
% John Burkardt
%
% Reference:
%
% Fabio Nobile, Raul Tempone, Clayton Webster,
% A Sparse Grid Stochastic Collocation Method for Partial Differential
% Equations with Random Input Data,
% SIAM Journal on Numerical Analysis,
% Volume 46, Number 5, 2008, pages 2309-2345.
%
% Parameters:
%
% Input, integer LEVEL, the level at which these points were
% generated. LEVEL_MIN <= LEVEL <= LEVEL_MAX.
%
% Input, integer LEVEL_MAX, the maximum level.
%
% Input, integer DIM_NUM, the spatial dimension.
%
% Input, integer POINT_NUM, the number of points to be tested.
%
% Input, integer GRID_INDEX(DIM_NUM,POINT_NUM), the indices of the
% points to be tested.
%
% Input, integer GRID_BASE(DIM_NUM), the "base", which is essentially
% the denominator of the index.
%
% Output, integer GRID_LEVEL(POINT_NUM), the value of LEVEL at
% which the point would first be generated. This will be the same as
% the input value of LEVEL, unless the point has an INDEX of 0 and
% a corresponding BASE that is NOT zero.
%
if ( dim_num == 1 )
level_min = level_max;
else
level_min = 0;
end
%
% If a point has a DIM-th component whose INDEX is 0, then the
% value of LEVEL at which this point would first be generated is
% less than LEVEL, unless the DIM-th component of GRID_BASE is 0.
%
for point = 1 : point_num
grid_level(point) = max ( level, level_min );
for dim = 1 : dim_num
if ( grid_index(dim,point) == 0 )
grid_level(point) = max ( grid_level(point) - grid_base(dim), level_min );
end
end
end
return
end