function inside = triangle_contains_point_2d_3 ( t, p )
%*****************************************************************************80
%
%% triangle_contains_point_2d_3() finds if a point is inside a triangle in 2D.
%
% Discussion:
%
% This routine is the same as TRIANGLE_CONTAINS_POINT_2D_2, except
% that it does not assume an ordering of the points. It should
% work correctly whether the vertices of the triangle are listed
% in clockwise or counter clockwise order.
%
% The routine determines if a point P is "to the right of" each of the lines
% that bound the triangle. It does this by computing the cross product
% of vectors from a vertex to its next vertex, and to P.
%
% The point is inside the triangle if it is to the right of all
% the lines, or to the left of all the lines.
%
% This version was suggested by Paulo Ernesto of Maptek Brasil.
%
% Licensing:
%
% This code is distributed under the MIT license.
%
% Modified:
%
% 07 June 2006
%
% Author:
%
% John Burkardt
%
% Input:
%
% real T(2,3), the triangle vertices.
%
% real P(2,1), the point to be checked.
%
% Output:
%
% logical INSIDE, is TRUE if the point is inside
% the triangle or on its boundary.
%
p = p(:);
dim_num = 2;
dir_old = 0.0;
for j = 1 : 3
k = mod ( j, 3 ) + 1;
dir_new = ( p(1,1) - t(1,j) ) * ( t(2,k) - t(2,j) ) ...
- ( p(2,1) - t(2,j) ) * ( t(1,k) - t(1,j) );
if ( dir_new * dir_old < 0.0 )
inside = 0;
return
end
if ( dir_new ~= 0.0 )
dir_old = dir_new;
end
end
inside = 1;
return
end