function failed = trylusolve(A,b);
% TRYLUSOLVE : Test the Matlab interface to lusolve.
%
% failed = trylusolve;
% This runs several tests on lusolve, using a matrix with the
% structure of "smallmesh". It returns a list of failed tests.
%
% failed = trylusolve(A);
% failed = trylusolve(A,b);
% This times the solution of a system with the given matrix,
% both with lusolve and with Matlab's builtin "\" operator.
% Usually, "\" will be faster for triangular or symmetric postive
% definite matrices, and lusolve will be faster otherwise.
%
% Copyright (c) 1995 by Xerox Corporation. All rights reserved.
% HELP COPYRIGHT for complete copyright and licensing notice.
disp(' ');
disp(['Testing LUSOLVE on ' time]);
disp(' ');
format compact
resetrandoms;
if nargin == 0
A = hbo('smallmesh');
end;
[n,m] = size(A);
if n~=m, error('matrix must be square'), end;
failed = [];
ntest = 0;
tol = 100 * eps * n^2;
if nargin >= 1 % Just try a solve with the given input matrix.
ntest=ntest+1;
v = spparms;
spparms('spumoni',1);
fprintf('Matrix size: %d by %d with %d nonzeros.\n',n,m,nnz(A));
disp(' ');
if nargin == 1
b = rand(n,1);
end;
tic; x=A\b; t1=toc;
fprintf('A\\b time = %d seconds.\n',t1);
disp(' ');
tic; x=lusolve(A,b); t2=toc;
fprintf('LUSOLVE time = %d seconds.\n',t2);
disp(' ');
ratio = t1/t2;
fprintf('Ratio = %d\n',ratio);
residual_norm = norm(A*x-b,inf)/norm(A,inf)
disp(' ');
if residual_norm > tol
disp('*** FAILED ***'); failed = [failed ntest];
end;
spparms(v);
return;
end;
% With no inputs, try several tests on the small mesh.
A = sprandn(A);
p = randperm(n);
I = speye(n);
P = I(p,:);
b = rand(n,2);
ntest=ntest+1;
fprintf('Test %d: Input perm 0.\n',ntest);
x = lusolve(A,b,0);
residual_norm = norm(A*x-b,inf)
disp(' ');
if residual_norm > tol
disp('*** FAILED ***'), disp(' '), failed = [failed ntest];
end;
ntest=ntest+1;
fprintf('Test %d: Input perm given as vector.\n',ntest);
x = lusolve(A,b,p);
residual_norm = norm(A*x-b,inf)
disp(' ');
if residual_norm > tol
disp('*** FAILED ***^G'), disp(' '), failed = [failed ntest];
end;
ntest=ntest+1;
fprintf('Test %d: Input perm given as matrix.\n',ntest);
x = lusolve(A,b,P);
residual_norm = norm(A*x-b,inf)
disp(' ');
if residual_norm > tol
disp('*** FAILED ***'), disp(' '), failed = [failed ntest];
end;
ntest=ntest+1;
fprintf('Test %d: No input perm (colamd done internally).\n',ntest);
x = lusolve(A,b);
residual_norm = norm(A*x-b,inf)
disp(' ');
if residual_norm > tol
disp('*** FAILED ***'), disp(' '), failed = [failed ntest];
end;
ntest=ntest+1;
fprintf('Test %d: Empty matrix.\n',ntest);
x = lusolve([],[]);
disp(' ');
% if max(size(x))
if length(x)
x
disp('*** FAILED ***^G'), disp(' ');
failed = [failed ntest];
end;
ntest=ntest+1;
fprintf('Test %d: Timing versus \\ on the 3-element airfoil matrix.\n',ntest);
A = hbo('airfoil2');
n = max(size(A));
A = sprandn(A);
b = rand(n,1);
tic; x=A\b; t1=toc;
fprintf('A\\b time = %d seconds.\n',t1);
tic; x=lusolve(A,b); t2=toc;
fprintf('LUSOLVE time = %d seconds.\n',t2);
ratio = t1/t2;
fprintf('Ratio = %d\n',ratio);
disp(' ');
if ratio < 1, disp('*** FAILED ***'), disp(' '), failed = [failed ntest]; end;
nfailed = length(failed);
if nfailed
fprintf('\n%d tests failed.\n\n',nfailed);
else
fprintf('\nAll tests passed.\n\n',nfailed);
end;