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opLDL.m
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opLDL.m
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classdef opLDL < opFactorization
%OPLDL Operator representing the LDL factorization of a symmetric
% matrix with optional iterative refinement. Only the lower
% triangle of the input matrix is referenced. This is currently
% only available for real matrices. If the matrix
% is known to be definite, opChol will be more efficient.
%
% opLDL(A) creates an operator for multiplication by the
% inverse of the matrix A implicitly represented by its LDL
% factorization. Optionally, iterative refinement is performed.
% Note that A is an explicit matrix.
%
% The following attributes may be changed by the user:
% * nitref : the maximum number of iterative refinement steps (3)
% * itref_tol : iterative refinement tolerance (1.0e-8)
% * force_itref : force iterative refinement (false)
%
% See also ldl.
%
% Dominique Orban <[email protected]>, 2014.
%
% Copyright 2009, Ewout van den Berg and Michael P. Friedlander
% See the file COPYING.txt for full copyright information.
% Use the command 'spot.gpl' to locate this file.
% http://www.cs.ubc.ca/labs/scl/spot
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Properties
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
properties( SetAccess = private )
P % Permutation operator
L % Lower triangular factor
D % Diagonal factor
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Methods - Public
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
methods
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% opLDL. Constructor
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function op = opLDL(A)
if nargin ~= 1
error('Invalid number of arguments.');
end
% Get size of input matrix
n = size(A,1);
if n ~= size(A,2)
error('Input matrix must be square.');
end
% Construct operator
op = op@opFactorization('LDL', n, n);
B = A;
if ~issparse(A)
B = sparse(A);
end
op.A = opHermitian(B);
[op.L, op.D, p] = ldl(tril(B), 'vector');
op.P = opPermutation(p);
op.Ainv = op.P * inv(op.L') * inv(op.D) * inv(op.L) * op.P';
op.cflag = ~isreal(A);
end % function opLDL
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% transpose
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function opOut = transpose(op)
opOut = op;
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% conj
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function opOut = conj(op)
opOut = op;
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% ctranpose
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function opOut = ctranspose(op)
opOut = op;
end
end % methods - public
end % classdef