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eigK.m
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eigK.m
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function lab = eigK(x,K)
% [lab,q,f] = eigK(x,K)
%
% EIGK Computes the spectral values ("eigenvalues") or even the complete
% spectral decomposition of a vector x with respect to a self-dual
% homogeneous cone K.
%
% > LAB = EIGK(x,K) This yield the spectral values of x with respect to
% the self-dual homogeneous cone that you describe in the structure
% K. Up to 4 fields can be used, called K.l, K.q, K.r, and K.s, for
% Linear, Quadratic, Rotated, and Semi-definite. Type `help sedumi'
% for more details on this structure.
%
% The length of the vector LAB is the order of the cone. Note that
% x in K if and only if LAB>=0, and x in int(K) if and only if LAB>0.
%
% See also sedumi, mat, vec, eyeK.
% Complete rewrite for SeDuMi 1.3 by Michael C. Grant
% Copyright (C) 2013 Michael C. Grant.
%
% This file is part of SeDuMi 1.1 by Imre Polik and Oleksandr Romanko
% Copyright (C) 2005 McMaster University, Hamilton, CANADA (since 1.1)
%
% Copyright (C) 2001 Jos F. Sturm (up to 1.05R5)
% Dept. Econometrics & O.R., Tilburg University, the Netherlands.
% Supported by the Netherlands Organization for Scientific Research (NWO).
%
% Affiliation SeDuMi 1.03 and 1.04Beta (2000):
% Dept. Quantitative Economics, Maastricht University, the Netherlands.
%
% Affiliations up to SeDuMi 1.02 (AUG1998):
% CRL, McMaster University, Canada.
% Supported by the Netherlands Organization for Scientific Research (NWO).
%
% This program is free software; you can redistribute it and/or modify
% it under the terms of the GNU General Public License as published by
% the Free Software Foundation; either version 2 of the License, or
% (at your option) any later version.
%
% This program is distributed in the hope that it will be useful,
% but WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
% GNU General Public License for more details.
%
% You should have received a copy of the GNU General Public License
% along with this program; if not, write to the Free Software
% Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
% 02110-1301, USA
%
if isfield(K,'rsdpN'),
% The internal SeDuMi cone format.
is_int = true;
nf = 0;
nl = K.l;
nq = length(K.q);
nr = 0;
ns = length(K.s);
nrsdp = K.rsdpN;
N = nl+2*length(K.q)+sum(K.s);
else
% The external SeDuMi cone format.
is_int = false;
N = 0;
if isfield(K,'f'), nf = K.f; else nf = 0; end
if isfield(K,'l'), nl = K.l; N = N + nl; else nl = 0; end
if isfield(K,'q'), nq = length(K.q); N = N + 2 * nq; else nq = 0; end
if isfield(K,'r'), nr = length(K.r); N = N + 2 * nr; else nr = 0; end
if isfield(K,'s'), ns = length(K.s); N = N + sum(K.s); else ns = 0; end
nrsdp = ns;
end
li = 0;
xi = nf;
lab = zeros(N,1);
li(li+1:li+nl) = x(xi+1:xi+nl);
xi = xi + nl;
li = li + nl;
if nq,
tmp = sqrt(0.5);
if is_int,
% Internal version: all of the x0 values are at the front, and the
% vectors are stacked in order after that.
zi = xi;
xi = xi + nq;
for i = 1:nq,
kk = K.q(i) - 1;
x0 = x(zi+i);
lab(li+1:li+2) = tmp*(x0+[-1;+1]*norm(x(xi+1:xi+kk)));
xi = xi + kk;
li = li + 2;
end
else
for i = 1:length(K.q)
kk = K.q(i);
x0 = x(xi+1);
lab(li+1:li+2) = tmp*(x0+[-1;+1]*norm(x(xi+2:xi+kk)));
xi = xi + kk;
li = li + 2;
end
end
end
for i = 1:nr,
% Only the external format need be implemented here
ki = K.r(i);
x1 = xx(xi+1);
x2 = xx(xi+2);
lab(li+1:li+2) = 0.5*(x1+x2+[-1;+1]*norm([x1-x2;2*x(xi+3:xi+ki)]));
xi = xi + ki;
li = li + 2;
end
for i = 1 : ns,
ki = K.s(i);
qi = ki * ki;
XX = x(xi+1:xi+qi);
xi = xi + qi;
if i > nrsdp,
XX = XX + 1i*x(xi+1:xi+qi);
xi = xi + qi;
end
XX = reshape(XX,ki,ki);
XX = XX + XX';
lab(li+1:li+ki) = 0.5*eig( XX );
li = li + ki;
end