%%***************************************************************************** %% sqlpmisc: %% unscale and produce infeasibility certificates if appropriate %% %% SDPT3: version 3.1 %% Copyright (c) 1997 by %% K.C. Toh, M.J. Todd, R.H. Tutuncu %% Last Modified: 16 Sep 2004. %%***************************************************************************** function [X,y,Z,termcode,resid,reldist,msg] = sqlpmisc(blk,At,C,b,X,y,Z,permZ,param); termcode = param.termcode; iter = param.iter; obj = param.obj; relgap = param.relgap; prim_infeas = param.prim_infeas; dual_infeas = param.dual_infeas; homRd = param.homRd; homrp = param.homrp; AX = param.AX; ZpATynorm = param.ZpATynorm; m0 = param.m0; indeprows = param.indeprows; normX0 = param.normX0; normZ0 = param.normZ0; inftol = param.inftol; maxit = param.maxit; scale_data = param.scale_data; printlevel = param.printlevel; %% resid = []; reldist = []; msg = []; if (scale_data) normA = param.normA; normC = param.normC; normb = param.normb; else normA = 1; normC = 1; normb = 1; end Anorm = ops(At,'norm'); xnorm = ops(X,'norm'); ynorm = norm(y); infeas = max(prim_infeas,dual_infeas); %% if (iter >= maxit) termcode = -6; msg = 'sqlp stop: maximum number of iterations reached'; if (printlevel); fprintf('\n %s',msg); end end if (termcode <= 0) %% %% To detect near-infeasibility when the algorithm provides %% a "better" certificate of infeasibility than of optimality. %% err = max(infeas,relgap); iflag = 0; if (obj(2) > 0) if (homRd < 0.1*sqrt(err*inftol)) iflag = 1; msg = sprintf('prim_inf,dual_inf,relgap = %3.2e, %3.2e, %3.2e',... prim_infeas,dual_infeas,relgap); if (printlevel); fprintf('\n %s',msg); end termcode = 1; end end if (obj(1) < 0) if (homrp < 0.1*sqrt(err*inftol)) iflag = 1; msg = sprintf('prim_inf,dual_inf,relgap = %3.2e, %3.2e, %3.2e',... prim_infeas,dual_infeas,relgap); if (printlevel); fprintf('\n %s',msg); end termcode = 2; end end if (iflag == 0) if (scale_data == 1) X = ops(ops(X,'./',normA),'*',normb); y = y*normC; Z = ops(ops(Z,'.*',normA),'*',normC); end end end if (termcode == 1) & (iter > 3) msg = 'sqlp stop: primal problem is suspected of being infeasible'; if (printlevel); fprintf('\n %s',msg); end if (scale_data == 1) X = ops(X,'./',normA); b = b*normb; end rby = 1/(b'*y); y = rby*y; Z = ops(Z,'*',rby); resid = ZpATynorm * rby; reldist = ZpATynorm/(Anorm*ynorm); end if (termcode == 2) & (iter > 3) msg = 'sqlp stop: dual problem is suspected of being infeasible'; if (printlevel); fprintf('\n %s',msg); end if (scale_data == 1) C = ops(C,'.*',normC); Z = ops(Z,'.*',normA); end tCX = blktrace(blk,C,X); X = ops(X,'*',1/(-tCX)); resid = norm(AX)/(-tCX); reldist = norm(AX)/(Anorm*xnorm); end if (termcode == 3) maxblowup = max(ops(X,'norm')/normX0,ops(Z,'norm')/normZ0); msg = sprintf('sqlp stop: primal or dual is diverging, %3.1e',maxblowup); if (printlevel); fprintf('\n %s',msg); end end [X,Z] = unperm(blk,permZ,X,Z); if ~isempty(indeprows) ytmp = zeros(m0,1); ytmp(indeprows) = y; y = ytmp; end %%***************************************************************************** %% unperm: undo the permutations applied in validate. %% %% [X,Z] = unperm(blk,permZ,X,Z); %% %% undoes the permutation introduced in validate. %%***************************************************************************** function [X,Z] = unperm(blk,permZ,X,Z); %% for p = 1:size(blk,1) if (strcmp(blk{p,1},'s') & ~isempty(permZ{p})) per = permZ{p}; X{p} = X{p}(per,per); Z{p} = Z{p}(per,per); end end %%*****************************************************************************