function [bae,fex,fey] = localbc_xy(ae,fex,fey,edges,xl,yl) %localbc_xy imposes vector BC for Poisson error estimator % [bae,fex,fey] = localbc_xy(ae,fex,fey,edges,xl,yl); % input % ae Poisson problem matrix % fex, fey component rhs vector % edges boundary edge vector % xl, yl component vertex coordinates % output % bae Poisson problem matrix % fex, fey compoenent rhs vector % % calls function: specific_flow % IFISS function: DJS; 8 March 2005. % Copyright (c) 2005 D.J. Silvester, H.C. Elman, A. Ramage bae=ae; ffex=fex; ffey=fey; nvtx = length(fex); nbd=length(edges); zero_col=zeros(nvtx,1); zero_row=zeros(1,nvtx); % %% loop over boundary edges for bd=1:nbd ek=edges(bd); % compute boundary edge coordinates xbd(1)=xl(ek);xbd(3)=xl(ek+1);xbd(2)=0.5*(xbd(1)+xbd(3)); ybd(1)=yl(ek);ybd(3)=yl(ek+1);ybd(2)=0.5*(ybd(1)+ybd(3)); % compute interpolated boundary error [bcx,bcy]=specific_flow(xbd,ybd); errorx = bcx(2)-0.5*(bcx(1)+bcx(3)); errory = bcy(2)-0.5*(bcy(1)+bcy(3)); %% DJS/DK mod %% changed 5/2/02 %%back 11/2/03 fex = fex - errorx*bae(:,ek); fey = fey - errory*bae(:,ek); bae(:,ek)=zero_col; bae(ek,:)=zero_row; bae(ek,ek)=1; fex(ek)=errorx; fey(ek)=errory; end return