PROGRAM xqrdcmp C driver for routine qrdcmp INTEGER NP PARAMETER(NP=20) INTEGER i,j,k,l,m,n REAL con,a(NP,NP),c(NP),d(NP),q(NP,NP),qt(NP,NP),r(NP,NP), * x(NP,NP) CHARACTER txt*3 LOGICAL sing open(7,file='MATRX1.DAT',status='old') read(7,*) 10 read(7,*) read(7,*) n,m read(7,*) read(7,*) ((a(k,l), l=1,n), k=1,n) read(7,*) read(7,*) ((x(k,l), k=1,n), l=1,m) C print out a-matrix for comparison with product of Q and R C decomposition matrices. write(*,*) 'Original matrix:' do 11 k=1,n write(*,'(1x,6f12.6)') (a(k,l), l=1,n) 11 continue C perform the decomposition call qrdcmp(a,n,NP,c,d,sing) if (sing) write(*,*) 'Singularity in QR decomposition.' C find the Q and R matrices do 13 k=1,n do 12 l=1,n if (l.gt.k) then r(k,l)=a(k,l) q(k,l)=0.0 else if (l.lt.k) then r(k,l)=0.0 q(k,l)=0.0 else r(k,l)=d(k) q(k,l)=1.0 endif 12 continue 13 continue do 21 i=n-1,1,-1 con=0.0 do 14 k=i,n con=con+a(k,i)**2 14 continue con=con/2.0 do 17 k=i,n do 16 l=i,n qt(k,l)=0.0 do 15 j=i,n qt(k,l)=qt(k,l)+q(j,l)*a(k,i)*a(j,i)/con 15 continue 16 continue 17 continue do 19 k=i,n do 18 l=i,n q(k,l)=q(k,l)-qt(k,l) 18 continue 19 continue 21 continue C compute product of Q and R matrices for comparison with original matrix. do 24 k=1,n do 23 l=1,n x(k,l)=0.0 do 22 j=1,n x(k,l)=x(k,l)+q(k,j)*r(j,l) 22 continue 23 continue 24 continue write(*,*) 'Product of Q and R matrices:' do 25 k=1,n write(*,'(1x,6f12.6)') (x(k,l), l=1,n) 25 continue write(*,*) 'Q matrix of the decomposition:' do 26 k=1,n write(*,'(1x,6f12.6)') (q(k,l), l=1,n) 26 continue write(*,*) 'R matrix of the decomposition:' do 27 k=1,n write(*,'(1x,6f12.6)') (r(k,l), l=1,n) 27 continue write(*,*) '***********************************' write(*,*) 'Press RETURN for next problem:' read(*,*) read(7,'(a3)') txt if (txt.ne.'END') goto 10 close(7) END