I need some help with allocating arrays dynamically.
I have an array whose size keeps changing at each step - I start with a row vector and add another row vector at each step of a cycle. I need to use this new array for further calculations.
I've been trying to declare the arrays as allocatable, and then allocate them within a do-loop, but I haven't been able to get it working properly.
I am still not very clear with what happens when you deallocate the memory for that particular array. If the data is lost, then to store it before deallocation, do I use another array? How do I specify the size of that array?
Any help would be greatly appreciated.
! Program to generate a matrix whose rows are linearly independent vectors. ! The elements of the matrix are either 1 or -1 program trial implicit none integer, parameter ::n=10,p=5 !where 'p' gives the no. of rows, & 'n' gives the no. of columns real(kind=8),dimension(p,n) ::z1 ! The array to be generated - this needs to be made allocatable ! I'll need the values of this array for further calculations, so should I store ! them in another array? integer::i,j,k,s1 !counters used real(kind=8),dimension(n)::x do i=1,p 15 call random_number(x) !generate random row vectors z1(i,:)=x ! To make the array elements 1's and -1's do j=1,n if (z1(i,j).ge.0.5) then z1(i,j)=1.d0 ! write(*,*),z1(i,j) else z1(i,j)=-1.d0 ! write(*,*),z1(i,j) endif enddo ! Checking the output so far print*,'Z1' do k=1,i write(*,*)(z1(k,j),j=1,n) enddo ! To ckeck for linear independence, get the reduced row echelon form. Check the rows ! of the rref array, if any of the rows contains only zeros, the vectors are not ! linearly independent. Hence, regenerate that particular row of the array. ! Check for linear independence as each row is added call to_rref(z1) do k=1,i s1=0 do j=1,n if(z1(k,j)==0)then s1=s1+1 endif if (s1==n) then print *,'THE VECTORS ARE NOT LINEARLY INDEPENDENT' goto 15 endif enddo enddo do k=1,i write(*,*)(z1(k,j),j=1,n) enddo enddo end ! Subroutine for getting the reduced row echelon form subroutine to_rref(matrix) implicit none real, dimension(:,:), intent(inout) :: matrix integer :: pivot, norow, nocolumn integer :: r, i real, dimension(:), allocatable :: trow pivot = 1 norow = size(matrix, 1) nocolumn = size(matrix, 2) allocate(trow(nocolumn)) do r = 1, norow if ( nocolumn <= pivot ) exit i = r do while ( matrix(i, pivot) == 0 ) i = i + 1 if ( norow == i ) then i = r pivot = pivot + 1 if ( nocolumn == pivot ) return end if end do trow = matrix(i, :) matrix(i, :) = matrix(r, :) matrix(r, :) = trow matrix(r, :) = matrix(r, :) / matrix(r, pivot) do i = 1, norow if ( i /= r ) matrix(i, :) = matrix(i, :) - matrix(r, :) * matrix(i, pivot) end do pivot = pivot + 1 end do deallocate(trow) end subroutine to_rref