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# generate a matrix of possible combinations using fortran

I have an array X(9,2) and I want to generate another array B(512,9) with all the possible combinations.

I thought about doing 9 do loops, but I was hoping for a more efficient way.

This is what I have

``````    do i1=1, 2
do i2=1, 2
do i3=1,2
do i4=1,2
do i5=1,2
do i6=1,2
do i7=1,2
do i8=i,2
do i9=1,2
B(row, col) = X(1,i1)
col = col + 1
B(row, col) = X(2,i2)
col = col + 1
B(row, col) = X(3,i3)
col = col + 1
B(row, col) = X(4,i4)
col = col + 1
B(row, col) = X(5,i5)
col = col + 1
B(row, col) = X(6,i6)
col = col + 1
B(row, col) = X(7,i7)
col = col + 1
B(row, col) = X(8,i8)
col = col + 1
B(row, col) = X(9,i9)
col = 1
row = row + 1
end do
end do
end do
end do
end do
end do
end do
end do
end do
``````

Is there something wrong with this way? Is there a better way of doing this?

Thanks!

-

You should make the loops the other way around by looping over the elements of B like the following (I have a print statement instead of the assignment...):

`````` program test
implicit none

integer, parameter :: nn = 9, imax = 2
integer :: row, col, ii
integer :: indices(nn)

indices(:) = 1
do row = 1, imax**nn
do col = 1, nn
print "(A,I0,A,I0,A,I0,A,I0,A)", "B(", row, ",", col, ") = X(",&
& col, ",", indices(col), ")"
!B(row, col) = X(col, indices(col))
end do
indices(nn) = indices(nn) + 1
ii = nn
do while (ii > 1 .and. indices(ii) > imax)
indices(ii) = 1
indices(ii-1) = indices(ii-1) + 1
ii = ii - 1
end do
end do

end program test
``````

As far as I can see, this gives the same result as your original code, but is by far more compact and works for any tuple sizes and index ranges.

-

I think this does the trick too

``````ncol = 9
B = 0
tot = 2**ncol
do n = 1, ncol
div = 2**n
step = tot/div
do m = 0, div-1
fr = 1 + m*step
to = fr + step
B(fr:to,n) = X(n, 1+mod(m,2))
end do
end do

do n = 1, tot
write(*,*) (B(n,i), i=1,ncol)
end do
``````
-

There is indeed a better way. See, for instance, Martin Broadhurst's combinatorial algorithms -- in particular the cartesian product example and the file `n-tuple.c`. Despite being in C, the code uses arrays and reference parameters throughout and so could be translated to Fortran without any difficulty other than changing the indices to start at 1 rather than 0. The approach he uses is to count upwards with an index array.

-
Thanks Simon! I don't know c, any change of getting some fortran code? – Ignacio Jan 29 '13 at 1:37
I haven't come across any code in Fortran that would be suitable. The translation from C wouldn't be at all difficult, though. You'd need to change the `for` loop into a `while` loop and the `++` operators from `x++` into `x=x+1` etc. but otherwise the Fortran subroutine would look very much like the C. You could almost do it by trying to compile the C with a Fortran compiler and just fixing the syntax errors that the compiler reports one-by-one. You can find a good introductory (and quick) guide to C for Fortran programmers here – Simon Jan 29 '13 at 2:55