# multi dimension dynamic array allocation

I want to use dynamic allocation for multi-block CFD code, where, the index (i,j,k) varies for different blocks. I really dont know, how to allocate arbitrary array index for n number of blocks and pass it to subroutines. I have given a sample code, which gives error message "Error: Expression at (1) must be scalar", on compilation using gfortran.

``````  common/iteration/nb
integer, dimension (:),allocatable::nib,njb,nkb
real, dimension (:,:,:,:),allocatable::x,y,z
allocate (nib(nb),njb(nb),nkb(nb))
do l=1,nb
ni=nib(l)
nj=njb(l)
nk=nkb(l)
allocate (x(l,ni,nj,nk),y(l,ni,nj,nk),z(l,ni,nj,nk))
enddo
call gridatt (x,y,z,nib,njb,nkb)
deallocate(x,y,z,nib,njb,nkb)
end

subroutine gridatt (x,y,z,nib,njb,nkb)
common/iteration/nb
integer, dimension (nb)::nib,njb,nkb
real, dimension (nb,nib,njb,nkb)::x,y,z
do l=1,nb
\$ (((y(l,i,j,k),i=1,nib(l)),j=1,njb(l)),k=1,nkb(l)),
\$ (((z(l,i,j,k),i=1,nib(l)),j=1,njb(l)),k=1,nkb(l))
enddo
return
end
``````
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Could you please show us exactly what `Expression at (1)` is? – Hristo Iliev Jun 24 '12 at 18:35
Error messages are at allocate statements x,y,z, and at nib in dimension (nb,nib,njb,nkb) – manokaran krishnamurthy Jun 25 '12 at 17:06

The error message gfortran gives, is as good as they get. It points to `nib` in the line

``````real, dimension (nb,nib,njb,nkb)::x,y,z
``````

`nib` is declared as an array. This is not allowed. (What would the size of `x`, `y`, and `z` be in this dimension?)

Apart from this, I don't really understand your description of what it is that you are trying to do, and the sample code you show doesn't make much sense to me.

``````common/iteration/nb
integer, dimension (:),allocatable::nib,njb,nkb
real, dimension (:,:,:,:),allocatable::x,y,z
allocate (nib(nb),njb(nb),nkb(nb))
``````

When writing new code, using modules to communicate between program units is highly preferred. Old style common blocks are to be avoided.

You are trying to allocate `nib`, `njb`, and `nkb` with size `nb`. The problem is that `nb` hasn't been given a value yet (and won't be given one anywhere in the code).

``````do l=1,nb
ni=nib(l)
nj=njb(l)
nk=nkb(l)
allocate (x(l,ni,nj,nk),y(l,ni,nj,nk),z(l,ni,nj,nk))
enddo
``````

Again the problem with `nb` not having a value. This loop runs for an unknown number of times. You're also using the arrays `nib`, `njb`, and `nkb`, which don't contain any values yet.

In each iteration of the loop `x`, `y`, and `z` get allocated. This will lead to a runtime error in the second iteration, because you can not allocate an already allocated variable. Even if the allocations would work, this loop would be useless, because the three arrays would be reset in each iteration and would eventually be set to the dimensions of the last allocation.

Now that I'm writing this, I'm starting to think that what it is that you are trying to do, is create so called 'jagged arrays': you want to create a block in `x(1,:,:,:)` that differs in size in the second, third, and/or fourth dimension from the block in `x(2,:,:,:)`, and so on. This is simply not possible in fortran.

One way to achieve this would be to create a user defined type with an allocatable, three dimensional array component, and create an array of this type. You can then allocate the array component to the desired size for each element of the array of user defined type. This would look something like the following (disclaimer: untested and just one possible way of achieving your goal).

``````type :: blocktype
real, dimension(:, :, :), allocatable :: x, y, z
end type blocktype

type(blocktype), dimension(nb) :: myblocks
``````

You can then run a loop to allocate `x`, `y`, and `z` to a different size for each array element. This is assuming `nb` has been set to the required value, and `nib`, `njb`, and `nkb` contain the desired sizes for the different blocks.

``````do block = 1, nb
ni = nib(block)
nj = njb(block)
nk = nkb(block)
allocate(myblocks(block)%x(ni, nj, nk))
allocate(myblocks(block)%y(ni, nj, nk))
allocate(myblocks(block)%z(ni, nj, nk))
enddo
``````

If you want to do it like this, you will definitely want to put your procedures in modules, because that way you automatically get explicit interfaces, which are required for passing around such arrays of user defined type.

One afterthought: Don't use implicit typing, not even in sample code. Always use `implicit none`.

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Thankyou for your detailed comments. I just gave this sample program to imply my problem not for execution. Well, I will try the method and give you the feedback. Regards. – manokaran krishnamurthy Jun 25 '12 at 17:01