# Vectorize a call to a subroutine

I have a program where the call to subroutine `foo` doesn't get vectorized even though `IVDEP` pragma is used. `vec-report3` doesn't give me any reason on why the call is not vectorized. Is it because of memory reference?

Note: arr1, arr2, arr3 are all defined in a common block

``````program test
integer i, j, k, n
double precision arr1(5, 5, n, n), aar2(5, 5, n, n), aar3(5, n, n, n)
!DIR\$ IVDEP
do i=1, n
call foo(arr1(1, 1, i, k), aar2(1, 1, i, k), aar3(1, i, j, k))
enddo
end

subroutine foo( fooarr1, fooarr2, fooarr3 )
implicit none
double precision fooarr1(5, 5), fooarr2(5, 5), fooarr3(5)
some computations on fooarr1, fooarr2, fooarr3
fooarr1,fooarr2,fooarr3 gets updated. But there are no vector dependance

return
end
``````
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Why not move the loop inside `foo` and try to vectorise it. – Hristo Iliev Sep 19 '12 at 8:35
@HristoIliev: That is a good suggestion. I'll try it – arunmoezhi Sep 19 '12 at 16:56
@HristoIliev: It did vectorize after I moved the loop inside `foo`. I'm looking for other options. Will making this subroutine `foo` elemental vectorize the function call? – arunmoezhi Sep 20 '12 at 18:03
You cannot vectorise function calls. Vectorisation is only possible if the function could be inlined, either by hand or automatically by the compiler. – Hristo Iliev Sep 20 '12 at 20:14
May be you are confusing two meanings of vectorise here. One kind of vectorisation is calling a function in a vector context, e.g. `func(x)` where `x` is an array and `func()` gets called for each element of `x`. This could be performed in parallel, e.g. within automatically generated OpenMP parallel regions. The other kind of vectorisation is doing loops with vector instructions so that more elements could be handled at once. These are two completely different things. – Hristo Iliev Sep 20 '12 at 23:31

It can not be simply done, if the subroutine is not trivial and is not inlined. Vectorisation is usage of a limited set of SIMD instructions (Are you on a vector Cray or NEC, or on x86?), where you can for example make four multiplications simultanously. But for simultanous execution of procedures you should be probably heading for parallelization using threads or you should search potential for vectorization inside the subroutine.

--edit-- When I checked the web references, compiler vendors indeed always have examples like

``````!DIR\$ IVDEP
DO I = 1,N
A(I) = A(I+1) + 3.0
END DO
``````

so there are no calls inside, just a simple computation. To be sure what is going on you should also post the code of your subroutine.

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I'm on x86. The subroutine has more than 50 LOC and I din't want to inline it. This snippet is part of a MPI program and it is already parallelized. – arunmoezhi Sep 19 '12 at 7:58
fooarr1,fooarr2,fooarr3 gets updated inside the subroutine which reflects on the original arrays arr1,arr2,arr3. But there are no vector dependance – arunmoezhi Sep 19 '12 at 8:07
Then it can not be vectorized. You could find places for vectorization inside of it or use threads. It doesn't matter there is no dependence, vectorization is for simple loops using special CPU instructions. – Vladimir F Sep 19 '12 at 8:10
Also what is the prurpose of the return before the end of your subroutine? It is redundant. – Vladimir F Sep 19 '12 at 8:13
Is having `return;end subroutine` considered bad style in Fortran? I often write it in out of habit, but I suppose I can work on breaking the habit if Fortran programmers consider that bad style. – mgilson Sep 19 '12 at 10:39