# Expected list of ‘lower-bound :’ or list of ‘lower-bound : upper-bound’ specifications at (1) in Fortran pointer

The background of my question is related to Optimizing array additions and multiplications with transposes

I am thinking about optimizng `0.1*A + 0.1*transpose(A,(1,0))` (possibly with more general transpose) by Fortran pointer, where `A` is an array. (`transpose` in python sense, seems related to `reshape` in `Fortran`)

I am not sure if tranposing/multiplying value via pointer will be faster than using array. I thought using pointer may restricted operation within given memory locations. If I use `b = 0.1*a + 0.1*reshape(a, (/n1, n2, n3, n4/), order = (/2,1,3,4/) )` , reshape may be associated to different memory location.

Here is my code

``````  Program transpose_test

use, Intrinsic :: iso_fortran_env, Only :  wp => real64, li => int64
integer, parameter :: dp = selected_real_kind(15, 307)

! Implicit None

real(dp), Dimension( :, :, :, :  ), Allocatable :: a, b

integer :: n1, n2, n3, n4, i, m, n, m_iter
integer :: l1, l2, l3, l4
integer(li) :: start, finish, rate
real(dp) :: sum_time
real(dp), target, allocatable  :: at(:,:,:,:)
real(dp), pointer :: ap(:,:,:,:), bp(:,:,:,:)

Write( *, * ) 'n1, n2, n3, n4?'
Read( *, * ) n1, n2, n3, n4

Allocate( a ( 1:n1, 1:n2, 1:n3, 1:n4 ) )

i = 0
do l1 = 1, n1
do l2 = 1, n2
do l3 = 1, n3
do l4 = 1, n4
a(l1, l2, l3, l4) = i
i = i + 1
end do
end do
end do
end do

at = a
ap => at
bp => ap

!print *, at
print *, 'ap', ap
print *, 'bp', bp
sum_time = 0.0
do n = 1, m_iter
Call System_clock( start, rate )
do l2 = 1, n2
do l1 = 1, n1
bp(l1,l2,:,:) => 0.1*ap(l1,l2,:,:) + 0.1*ap(l2,l1,:,:)
end do
end do
Call System_clock( finish, rate )
sum_time = sum_time + Real( finish - start, dp ) / rate
end do

write (*,*) 'reshape pointer time', sum_time
print *, 'bp', bp

End
``````

gfotran 9.3.0 gives

``````   56 |           bp(l1,l2,:,:) => 0.1*ap(l1,l2,:,:) + 0.1*ap(l2,l1,:,:)
|          1
Error: Expected list of ‘lower-bound :’ or list of ‘lower-bound : upper-bound’ specifications at (1)
``````

What would be the solution for the above error message? Generally, will the above approach out perform tranposing array, e.g.,

``````b = 0.1*a + 0.1*reshape(a, (/n1, n2, n3, n4/), order = (/2,1,3,4/) )
``````

and comparing with numpy realization related to the question in the first paragraph. ?

• Any `python` reference? Why did you tag it with python? Apr 28 at 8:59
• not particular, just `transpose` is a python usage. I will remove `python` tag. Apr 28 at 9:05
• First rule of modern Fortran: don't use pointers (unless you absolutely have to). You also have multiple questions here. For the performance part stackoverflow.com/questions/68344472/… might be of help, but really is it absolutely necessary that you are transposing the last two indices, can the code be restructured so it is the first two indices? As Fortran is column major that should be appreciably more efficient. The syntax question requires a longer explanation, and suggests you don't really understand Fortran pointers. Apr 28 at 9:25
• Thanks. I will read the link mentioned. Apr 28 at 9:28
• I noticed that I forgot to use `-O3` in compling my Fortran code for `b = 0.1*a + 0.1*reshape(a, (/n1, n2, n3, n4/), order = (/2,1,3,4/) )`, and lead to impression that I need to improve the performance, use pointer, etc. By `-O3`, seems the performance is OK. I may close this question after a while. May 2 at 9:07