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I have a large array, the array is so large that I have to use "allocatable" and allocate in fortran. for example,

complex(8),allocatalbe :: E0(:, :, :)

I need in our code to transform the array's form from E0(1000,1000,1000) to E1(1000*1000,1000), i.e., transform a three-dimension array E0(M,N,L) to its corresponding two-dimension E1(M*N,L). However, I cannot use the statements: Equivalence (E0,E1) due to its 'allocatable'. I don't like to define or allocate another array such as E1(M*N,L) due to limited memory.

Have anyone have some method to achieve: Equivalence(E0,E1)?

share|improve this question

Pass the rank three array to a specific procedure that has an explicit shape or assumed size dummy argument of rank two. Sequence association between the actual argument and the dummy argument will give you the equivalent of equivalence.

  REAL, ALLOCATABLE :: a(:,:,:)
  INTEGER :: i
  a = RESHAPE( (/ (REAL(i), i=1, PRODUCT(SHAPE(a))) /), SHAPE(a))
  CALL remapped(a, SIZE(a,1) * SIZE(a,2), SIZE(a,3))
  SUBROUTINE remapped(b,n,m)
    INTEGER, INTENT(IN) :: n, m
    REAL, INTENT(IN) :: b(n,m)
    ! Should print the first "page" of the actual argument.
    PRINT "(99(F6.1,:,' '))", b(:,1)

Later standards have the additional option of pointer rank remapping.

share|improve this answer
Thank you! you employ the intrinsic function RESHAPE. There seems a little compicated, especially, it need allocate dynamically two array: E(M,N,L) and E(MN,L). integer(4), allocatable,dimension(:,:,:) :: E01 integer(4), allocatable,dimension(:,:) :: E02 allocate(E01(M,N,L)) allocate(E02(MN,L)) ! define E01(M,N,L) E02=reshape(E01,(/M*N,L/)) However, I hope E01 and E02 share the same memory. i.e. Equivalence (E01,E02). they are completely the same thing in computer's memory. Do you have another method? – Micheal Sep 14 '12 at 2:12
The reshape intrinsic is only used in the example code to define (give a value to) the example array a. It is not used to change the shape of that array. You can change that a = ... statement to any other statement(s) of your choosing to define a (e.g. a = 0, if you wanted). The array with the different rank is the b dummy argument of the remapped procedure. The actual argument `a`` has rank three, the dummy argument b has rank two. The storage for both arguments will be the same on most Fortran processors. – IanH Sep 14 '12 at 2:51

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