libgomp/testsuite/libgomp.oacc-fortran/declare-allocatable-1.f90 - gcc - Git at Google

 ! Test OpenACC 'declare create' with allocatable arrays.

 ! { dg-do run }

 !TODO-OpenACC-declare-allocate
 ! Not currently implementing correct '-DACC_MEM_SHARED=0' behavior:
 ! Missing support for OpenACC "Changes from Version 2.0 to 2.5":
 ! "The 'declare create' directive with a Fortran 'allocatable' has new behavior".
 ! { dg-xfail-run-if TODO { *-*-* } { -DACC_MEM_SHARED=0 } }

 !TODO { dg-additional-options -fno-inline } for stable results regarding OpenACC 'routine'.

 ! { dg-additional-options -fopt-info-all-omp }
 ! { dg-additional-options -foffload=-fopt-info-all-omp }

 ! { dg-additional-options --param=openacc-privatization=noisy }
 ! { dg-additional-options -foffload=--param=openacc-privatization=noisy }
 ! Prune a few: uninteresting, and potentially varying depending on GCC configuration (data types):
 ! { dg-prune-output {note: variable '[Di]\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} }

 ! { dg-additional-options -Wopenacc-parallelism }

 ! It's only with Tcl 8.5 (released in 2007) that "the variable 'varName'
 ! passed to 'incr' may be unset, and in that case, it will be set to [...]",
 ! so to maintain compatibility with earlier Tcl releases, we manually
 ! initialize counter variables:
 ! { dg-line l_dummy[variable c 0] }
 ! { dg-message dummy {} { target iN-VAl-Id } l_dummy } to avoid
 ! "WARNING: dg-line var l_dummy defined, but not used".


 module vars
   implicit none
   integer, parameter :: n = 100
   real*8, allocatable :: b(:)
  !$acc declare create (b)
 end module vars

 program test
   use vars
   use openacc
   implicit none
   real*8 :: a
   integer :: i

   interface
      subroutine sub1
        !$acc routine gang
      end subroutine sub1

      subroutine sub2
      end subroutine sub2

      real*8 function fun1 (ix)
        integer ix
        !$acc routine seq
      end function fun1

      real*8 function fun2 (ix)
        integer ix
        !$acc routine seq
      end function fun2
   end interface

   if (allocated (b)) error stop

   ! Test local usage of an allocated declared array.

   allocate (b(n))

   if (.not.allocated (b)) error stop
   if (.not.acc_is_present (b)) error stop

   a = 2.0

   !$acc parallel loop ! { dg-line l[incr c] }
   ! { dg-note {variable 'i' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target *-*-* } l$c }
   !   { dg-note {variable 'i' ought to be adjusted for OpenACC privatization level: 'vector'} {} { target *-*-* } l$c }
   !   { dg-note {variable 'i' adjusted for OpenACC privatization level: 'vector'} {} { target { ! openacc_host_selected } } l$c }
   ! { dg-note {variable 'i\.[0-9]+' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l$c }
   ! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target *-*-* } l$c }
   do i = 1, n
      b(i) = i * a
   end do

   if (.not.acc_is_present (b)) error stop

   !$acc update host(b)

   do i = 1, n
      if (b(i) /= i*a) error stop
   end do

   deallocate (b)

   ! Test the usage of an allocated declared array inside an acc
   ! routine subroutine.

   allocate (b(n))

   if (.not.allocated (b)) error stop
   if (.not.acc_is_present (b)) error stop

   !$acc parallel
   call sub1 ! { dg-line l[incr c] }
   ! { dg-optimized {assigned OpenACC gang worker vector loop parallelism} {} { target *-*-* } l$c }
   !$acc end parallel

   if (.not.acc_is_present (b)) error stop

   !$acc update host(b)

   do i = 1, n
      if (b(i) /= i*2) error stop
   end do

   deallocate (b)

   ! Test the usage of an allocated declared array inside a host
   ! subroutine.

   call sub2

   if (.not.acc_is_present (b)) error stop

   !$acc update host(b)

   do i = 1, n
      if (b(i) /= 1.0) error stop
   end do

   deallocate (b)

   if (allocated (b)) error stop

   ! Test the usage of an allocated declared array inside an acc
   ! routine function.

   allocate (b(n))

   if (.not.allocated (b)) error stop
   if (.not.acc_is_present (b)) error stop

   !$acc parallel loop ! { dg-line l[incr c] }
   ! { dg-note {variable 'i' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target *-*-* } l$c }
   !   { dg-note {variable 'i' ought to be adjusted for OpenACC privatization level: 'vector'} {} { target *-*-* } l$c }
   !   { dg-note {variable 'i' adjusted for OpenACC privatization level: 'vector'} {} { target { ! openacc_host_selected } } l$c }
   ! { dg-note {variable 'i\.[0-9]+' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l$c }
   ! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target *-*-* } l$c }
   do i = 1, n
      b(i) = 1.0
   end do

   !$acc parallel loop ! { dg-line l[incr c] }
   ! { dg-note {variable 'i' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target *-*-* } l$c }
   !   { dg-note {variable 'i' ought to be adjusted for OpenACC privatization level: 'vector'} {} { target *-*-* } l$c }
   !   { dg-note {variable 'i' adjusted for OpenACC privatization level: 'vector'} {} { target { ! openacc_host_selected } } l$c }
   ! { dg-note {variable 'i\.[0-9]+' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l$c }
   ! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target *-*-* } l$c }
   do i = 1, n
      b(i) = fun1 (i) ! { dg-line l[incr c] }
      ! { dg-optimized {assigned OpenACC seq loop parallelism} {} { target *-*-* } l$c }
   end do

   if (.not.acc_is_present (b)) error stop

   !$acc update host(b)

   do i = 1, n
      if (b(i) /= i) error stop
   end do

   deallocate (b)

   ! Test the usage of an allocated declared array inside a host
   ! function.

   allocate (b(n))

   if (.not.allocated (b)) error stop
   if (.not.acc_is_present (b)) error stop

   !$acc parallel loop ! { dg-line l[incr c] }
   ! { dg-note {variable 'i' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target *-*-* } l$c }
   !   { dg-note {variable 'i' ought to be adjusted for OpenACC privatization level: 'vector'} {} { target *-*-* } l$c }
   !   { dg-note {variable 'i' adjusted for OpenACC privatization level: 'vector'} {} { target { ! openacc_host_selected } } l$c }
   ! { dg-note {variable 'i\.[0-9]+' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l$c }
   ! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target *-*-* } l$c }
   do i = 1, n
      b(i) = 1.0
   end do

   !$acc update host(b)

   do i = 1, n
      b(i) = fun2 (i)
   end do

   if (.not.acc_is_present (b)) error stop

   do i = 1, n
      if (b(i) /= i*i) error stop
   end do

   deallocate (b)
 end program test ! { dg-line l[incr c] }
 ! { dg-bogus {note: variable 'overflow\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {TODO n/a} { xfail *-*-* } l$c }
 ! { dg-bogus {note: variable 'not_prev_allocated\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {TODO n/a} { xfail *-*-* } l$c }
 ! { dg-bogus {note: variable 'parm\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: artificial} {TODO n/a} { xfail *-*-* } l$c }

 ! Set each element in array 'b' at index i to i*2.

 subroutine sub1 ! { dg-line subroutine_sub1 }
   use vars
   implicit none
   integer i
   !$acc routine gang
   ! { dg-bogus {[Ww]arning: region is worker partitioned but does not contain worker partitioned code} {TODO default 'gang' 'vector'} { xfail *-*-* } subroutine_sub1 }

   !$acc loop ! { dg-line l[incr c] }
   ! { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l$c }
   ! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target *-*-* } l$c }
   do i = 1, n
      b(i) = i*2
   end do
 end subroutine sub1

 ! Allocate array 'b', and set it to all 1.0.

 subroutine sub2
   use vars
   use openacc
   implicit none
   integer i

   allocate (b(n))

   if (.not.allocated (b)) error stop
   if (.not.acc_is_present (b)) error stop

   !$acc parallel loop ! { dg-line l[incr c] }
   ! { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l$c }
   ! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target *-*-* } l$c }
   do i = 1, n
      b(i) = 1.0
   end do
 end subroutine sub2

 ! Return b(i) * i;

 real*8 function fun1 (i)
   use vars
   implicit none
   integer i
   !$acc routine seq

   fun1 = b(i) * i
 end function fun1

 ! Return b(i) * i * i;

 real*8 function fun2 (i)
   use vars
   implicit none
   integer i

   fun2 = b(i) * i * i
 end function fun2
	! Test OpenACC 'declare create' with allocatable arrays.

	! { dg-do run }

	!TODO-OpenACC-declare-allocate
	! Not currently implementing correct '-DACC_MEM_SHARED=0' behavior:
	! Missing support for OpenACC "Changes from Version 2.0 to 2.5":
	! "The 'declare create' directive with a Fortran 'allocatable' has new behavior".
	! { dg-xfail-run-if TODO { --* } { -DACC_MEM_SHARED=0 } }

	!TODO { dg-additional-options -fno-inline } for stable results regarding OpenACC 'routine'.

	! { dg-additional-options -fopt-info-all-omp }
	! { dg-additional-options -foffload=-fopt-info-all-omp }

	! { dg-additional-options --param=openacc-privatization=noisy }
	! { dg-additional-options -foffload=--param=openacc-privatization=noisy }
	! Prune a few: uninteresting, and potentially varying depending on GCC configuration (data types):
	! { dg-prune-output {note: variable '[Di]\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} }

	! { dg-additional-options -Wopenacc-parallelism }

	! It's only with Tcl 8.5 (released in 2007) that "the variable 'varName'
	! passed to 'incr' may be unset, and in that case, it will be set to [...]",
	! so to maintain compatibility with earlier Tcl releases, we manually
	! initialize counter variables:
	! { dg-line l_dummy[variable c 0] }
	! { dg-message dummy {} { target iN-VAl-Id } l_dummy } to avoid
	! "WARNING: dg-line var l_dummy defined, but not used".


	module vars
	implicit none
	integer, parameter :: n = 100
	real*8, allocatable :: b(:)
	!$acc declare create (b)
	end module vars

	program test
	use vars
	use openacc
	implicit none
	real*8 :: a
	integer :: i

	interface
	subroutine sub1
	!$acc routine gang
	end subroutine sub1

	subroutine sub2
	end subroutine sub2

	real*8 function fun1 (ix)
	integer ix
	!$acc routine seq
	end function fun1

	real*8 function fun2 (ix)
	integer ix
	!$acc routine seq
	end function fun2
	end interface

	if (allocated (b)) error stop

	! Test local usage of an allocated declared array.

	allocate (b(n))

	if (.not.allocated (b)) error stop
	if (.not.acc_is_present (b)) error stop

	a = 2.0

	!$acc parallel loop ! { dg-line l[incr c] }
	! { dg-note {variable 'i' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target --* } l$c }
	! { dg-note {variable 'i' ought to be adjusted for OpenACC privatization level: 'vector'} {} { target --* } l$c }
	! { dg-note {variable 'i' adjusted for OpenACC privatization level: 'vector'} {} { target { ! openacc_host_selected } } l$c }
	! { dg-note {variable 'i\.[0-9]+' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l$c }
	! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target --* } l$c }
	do i = 1, n
	b(i) = i * a
	end do

	if (.not.acc_is_present (b)) error stop

	!$acc update host(b)

	do i = 1, n
	if (b(i) /= i*a) error stop
	end do

	deallocate (b)

	! Test the usage of an allocated declared array inside an acc
	! routine subroutine.

	allocate (b(n))

	if (.not.allocated (b)) error stop
	if (.not.acc_is_present (b)) error stop

	!$acc parallel
	call sub1 ! { dg-line l[incr c] }
	! { dg-optimized {assigned OpenACC gang worker vector loop parallelism} {} { target --* } l$c }
	!$acc end parallel

	if (.not.acc_is_present (b)) error stop

	!$acc update host(b)

	do i = 1, n
	if (b(i) /= i*2) error stop
	end do

	deallocate (b)

	! Test the usage of an allocated declared array inside a host
	! subroutine.

	call sub2

	if (.not.acc_is_present (b)) error stop

	!$acc update host(b)

	do i = 1, n
	if (b(i) /= 1.0) error stop
	end do

	deallocate (b)

	if (allocated (b)) error stop

	! Test the usage of an allocated declared array inside an acc
	! routine function.

	allocate (b(n))

	if (.not.allocated (b)) error stop
	if (.not.acc_is_present (b)) error stop

	!$acc parallel loop ! { dg-line l[incr c] }
	! { dg-note {variable 'i' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target --* } l$c }
	! { dg-note {variable 'i' ought to be adjusted for OpenACC privatization level: 'vector'} {} { target --* } l$c }
	! { dg-note {variable 'i' adjusted for OpenACC privatization level: 'vector'} {} { target { ! openacc_host_selected } } l$c }
	! { dg-note {variable 'i\.[0-9]+' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l$c }
	! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target --* } l$c }
	do i = 1, n
	b(i) = 1.0
	end do

	!$acc parallel loop ! { dg-line l[incr c] }
	! { dg-note {variable 'i' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target --* } l$c }
	! { dg-note {variable 'i' ought to be adjusted for OpenACC privatization level: 'vector'} {} { target --* } l$c }
	! { dg-note {variable 'i' adjusted for OpenACC privatization level: 'vector'} {} { target { ! openacc_host_selected } } l$c }
	! { dg-note {variable 'i\.[0-9]+' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l$c }
	! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target --* } l$c }
	do i = 1, n
	b(i) = fun1 (i) ! { dg-line l[incr c] }
	! { dg-optimized {assigned OpenACC seq loop parallelism} {} { target --* } l$c }
	end do

	if (.not.acc_is_present (b)) error stop

	!$acc update host(b)

	do i = 1, n
	if (b(i) /= i) error stop
	end do

	deallocate (b)

	! Test the usage of an allocated declared array inside a host
	! function.

	allocate (b(n))

	if (.not.allocated (b)) error stop
	if (.not.acc_is_present (b)) error stop

	!$acc parallel loop ! { dg-line l[incr c] }
	! { dg-note {variable 'i' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target --* } l$c }
	! { dg-note {variable 'i' ought to be adjusted for OpenACC privatization level: 'vector'} {} { target --* } l$c }
	! { dg-note {variable 'i' adjusted for OpenACC privatization level: 'vector'} {} { target { ! openacc_host_selected } } l$c }
	! { dg-note {variable 'i\.[0-9]+' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l$c }
	! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target --* } l$c }
	do i = 1, n
	b(i) = 1.0
	end do

	!$acc update host(b)

	do i = 1, n
	b(i) = fun2 (i)
	end do

	if (.not.acc_is_present (b)) error stop

	do i = 1, n
	if (b(i) /= i*i) error stop
	end do

	deallocate (b)
	end program test ! { dg-line l[incr c] }
	! { dg-bogus {note: variable 'overflow\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {TODO n/a} { xfail --* } l$c }
	! { dg-bogus {note: variable 'not_prev_allocated\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {TODO n/a} { xfail --* } l$c }
	! { dg-bogus {note: variable 'parm\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: artificial} {TODO n/a} { xfail --* } l$c }

	! Set each element in array 'b' at index i to i*2.

	subroutine sub1 ! { dg-line subroutine_sub1 }
	use vars
	implicit none
	integer i
	!$acc routine gang
	! { dg-bogus {[Ww]arning: region is worker partitioned but does not contain worker partitioned code} {TODO default 'gang' 'vector'} { xfail --* } subroutine_sub1 }

	!$acc loop ! { dg-line l[incr c] }
	! { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l$c }
	! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target --* } l$c }
	do i = 1, n
	b(i) = i*2
	end do
	end subroutine sub1

	! Allocate array 'b', and set it to all 1.0.

	subroutine sub2
	use vars
	use openacc
	implicit none
	integer i

	allocate (b(n))

	if (.not.allocated (b)) error stop
	if (.not.acc_is_present (b)) error stop

	!$acc parallel loop ! { dg-line l[incr c] }
	! { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l$c }
	! { dg-optimized {assigned OpenACC gang vector loop parallelism} {} { target --* } l$c }
	do i = 1, n
	b(i) = 1.0
	end do
	end subroutine sub2

	! Return b(i) * i;

	real*8 function fun1 (i)
	use vars
	implicit none
	integer i
	!$acc routine seq

	fun1 = b(i) * i
	end function fun1

	! Return b(i) * i * i;

	real*8 function fun2 (i)
	use vars
	implicit none
	integer i

	fun2 = b(i) * i * i
	end function fun2