! { dg-do run } ! use iso_fortran_env, only: atomic_int_kind, atomic_logical_kind implicit none intrinsic :: atomic_define intrinsic :: atomic_ref intrinsic :: atomic_cas intrinsic :: atomic_add intrinsic :: atomic_and intrinsic :: atomic_or intrinsic :: atomic_xor intrinsic :: atomic_fetch_add intrinsic :: atomic_fetch_and intrinsic :: atomic_fetch_or intrinsic :: atomic_fetch_xor integer(atomic_int_kind) :: caf[*], var, var3 logical(atomic_logical_kind) :: caf_log[*], var2 integer :: stat, i caf = 0 caf_log = .false. sync all if (this_image() == 1) then call atomic_define(caf[num_images()], 5, stat=stat) if (stat /= 0) call abort() call atomic_define(caf_log[num_images()], .true., stat=stat) if (stat /= 0) call abort() end if sync all if (this_image() == num_images()) then if (caf /= 5) call abort() if (.not. caf_log) call abort() var = 99 call atomic_ref(var, caf, stat=stat) if (stat /= 0 .or. var /= 5) call abort() var2 = .false. call atomic_ref(var2, caf_log, stat=stat) if (stat /= 0 .or. .not. var2) call abort() end if call atomic_ref(var, caf[num_images()], stat=stat) if (stat /= 0 .or. var /= 5) call abort() call atomic_ref(var2, caf_log[num_images()], stat=stat) if (stat /= 0 .or. .not. var2) call abort() sync all ! ADD caf = 0 sync all call atomic_add(caf, this_image(), stat=stat) if (stat /= 0) call abort() do i = 1, num_images() call atomic_add(caf[i], 1, stat=stat) if (stat /= 0) call abort() call atomic_ref(var, caf, stat=stat) if (stat /= 0 .or. var < this_image()) call abort() end do sync all call atomic_ref(var, caf[num_images()], stat=stat) if (stat /= 0 .or. var /= num_images() + this_image()) call abort() do i = 1, num_images() call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= num_images() + i) call abort() end do sync all ! AND(1) caf = 0 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_and(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = 0 do i = 1, min(num_images(), storage_size(caf)-2) var3 = iand(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! AND(2) caf = -1 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_and(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = -1 do i = 1, min(num_images(), storage_size(caf)-2) var3 = iand(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! AND(3) caf = 0 do i = 1, storage_size(caf)-2, 2 caf = shiftl(1, i) var3 = shiftl(1, i) end do sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_and(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then do i = 1, min(num_images(), storage_size(caf)-2) var3 = iand(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! OR(1) caf = 0 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_or(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = 0 do i = 1, min(num_images(), storage_size(caf)-2) var3 = ior(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! OR(2) caf = -1 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_or(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = -1 do i = 1, min(num_images(), storage_size(caf)-2) var3 = ior(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! OR(3) caf = 0 do i = 1, storage_size(caf)-2, 2 caf = shiftl(1, i) var3 = shiftl(1, i) end do sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_or(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then do i = 1, min(num_images(), storage_size(caf)-2) var3 = ior(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! XOR(1) caf = 0 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_xor(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = 0 do i = 1, min(num_images(), storage_size(caf)-2) var3 = ieor(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! XOR(2) caf = -1 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_xor(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = -1 do i = 1, min(num_images(), storage_size(caf)-2) var3 = ieor(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! XOR(3) caf = 0 do i = 1, storage_size(caf)-2, 2 caf = shiftl(1, i) var3 = shiftl(1, i) end do sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) call atomic_xor(caf[i], shiftl(1, this_image()), stat=stat) if (stat /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then do i = 1, min(num_images(), storage_size(caf)-2) var3 = ieor(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! ADD caf = 0 sync all var = -99 call atomic_fetch_add(caf, this_image(), var, stat=stat) if (stat /= 0 .or. var < 0) call abort() if (num_images() == 1 .and. var /= 0) call abort() do i = 1, num_images() var = -99 call atomic_fetch_add(caf[i], 1, var, stat=stat) if (stat /= 0 .or. var < 0) call abort() call atomic_ref(var, caf, stat=stat) if (stat /= 0 .or. var < this_image()) call abort() end do sync all call atomic_ref(var, caf[num_images()], stat=stat) if (stat /= 0 .or. var /= num_images() + this_image()) call abort() do i = 1, num_images() call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= num_images() + i) call abort() end do sync all ! AND(1) caf = 0 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = 99 call atomic_fetch_and(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. var /= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = 0 do i = 1, min(num_images(), storage_size(caf)-2) var3 = iand(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! AND(2) caf = -1 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = -99 call atomic_fetch_and(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. var == shiftl(1, this_image())) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = -1 do i = 1, min(num_images(), storage_size(caf)-2) var3 = iand(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! AND(3) caf = 0 var3 = 0 do i = 1, storage_size(caf)-2, 2 caf = ior(shiftl(1, i), caf) var3 = ior(shiftl(1, i), var3) end do sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = -99 call atomic_fetch_and(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. var <= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then do i = 1, min(num_images(), storage_size(caf)-2) var3 = iand(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! OR(1) caf = 0 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = -99 call atomic_fetch_or(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. var < 0 .or. var == shiftl(1, this_image())) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = 0 do i = 1, min(num_images(), storage_size(caf)-2) var3 = ior(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! OR(2) caf = -1 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = -99 call atomic_fetch_or(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. (var < 0 .and. var /= -1)) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = -1 do i = 1, min(num_images(), storage_size(caf)-2) var3 = ior(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! OR(3) caf = 0 var3 = 0 do i = 1, storage_size(caf)-2, 2 caf = ior(shiftl(1, i), caf) var3 = ior(shiftl(1, i), var3) end do sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = -99 call atomic_fetch_or(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. var <= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then do i = 1, min(num_images(), storage_size(caf)-2) var3 = ior(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! XOR(1) caf = 0 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = -99 call atomic_fetch_xor(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. var < 0 .or. var == shiftl(1, this_image())) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = 0 do i = 1, min(num_images(), storage_size(caf)-2) var3 = ieor(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! XOR(2) caf = -1 sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = -99 call atomic_fetch_xor(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. (var < 0 .and. var /= -1)) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then var3 = -1 do i = 1, min(num_images(), storage_size(caf)-2) var3 = ieor(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! XOR(3) caf = 0 var3 = 0 do i = 1, storage_size(caf)-2, 2 caf = ior(shiftl(1, i), caf) var3 = ior(shiftl(1, i), var3) end do sync all if (this_image() < storage_size(caf)-2) then do i = this_image(), min(num_images(), storage_size(caf)-2) var = -99 call atomic_fetch_xor(caf[i], shiftl(1, this_image()), var, stat=stat) if (stat /= 0 .or. var <= 0) call abort() end do end if sync all if (this_image() < storage_size(caf)-2) then do i = 1, min(num_images(), storage_size(caf)-2) var3 = ieor(var3, shiftl(1, i)) call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() if (i == this_image()) then call atomic_ref(var, caf[i], stat=stat) if (stat /= 0 .or. var /= var3) call abort() end if end do end if sync all ! CAS caf = 9 caf_log = .true. sync all if (this_image() == 1) then call atomic_cas(caf[num_images()], compare=5, new=3, old=var, stat=stat) if (stat /= 0 .or. var /= 9) call abort() call atomic_ref(var, caf[num_images()], stat=stat) if (stat /= 0 .or. var /= 9) call abort() end if sync all if (this_image() == num_images() .and. caf /= 9) call abort() call atomic_ref(var, caf[num_images()], stat=stat) if (stat /= 0 .or. var /= 9) call abort() sync all if (this_image() == 1) then call atomic_cas(caf[num_images()], compare=9, new=3, old=var, stat=stat) if (stat /= 0 .or. var /= 9) call abort() call atomic_ref(var, caf[num_images()], stat=stat) if (stat /= 0 .or. var /= 3) call abort() end if sync all if (this_image() == num_images() .and. caf /= 3) call abort() call atomic_ref(var, caf[num_images()], stat=stat) if (stat /= 0 .or. var /= 3) call abort() sync all if (this_image() == 1) then call atomic_cas(caf_log[num_images()], compare=.false., new=.false., old=var2, stat=stat) if (stat /= 0 .or. var2 .neqv. .true.) call abort() call atomic_ref(var2, caf_log[num_images()], stat=stat) if (stat /= 0 .or. var2 .neqv. .true.) call abort() end if sync all if (this_image() == num_images() .and. caf_log .neqv. .true.) call abort() call atomic_ref(var2, caf_log[num_images()], stat=stat) if (stat /= 0 .or. var2 .neqv. .true.) call abort() sync all if (this_image() == 1) then call atomic_cas(caf_log[num_images()], compare=.true., new=.false., old=var2, stat=stat) if (stat /= 0 .or. var2 .neqv. .true.) call abort() call atomic_ref(var2, caf_log[num_images()], stat=stat) if (stat /= 0 .or. var2 .neqv. .false.) call abort() end if sync all if (this_image() == num_images() .and. caf_log .neqv. .false.) call abort() call atomic_ref(var2, caf_log[num_images()], stat=stat) if (stat /= 0 .or. var2 .neqv. .false.) call abort() end