large_real_kind_1.f90 [plain text]
! { dg-do run }
! { dg-require-effective-target fortran_large_real }
module testmod
integer,parameter :: k = selected_real_kind (precision (0.0_8) + 1)
contains
subroutine testoutput (a,b,length,f)
real(kind=k),intent(in) :: a
real(kind=8),intent(in) :: b
integer,intent(in) :: length
character(len=*),intent(in) :: f
character(len=length) :: ca
character(len=length) :: cb
write (ca,f) a
write (cb,f) b
if (ca /= cb) call abort
end subroutine testoutput
subroutine outputstring (a,f,s)
real(kind=k),intent(in) :: a
character(len=*),intent(in) :: f
character(len=*),intent(in) :: s
character(len=len(s)) :: c
write (c,f) a
if (c /= s) call abort
end subroutine outputstring
end module testmod
! Testing I/O of large real kinds (larger than kind=8)
program test
use testmod
implicit none
real(kind=k) :: x
character(len=20) :: c1, c2
call testoutput (0.0_k,0.0_8,40,'(F40.35)')
call testoutput (1.0_k,1.0_8,40,'(F40.35)')
call testoutput (0.1_k,0.1_8,15,'(F15.10)')
call testoutput (1e10_k,1e10_8,15,'(F15.10)')
call testoutput (7.51e100_k,7.51e100_8,15,'(F15.10)')
call testoutput (1e-10_k,1e-10_8,15,'(F15.10)')
call testoutput (7.51e-100_k,7.51e-100_8,15,'(F15.10)')
call testoutput (-1.0_k,-1.0_8,40,'(F40.35)')
call testoutput (-0.1_k,-0.1_8,15,'(F15.10)')
call testoutput (-1e10_k,-1e10_8,15,'(F15.10)')
call testoutput (-7.51e100_k,-7.51e100_8,15,'(F15.10)')
call testoutput (-1e-10_k,-1e-10_8,15,'(F15.10)')
call testoutput (-7.51e-100_k,-7.51e-100_8,15,'(F15.10)')
x = huge(x)
call outputstring (2*x,'(F20.15)',' +Infinity')
call outputstring (-2*x,'(F20.15)',' -Infinity')
write (c1,'(G20.10E5)') x
write (c2,'(G20.10E5)') -x
if (c2(1:1) /= '-') call abort
c2(1:1) = ' '
if (c1 /= c2) call abort
x = tiny(x)
call outputstring (x,'(F20.15)',' 0.000000000000000')
call outputstring (-x,'(F20.15)',' 0.000000000000000')
write (c1,'(G20.10E5)') x
write (c2,'(G20.10E5)') -x
if (c2(1:1) /= '-') call abort
c2(1:1) = ' '
if (c1 /= c2) call abort
end program test
! { dg-final { cleanup-modules "testmod" } }