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[/] [openrisc/] [trunk/] [gnu-stable/] [gcc-4.5.1/] [gcc/] [testsuite/] [gfortran.fortran-torture/] [execute/] [intrinsic_nearest.f90] - Rev 303
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!Program to test NEAREST intrinsic function.
program test_nearest
real s, r, x, y, inf, max
integer i, infi, maxi
equivalence (s,i)
equivalence (inf,infi)
equivalence (max,maxi)
r = 2.0
s = 3.0
call test_n (s, r)
i = z'00800000'
call test_n (s, r)
i = z'007fffff'
call test_n (s, r)
i = z'00800100'
call test_n (s, r)
s = 0
x = nearest(s, r)
y = nearest(s, -r)
if (.not. (x .gt. s .and. y .lt. s )) call abort()
! ??? This is pretty sketchy, but passes on most targets.
infi = z'7f800000'
maxi = z'7f7fffff'
call test_up(max, inf)
call test_up(-inf, -max)
call test_down(inf, max)
call test_down(-max, -inf)
! ??? Here we require the F2003 IEEE_ARITHMETIC module to
! determine if denormals are supported. If they are, then
! nearest(0,1) is the minimum denormal. If they are not,
! then it's the minimum normalized number, TINY. This fails
! much more often than the infinity test above, so it's
! disabled for now.
! call test_up(0, min)
! call test_up(-min, 0)
! call test_down(0, -min)
! call test_down(min, 0)
end
subroutine test_up(s, e)
real s, e, x
x = nearest(s, 1.0)
if (x .ne. e) call abort()
end
subroutine test_down(s, e)
real s, e, x
x = nearest(s, -1.0)
if (x .ne. e) call abort()
end
subroutine test_n(s1, r)
real r, s1, x
x = nearest(s1, r)
if (nearest(x, -r) .ne. s1) call abort()
x = nearest(s1, -r)
if (nearest(x, r) .ne. s1) call abort()
s1 = -s1
x = nearest(s1, r)
if (nearest(x, -r) .ne. s1) call abort()
x = nearest(s1, -r)
if (nearest(x, r) .ne. s1) call abort()
end
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