! RUN: %python %S/test_folding.py %s %flang_fc1
! Tests folding of NEAREST() and its relatives
module m1
real, parameter :: minSubnormal = 1.e-45
logical, parameter :: test_1 = nearest(0., 1.) == minSubnormal
logical, parameter :: test_2 = nearest(minSubnormal, -1.) == 0
logical, parameter :: test_3 = nearest(1., 1.) == 1.0000001
logical, parameter :: test_4 = nearest(1.0000001, -1.) == 1
real, parameter :: inf = nearest(huge(1.), 1.)
logical, parameter :: test_5 = nearest(inf, 1.) == inf
logical, parameter :: test_6 = nearest(-inf, -1.) == -inf
logical, parameter :: test_7 = nearest(1.9999999, 1.) == 2.
logical, parameter :: test_8 = nearest(2., -1.) == 1.9999999
#if __x86_64__
logical, parameter :: test_9 = nearest(1.9999999999999999999_10, 1.) == 2._10
#endif
logical, parameter :: test_10 = nearest(-1., 1.) == -.99999994
logical, parameter :: test_11 = nearest(-1., -2.) == -1.0000001
real, parameter :: negZero = sign(0., -1.)
logical, parameter :: test_12 = nearest(negZero, 1.) == minSubnormal
logical, parameter :: test_13 = nearest(negZero, -1.) == -minSubnormal
!WARN: warning: NEAREST: S argument is zero
logical, parameter :: test_14 = nearest(0., negZero) == -minSubnormal
!WARN: warning: NEAREST: S argument is zero
logical, parameter :: test_15 = nearest(negZero, 0.) == minSubnormal
logical, parameter :: test_16 = nearest(tiny(1.),-1.) == 1.1754942E-38
logical, parameter :: test_17 = nearest(tiny(1.),1.) == 1.1754945E-38
contains
subroutine subr(a)
real, intent(in) :: a
!WARN: warning: NEAREST: S argument is zero
print *, nearest(a, 0.)
end
end module
module m2
use ieee_arithmetic, only: ieee_next_after
real, parameter :: minSubnormal = 1.e-45
real, parameter :: h = huge(0.0)
logical, parameter :: test_0 = ieee_next_after(0., 0.) == 0.
logical, parameter :: test_1 = ieee_next_after(0., 1.) == minSubnormal
logical, parameter :: test_2 = ieee_next_after(minSubnormal, -1.) == 0
logical, parameter :: test_3 = ieee_next_after(1., 2.) == 1.0000001
logical, parameter :: test_4 = ieee_next_after(1.0000001, -1.) == 1
!WARN: warning: division by zero
real, parameter :: inf = 1. / 0.
logical, parameter :: test_5 = ieee_next_after(inf, inf) == inf
logical, parameter :: test_6 = ieee_next_after(inf, -inf) == h
logical, parameter :: test_7 = ieee_next_after(-inf, inf) == -h
logical, parameter :: test_8 = ieee_next_after(-inf, -1.) == -h
logical, parameter :: test_9 = ieee_next_after(1.9999999, 3.) == 2.
logical, parameter :: test_10 = ieee_next_after(2., 1.) == 1.9999999
#if __x86_64__
logical, parameter :: test_11 = ieee_next_after(1.9999999999999999999_10, 3.) == 2._10
#endif
logical, parameter :: test_12 = ieee_next_after(1., 1.) == 1.
!WARN: warning: invalid argument on division
real, parameter :: nan = 0. / 0.
!WARN: warning: IEEE_NEXT_AFTER intrinsic folding: arguments are unordered
real, parameter :: x13 = ieee_next_after(nan, nan)
logical, parameter :: test_13 = .not. (x13 == x13)
!WARN: warning: IEEE_NEXT_AFTER intrinsic folding: arguments are unordered
real, parameter :: x14 = ieee_next_after(nan, 0.)
logical, parameter :: test_14 = .not. (x14 == x14)
end module
module m3
use ieee_arithmetic, only: ieee_next_up, ieee_next_down
real(kind(0.d0)), parameter :: minSubnormal = 5.d-324
real(kind(0.d0)), parameter :: h = huge(0.d0)
logical, parameter :: test_1 = ieee_next_up(0.d0) == minSubnormal
logical, parameter :: test_2 = ieee_next_down(0.d0) == -minSubnormal
logical, parameter :: test_3 = ieee_next_up(1.d0) == 1.0000000000000002d0
logical, parameter :: test_4 = ieee_next_down(1.0000000000000002d0) == 1.d0
!WARN: warning: division by zero
real(kind(0.d0)), parameter :: inf = 1.d0 / 0.d0
logical, parameter :: test_5 = ieee_next_up(huge(0.d0)) == inf
logical, parameter :: test_6 = ieee_next_down(-huge(0.d0)) == -inf
logical, parameter :: test_7 = ieee_next_up(inf) == inf
logical, parameter :: test_8 = ieee_next_down(inf) == h
logical, parameter :: test_9 = ieee_next_up(-inf) == -h
logical, parameter :: test_10 = ieee_next_down(-inf) == -inf
logical, parameter :: test_11 = ieee_next_up(1.9999999999999997d0) == 2.d0
logical, parameter :: test_12 = ieee_next_down(2.d0) == 1.9999999999999997d0
!WARN: warning: invalid argument on division
real(kind(0.d0)), parameter :: nan = 0.d0 / 0.d0
!WARN: warning: IEEE_NEXT_UP intrinsic folding: argument is NaN
real(kind(0.d0)), parameter :: x13 = ieee_next_up(nan)
logical, parameter :: test_13 = .not. (x13 == x13)
!WARN: warning: IEEE_NEXT_DOWN intrinsic folding: argument is NaN
real(kind(0.d0)), parameter :: x14 = ieee_next_down(nan)
logical, parameter :: test_14 = .not. (x14 == x14)
end module
module m4
use ieee_arithmetic
real(2), parameter :: neg_inf_2 = real(z'fc00',2)
real(2), parameter :: neg_huge_2 = real(z'fbff',2)
real(3), parameter :: neg_huge_3 = real(z'ff7f',3)
logical, parameter :: test_1 = ieee_next_after(neg_inf_2, neg_huge_3) == neg_huge_2
end module
#if __x86_64__
module m5
use ieee_arithmetic
real(8), parameter :: neg_inf_8 = real(z'fff0000000000000',8)
real(8), parameter :: neg_huge_8 = real(z'ffefffffffffffff',8)
real(10), parameter :: neg_one_10 = real(z'bfff8000000000000000',10)
real(10), parameter :: neg_inf_10 = real(z'ffff8000000000000000',10)
logical, parameter :: test_1 = ieee_next_after(neg_inf_8, neg_one_10) == neg_huge_8
logical, parameter :: test_2 = ieee_next_after(neg_one_10, neg_inf_10) == &
real(z'bfff8000000000000001', 10)
end module
#endif
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