! Test if MIN and MAX intrinsics behave correctly when passed NaNs ! as arguments ! ! { dg-do run } ! { dg-add-options ieee } ! module aux2 interface isnan module procedure isnan_r module procedure isnan_d end interface isnan interface isinf module procedure isinf_r module procedure isinf_d end interface isinf contains pure function isnan_r(x) result (isnan) logical :: isnan real, intent(in) :: x isnan = (.not.(x == x)) end function isnan_r pure function isnan_d(x) result (isnan) logical :: isnan double precision, intent(in) :: x isnan = (.not.(x == x)) end function isnan_d pure function isinf_r(x) result (isinf) logical :: isinf real, intent(in) :: x isinf = (x > huge(x)) .or. (x < -huge(x)) end function isinf_r pure function isinf_d(x) result (isinf) logical :: isinf double precision, intent(in) :: x isinf = (x > huge(x)) .or. (x < -huge(x)) end function isinf_d end module aux2 program test use aux2 implicit none real :: nan, large, inf ! Create a NaN and check it nan = 0 nan = nan / nan if (nan == nan .or. nan > nan .or. nan < nan .or. nan >= nan & .or. nan <= nan) STOP 1 if (isnan (2.d0) .or. (.not. isnan(nan)) .or. & (.not. isnan(real(nan,kind=kind(2.d0))))) STOP 2 ! Create an INF and check it large = huge(large) inf = 2 * large if (isinf(nan) .or. isinf(large) .or. .not. isinf(inf)) STOP 3 if (isinf(-nan) .or. isinf(-large) .or. .not. isinf(-inf)) STOP 4 ! Check that MIN and MAX behave correctly if (.not. isnan(min(nan,nan))) STOP 13 if (.not. isnan(max(nan,nan))) STOP 14 ! Same thing, with more arguments if (.not. isnan(min(nan,nan,nan))) STOP 27 if (.not. isnan(max(nan,nan,nan))) STOP 28 if (.not. isnan(min(nan,nan,nan,nan))) STOP 29 if (.not. isnan(max(nan,nan,nan,nan))) STOP 30 if (.not. isnan(min(nan,nan,nan,nan,nan))) STOP 31 if (.not. isnan(max(nan,nan,nan,nan,nan))) STOP 32 ! Large values, INF and NaNs if (.not. isinf(max(large, inf))) STOP 33 if (isinf(min(large, inf))) STOP 34 if (.not. isinf(min(-large, -inf))) STOP 41 if (isinf(max(-large, -inf))) STOP 42 end program test