llvm-project/flang/test/Semantics/modfile34.f90

119 lines
2.3 KiB
Fortran

! RUN: %S/test_modfile.sh %s %t %f18
! Test resolution of type-bound generics.
module m1
type :: t
contains
procedure, pass(x) :: add1 => add
procedure, nopass :: add2 => add
procedure :: add_real
generic :: g => add1, add2, add_real
end type
contains
integer(8) pure function add(x, y)
class(t), intent(in) :: x, y
end
integer(8) pure function add_real(x, y)
class(t), intent(in) :: x
real, intent(in) :: y
end
subroutine test1(x, y, z)
type(t) :: x, y
real :: z(x%add1(y))
end
subroutine test1p(x, y, z)
class(t) :: x, y
real :: z(x%add1(y))
end
subroutine test2(x, y, z)
type(t) :: x, y
real :: z(x%g(y))
end
subroutine test2p(x, y, z)
class(t) :: x, y
real :: z(x%g(y))
end
subroutine test3(x, y, z)
type(t) :: x, y
real :: z(x%g(y, x))
end
subroutine test3p(x, y, z)
class(t) :: x, y
real :: z(x%g(y, x))
end
subroutine test4(x, y, z)
type(t) :: x
real :: y
real :: z(x%g(y))
end
subroutine test4p(x, y, z)
class(t) :: x
real :: y
real :: z(x%g(y))
end
end
!Expect: m1.mod
!module m1
! type :: t
! contains
! procedure, pass(x) :: add1 => add
! procedure, nopass :: add2 => add
! procedure :: add_real
! generic :: g => add1
! generic :: g => add2
! generic :: g => add_real
! end type
!contains
! pure function add(x, y)
! class(t), intent(in) :: x
! class(t), intent(in) :: y
! integer(8) :: add
! end
! pure function add_real(x, y)
! class(t), intent(in) :: x
! real(4), intent(in) :: y
! integer(8) :: add_real
! end
! subroutine test1(x, y, z)
! type(t) :: x
! type(t) :: y
! real(4) :: z(1_8:add(x, y))
! end
! subroutine test1p(x,y,z)
! class(t)::x
! class(t)::y
! real(4)::z(1_8:x%add1(y))
! end
! subroutine test2(x, y, z)
! type(t) :: x
! type(t) :: y
! real(4)::z(1_8:add(x,y))
! end
! subroutine test2p(x,y,z)
! class(t)::x
! class(t)::y
! real(4) :: z(1_8:x%add1(y))
! end
! subroutine test3(x, y, z)
! type(t) :: x
! type(t) :: y
! real(4)::z(1_8:add(y,x))
! end
! subroutine test3p(x,y,z)
! class(t)::x
! class(t)::y
! real(4) :: z(1_8:x%add2(y, x))
! end
! subroutine test4(x, y, z)
! type(t) :: x
! real(4) :: y
! real(4)::z(1_8:add_real(x,y))
! end
! subroutine test4p(x,y,z)
! class(t)::x
! real(4)::y
! real(4) :: z(1_8:x%add_real(y))
! end
!end