module/__fortran_builtins.f90 - llvm-project/flang - Git at Google

 !===-- module/__fortran_builtins.f90 ---------------------------------------===!
 !
 ! Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 ! See https://llvm.org/LICENSE.txt for license information.
 ! SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 !
 !===------------------------------------------------------------------------===!

 ! These naming shenanigans prevent names from Fortran intrinsic modules
 ! from being usable on INTRINSIC statements, and force the program
 ! to USE the standard intrinsic modules in order to access the
 ! standard names of the procedures.
 module __fortran_builtins
   implicit none

   ! Set PRIVATE by default to explicitly only export what is meant
   ! to be exported by this MODULE.
   private

   intrinsic :: __builtin_c_loc
   public :: __builtin_c_loc

   intrinsic :: __builtin_c_f_pointer
   public :: __builtin_c_f_pointer

   intrinsic :: sizeof ! extension
   public :: sizeof

   intrinsic :: selected_int_kind
   integer, parameter :: int64 = selected_int_kind(18)

   type, bind(c), public :: __builtin_c_ptr
     integer(kind=int64), private :: __address
   end type

   type, bind(c), public :: __builtin_c_funptr
     integer(kind=int64), private :: __address
   end type

   type, public :: __builtin_event_type
     integer(kind=int64), private :: __count
   end type

   type, public :: __builtin_notify_type
     integer(kind=int64), private :: __count
   end type

   type, public :: __builtin_lock_type
     integer(kind=int64), private :: __count
   end type

   type, public :: __builtin_team_type
     integer(kind=int64), private :: __id
   end type

   integer, parameter, public :: __builtin_atomic_int_kind = selected_int_kind(18)
   integer, parameter, public :: &
     __builtin_atomic_logical_kind = __builtin_atomic_int_kind

   type, public :: __builtin_dim3
     integer :: x=1, y=1, z=1
   end type
   type(__builtin_dim3), public :: &
     __builtin_threadIdx, __builtin_blockDim, __builtin_blockIdx, &
     __builtin_gridDim
   integer, parameter, public :: __builtin_warpsize = 32

   intrinsic :: __builtin_fma
   intrinsic :: __builtin_ieee_is_nan, __builtin_ieee_is_negative, &
     __builtin_ieee_is_normal
   intrinsic :: __builtin_ieee_next_after, __builtin_ieee_next_down, &
     __builtin_ieee_next_up
   intrinsic :: scale ! for ieee_scalb
   intrinsic :: __builtin_ieee_selected_real_kind
   intrinsic :: __builtin_ieee_support_datatype, &
     __builtin_ieee_support_denormal, __builtin_ieee_support_divide, &
     __builtin_ieee_support_inf, __builtin_ieee_support_io, &
     __builtin_ieee_support_nan, __builtin_ieee_support_sqrt, &
     __builtin_ieee_support_standard, __builtin_ieee_support_subnormal, &
     __builtin_ieee_support_underflow_control
   public :: __builtin_fma
   public :: __builtin_ieee_is_nan, __builtin_ieee_is_negative, &
     __builtin_ieee_is_normal
   public :: __builtin_ieee_next_after, __builtin_ieee_next_down, &
     __builtin_ieee_next_up
   public :: scale ! for ieee_scalb
   public :: __builtin_ieee_selected_real_kind
   public :: __builtin_ieee_support_datatype, &
     __builtin_ieee_support_denormal, __builtin_ieee_support_divide, &
     __builtin_ieee_support_inf, __builtin_ieee_support_io, &
     __builtin_ieee_support_nan, __builtin_ieee_support_sqrt, &
     __builtin_ieee_support_standard, __builtin_ieee_support_subnormal, &
     __builtin_ieee_support_underflow_control

   type :: __force_derived_type_instantiations
     type(__builtin_c_ptr) :: c_ptr
     type(__builtin_c_funptr) :: c_funptr
     type(__builtin_event_type) :: event_type
     type(__builtin_lock_type) :: lock_type
     type(__builtin_team_type) :: team_type
   end type

   intrinsic :: __builtin_compiler_options, __builtin_compiler_version
   public :: __builtin_compiler_options, __builtin_compiler_version

   interface operator(==)
     module procedure __builtin_c_ptr_eq
   end interface
   public :: operator(==)

   interface operator(/=)
     module procedure __builtin_c_ptr_ne
   end interface
   public :: operator(/=)

   interface __builtin_c_associated
     module procedure c_associated_c_ptr
     module procedure c_associated_c_funptr
   end interface
   public :: __builtin_c_associated
 !  private :: c_associated_c_ptr, c_associated_c_funptr

   type(__builtin_c_ptr), parameter, public :: __builtin_c_null_ptr = __builtin_c_ptr(0)
   type(__builtin_c_funptr), parameter, public :: &
     __builtin_c_null_funptr = __builtin_c_funptr(0)

   public :: __builtin_c_ptr_eq
   public :: __builtin_c_ptr_ne
   public :: __builtin_c_funloc

   contains

   elemental logical function __builtin_c_ptr_eq(x, y)
     type(__builtin_c_ptr), intent(in) :: x, y
     __builtin_c_ptr_eq = x%__address == y%__address
   end function

   elemental logical function __builtin_c_ptr_ne(x, y)
     type(__builtin_c_ptr), intent(in) :: x, y
     __builtin_c_ptr_ne = x%__address /= y%__address
   end function

   function __builtin_c_funloc(x)
     type(__builtin_c_funptr) :: __builtin_c_funloc
     external :: x
     __builtin_c_funloc = __builtin_c_funptr(loc(x))
   end function

   pure logical function c_associated_c_ptr(c_ptr_1, c_ptr_2)
     type(__builtin_c_ptr), intent(in) :: c_ptr_1
     type(__builtin_c_ptr), intent(in), optional :: c_ptr_2
     if (c_ptr_1%__address == __builtin_c_null_ptr%__address) then
       c_associated_c_ptr = .false.
     else if (present(c_ptr_2)) then
       c_associated_c_ptr = c_ptr_1%__address == c_ptr_2%__address
     else
       c_associated_c_ptr = .true.
     end if
   end function c_associated_c_ptr

   pure logical function c_associated_c_funptr(c_ptr_1, c_ptr_2)
     type(__builtin_c_funptr), intent(in) :: c_ptr_1
     type(__builtin_c_funptr), intent(in), optional :: c_ptr_2
     if (c_ptr_1%__address == __builtin_c_null_ptr%__address) then
       c_associated_c_funptr = .false.
     else if (present(c_ptr_2)) then
       c_associated_c_funptr = c_ptr_1%__address == c_ptr_2%__address
     else
       c_associated_c_funptr = .true.
     end if
   end function c_associated_c_funptr

 end module
	!===-- module/__fortran_builtins.f90 ---------------------------------------===!
	!
	! Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	! See https://llvm.org/LICENSE.txt for license information.
	! SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	!
	!===------------------------------------------------------------------------===!

	! These naming shenanigans prevent names from Fortran intrinsic modules
	! from being usable on INTRINSIC statements, and force the program
	! to USE the standard intrinsic modules in order to access the
	! standard names of the procedures.
	module __fortran_builtins
	implicit none

	! Set PRIVATE by default to explicitly only export what is meant
	! to be exported by this MODULE.
	private

	intrinsic :: __builtin_c_loc
	public :: __builtin_c_loc

	intrinsic :: __builtin_c_f_pointer
	public :: __builtin_c_f_pointer

	intrinsic :: sizeof ! extension
	public :: sizeof

	intrinsic :: selected_int_kind
	integer, parameter :: int64 = selected_int_kind(18)

	type, bind(c), public :: __builtin_c_ptr
	integer(kind=int64), private :: __address
	end type

	type, bind(c), public :: __builtin_c_funptr
	integer(kind=int64), private :: __address
	end type

	type, public :: __builtin_event_type
	integer(kind=int64), private :: __count
	end type

	type, public :: __builtin_notify_type
	integer(kind=int64), private :: __count
	end type

	type, public :: __builtin_lock_type
	integer(kind=int64), private :: __count
	end type

	type, public :: __builtin_team_type
	integer(kind=int64), private :: __id
	end type

	integer, parameter, public :: __builtin_atomic_int_kind = selected_int_kind(18)
	integer, parameter, public :: &
	__builtin_atomic_logical_kind = __builtin_atomic_int_kind

	type, public :: __builtin_dim3
	integer :: x=1, y=1, z=1
	end type
	type(__builtin_dim3), public :: &
	__builtin_threadIdx, __builtin_blockDim, __builtin_blockIdx, &
	__builtin_gridDim
	integer, parameter, public :: __builtin_warpsize = 32

	intrinsic :: __builtin_fma
	intrinsic :: __builtin_ieee_is_nan, __builtin_ieee_is_negative, &
	__builtin_ieee_is_normal
	intrinsic :: __builtin_ieee_next_after, __builtin_ieee_next_down, &
	__builtin_ieee_next_up
	intrinsic :: scale ! for ieee_scalb
	intrinsic :: __builtin_ieee_selected_real_kind
	intrinsic :: __builtin_ieee_support_datatype, &
	__builtin_ieee_support_denormal, __builtin_ieee_support_divide, &
	__builtin_ieee_support_inf, __builtin_ieee_support_io, &
	__builtin_ieee_support_nan, __builtin_ieee_support_sqrt, &
	__builtin_ieee_support_standard, __builtin_ieee_support_subnormal, &
	__builtin_ieee_support_underflow_control
	public :: __builtin_fma
	public :: __builtin_ieee_is_nan, __builtin_ieee_is_negative, &
	__builtin_ieee_is_normal
	public :: __builtin_ieee_next_after, __builtin_ieee_next_down, &
	__builtin_ieee_next_up
	public :: scale ! for ieee_scalb
	public :: __builtin_ieee_selected_real_kind
	public :: __builtin_ieee_support_datatype, &
	__builtin_ieee_support_denormal, __builtin_ieee_support_divide, &
	__builtin_ieee_support_inf, __builtin_ieee_support_io, &
	__builtin_ieee_support_nan, __builtin_ieee_support_sqrt, &
	__builtin_ieee_support_standard, __builtin_ieee_support_subnormal, &
	__builtin_ieee_support_underflow_control

	type :: __force_derived_type_instantiations
	type(__builtin_c_ptr) :: c_ptr
	type(__builtin_c_funptr) :: c_funptr
	type(__builtin_event_type) :: event_type
	type(__builtin_lock_type) :: lock_type
	type(__builtin_team_type) :: team_type
	end type

	intrinsic :: __builtin_compiler_options, __builtin_compiler_version
	public :: __builtin_compiler_options, __builtin_compiler_version

	interface operator(==)
	module procedure __builtin_c_ptr_eq
	end interface
	public :: operator(==)

	interface operator(/=)
	module procedure __builtin_c_ptr_ne
	end interface
	public :: operator(/=)

	interface __builtin_c_associated
	module procedure c_associated_c_ptr
	module procedure c_associated_c_funptr
	end interface
	public :: __builtin_c_associated
	! private :: c_associated_c_ptr, c_associated_c_funptr

	type(__builtin_c_ptr), parameter, public :: __builtin_c_null_ptr = __builtin_c_ptr(0)
	type(__builtin_c_funptr), parameter, public :: &
	__builtin_c_null_funptr = __builtin_c_funptr(0)

	public :: __builtin_c_ptr_eq
	public :: __builtin_c_ptr_ne
	public :: __builtin_c_funloc

	contains

	elemental logical function __builtin_c_ptr_eq(x, y)
	type(__builtin_c_ptr), intent(in) :: x, y
	__builtin_c_ptr_eq = x%__address == y%__address
	end function

	elemental logical function __builtin_c_ptr_ne(x, y)
	type(__builtin_c_ptr), intent(in) :: x, y
	__builtin_c_ptr_ne = x%__address /= y%__address
	end function

	function __builtin_c_funloc(x)
	type(__builtin_c_funptr) :: __builtin_c_funloc
	external :: x
	__builtin_c_funloc = __builtin_c_funptr(loc(x))
	end function

	pure logical function c_associated_c_ptr(c_ptr_1, c_ptr_2)
	type(__builtin_c_ptr), intent(in) :: c_ptr_1
	type(__builtin_c_ptr), intent(in), optional :: c_ptr_2
	if (c_ptr_1%__address == __builtin_c_null_ptr%__address) then
	c_associated_c_ptr = .false.
	else if (present(c_ptr_2)) then
	c_associated_c_ptr = c_ptr_1%__address == c_ptr_2%__address
	else
	c_associated_c_ptr = .true.
	end if
	end function c_associated_c_ptr

	pure logical function c_associated_c_funptr(c_ptr_1, c_ptr_2)
	type(__builtin_c_funptr), intent(in) :: c_ptr_1
	type(__builtin_c_funptr), intent(in), optional :: c_ptr_2
	if (c_ptr_1%__address == __builtin_c_null_ptr%__address) then
	c_associated_c_funptr = .false.
	else if (present(c_ptr_2)) then
	c_associated_c_funptr = c_ptr_1%__address == c_ptr_2%__address
	else
	c_associated_c_funptr = .true.
	end if
	end function c_associated_c_funptr

	end module