WSJT-X/lib/iso_c_utilities.f90

module iso_c_utilities

  use, intrinsic :: iso_c_binding, only: c_ptr, c_char, c_f_pointer, c_associated
  implicit none

  public :: c_to_f_string, c_f_dyn_string

  private

  character(c_char), dimension(1), save, target :: dummy_string = "?"

  interface        ! strlen is a standard C function from <string.h>
     ! int strlen(char *string)
     function strlen (string) result (len) bind (c, name="strlen")
       use, intrinsic :: iso_c_binding, only: c_ptr, c_size_t
       implicit none
       type(c_ptr), value :: string
       integer(kind=c_size_t) :: len
     end function strlen

     ! void free(void * p)
     subroutine c_free (p) bind (c, name="free")
       use, intrinsic :: iso_c_binding, only: c_ptr
       implicit none
       type(c_ptr), value :: p
     end subroutine c_free
  end interface

contains

  !
  ! Cast C string pointer to Fortran string pointer
  !
  ! Warning! - C data must outlive result scope
  !
  function c_to_f_string (c_str) result (f_str)
    use, intrinsic :: iso_c_binding, only: c_ptr, c_f_pointer, c_char
    implicit none
    type(c_ptr), intent(in) :: c_str
    character(kind=c_char, len=:), pointer :: f_str
    character(kind=c_char), pointer :: arr(:)
    interface        ! strlen is a standard C function from <string.h>
       ! int strlen(char *string)
       function strlen (string) result (len) bind (c, name="strlen")
         use, intrinsic :: iso_c_binding, only: c_ptr, c_size_t
         implicit none
         type(c_ptr), value :: string
         integer(kind=c_size_t) :: len
       end function strlen
    end interface
    call c_f_pointer (c_str, arr, [strlen (c_str)])
    call get_scalar_pointer (size (arr), arr, f_str)
  end function c_to_f_string

  subroutine get_scalar_pointer (scalar_len, scalar, fptr)
    ! Convert a null-terminated C string into a Fortran character pointer
    use, intrinsic :: iso_c_binding, only: c_char
    integer, intent(in) :: scalar_len
    character(kind=c_char, len=scalar_len), intent(in), target :: scalar(1)
    character(kind=c_char, len=:), pointer :: fptr
    fptr => scalar(1)
  end subroutine get_scalar_pointer

  function c_f_dyn_string (cptr) result (fstr)
    ! Convert a null-terminated malloc'ed C string into a Fortran character array
    type(c_ptr), intent(in) :: cptr ! The C address
    character(kind=c_char), allocatable :: fstr(:)
    character(kind=c_char), pointer :: fptr(:)
    interface        ! strlen is a standard C function from <string.h>
       ! void free(void * p)
       subroutine c_free (p) bind (c, name="free")
         use, intrinsic :: iso_c_binding, only: c_ptr
         implicit none
         type(c_ptr), value :: p
       end subroutine c_free
    end interface
    if (c_associated (cptr)) then
       call c_f_pointer (fptr=fptr, cptr=cptr, shape=[strlen(cptr)])
    else
       ! To avoid segfaults, associate FPTR with a dummy target:
       fptr => dummy_string
    end if
    fstr = fptr
    call c_free (cptr)
  end function c_f_dyn_string

end module
Make Fortran profiling timer function a callback with a default null implementation Groundwork for calling the decoders directly from C/C++ threads. To access the timer module timer_module must now be used. Instrumented code need only use the module function 'timer' which is now a procedure pointer that is guaranteed to be associated (unless null() is assigned to it, which should not be done). The default behaviour of 'timer' is to do nothing. If a Fortran program wishes to profile code it should now use the timer_impl module which contains a default timer implementation. The main program should call 'init_timer([filename])' before using 'timer' or calling routines that are instrumented. If 'init_timer([filename])'. If it is called then an optional file name may be provided with 'timer.out' being used as a default. The procedure 'fini_timer()' may be called to close the file. The default timer implementation is thread safe if used with OpenMP multi-threaded code so long as the OpenMP thread team is given the copyin(/timer_private/) attribute for correct operation. The common block /timer_private/ should be included for OpenMP use by including the file 'timer_common.inc'. The module 'lib/timer_C_wrapper.f90' provides a Fortran wrapper along with 'init' and 'fini' subroutines which allow a C/C++ application to call timer instrumented Fortran code and for it to receive callbacks of 'timer()' subroutine invocations. No C/C++ timer implementation is provided at this stage. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@6320 ab8295b8-cf94-4d9e-aec4-7959e3be5d79 2015-12-27 10:40:57 -05:00			`module iso_c_utilities`

			`use, intrinsic :: iso_c_binding, only: c_ptr, c_char, c_f_pointer, c_associated`
			`implicit none`

			`public :: c_to_f_string, c_f_dyn_string`

			`private`

			`character(c_char), dimension(1), save, target :: dummy_string = "?"`

			`interface ! strlen is a standard C function from <string.h>`
			`! int strlen(char *string)`
			`function strlen (string) result (len) bind (c, name="strlen")`
			`use, intrinsic :: iso_c_binding, only: c_ptr, c_size_t`
			`implicit none`
			`type(c_ptr), value :: string`
			`integer(kind=c_size_t) :: len`
			`end function strlen`

			`! void free(void * p)`
			`subroutine c_free (p) bind (c, name="free")`
			`use, intrinsic :: iso_c_binding, only: c_ptr`
			`implicit none`
			`type(c_ptr), value :: p`
			`end subroutine c_free`
			`end interface`

			`contains`

			`!`
			`! Cast C string pointer to Fortran string pointer`
			`!`
			`! Warning! - C data must outlive result scope`
			`!`
			`function c_to_f_string (c_str) result (f_str)`
			`use, intrinsic :: iso_c_binding, only: c_ptr, c_f_pointer, c_char`
			`implicit none`
			`type(c_ptr), intent(in) :: c_str`
			`character(kind=c_char, len=:), pointer :: f_str`
			`character(kind=c_char), pointer :: arr(:)`
			`interface ! strlen is a standard C function from <string.h>`
			`! int strlen(char *string)`
			`function strlen (string) result (len) bind (c, name="strlen")`
			`use, intrinsic :: iso_c_binding, only: c_ptr, c_size_t`
			`implicit none`
			`type(c_ptr), value :: string`
			`integer(kind=c_size_t) :: len`
			`end function strlen`
			`end interface`
			`call c_f_pointer (c_str, arr, [strlen (c_str)])`
			`call get_scalar_pointer (size (arr), arr, f_str)`
			`end function c_to_f_string`

			`subroutine get_scalar_pointer (scalar_len, scalar, fptr)`
			`! Convert a null-terminated C string into a Fortran character pointer`
			`use, intrinsic :: iso_c_binding, only: c_char`
			`integer, intent(in) :: scalar_len`
			`character(kind=c_char, len=scalar_len), intent(in), target :: scalar(1)`
			`character(kind=c_char, len=:), pointer :: fptr`
			`fptr => scalar(1)`
			`end subroutine get_scalar_pointer`

			`function c_f_dyn_string (cptr) result (fstr)`
			`! Convert a null-terminated malloc'ed C string into a Fortran character array`
			`type(c_ptr), intent(in) :: cptr ! The C address`
			`character(kind=c_char), allocatable :: fstr(:)`
			`character(kind=c_char), pointer :: fptr(:)`
			`interface ! strlen is a standard C function from <string.h>`
			`! void free(void * p)`
			`subroutine c_free (p) bind (c, name="free")`
			`use, intrinsic :: iso_c_binding, only: c_ptr`
			`implicit none`
			`type(c_ptr), value :: p`
			`end subroutine c_free`
			`end interface`
			`if (c_associated (cptr)) then`
			`call c_f_pointer (fptr=fptr, cptr=cptr, shape=[strlen(cptr)])`
			`else`
			`! To avoid segfaults, associate FPTR with a dummy target:`
			`fptr => dummy_string`
			`end if`
			`fstr = fptr`
			`call c_free (cptr)`
			`end function c_f_dyn_string`

			`end module`