How to pass an encapsulated type bound function? I played with the example from the Modern Fortran Explained book (Metcalf, Reid and Cohen) and this is what I did:

```
module mod_polynoms_abstract
use mod_geometrics
implicit none
type, abstract :: bound_user_polynom
! No data
contains
procedure(user_polynom_interface), deferred :: eval
end type bound_user_polynom
abstract interface
real function user_polynom_interface(poly, pt)
import :: bound_user_polynom, point
class(bound_user_polynom) :: poly
type(point), intent(in) :: pt
end function user_polynom_interface
end interface
contains
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!Integral driver/chooser function
real function integral(userfun, options,status)
class(bound_user_polynom) :: userfun
integer, intent(in) :: options
real, intent(out) :: status
select case( options )
case (1)
integral = first_integral(userfun)
case (2)
integral = second_integral(userfun)
case default
integral = def_integral(userfun)
end select
end function
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!1. integration
real function first_integral(userfun)
class(bound_user_polynom),intent(in) :: userfun
first_integral= 1.0 * userfun%eval(point(x=2.,y=2.,z=0.))
end function
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!2. integration
real function second_integral(userfun)
class(bound_user_polynom),intent(in) :: userfun
second_integral= 2.0 * userfun%eval(point(x=2.,y=2.,z=0.))
end function
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!default integration
real function def_integral(userfun)
class(bound_user_polynom) :: userfun
def_integral= 0.0 * userfun%eval(point(x=2.,y=2.,z=0.))
end function
end module
```

This compiles, but when I run the program I get different results. When I call the function, maybe like this:

```
integral_result = integral(poly, 2 , status)
```

I get sometimes the right result, which is computed with the second_integral(userfun)
function. But sometimes the result is wrong.
The function can't calculate `userfun%eval(point(x=2.,y=2.,z=0.))`

correctly, but I don't know why.
Is this the correct way to do this?

Edit:

I use :

*COLLECT_GCC=gfortran4.8
COLLECT_LTO_WRAPPER=/usr/local/libexec/gcc/x86_64-unknown-linux-gnu/4.8.0/lto-wrapper
Ziel: x86_64-unknown-linux-gnu
Konfiguriert mit: ./configure --disable-multilib
Thread-Modell: posix
gcc-Version 4.8.0 (GCC) *

The correct result of *userfun%eval(point(x=2.,y=2.,z=0.))* is 0.962435484
So * integral(poly, 2 , status) * must give me 1.92487097.
But when I execute the program several times I got:

first run : 1.92487097

second run: 54877984.0

... : 1.92487097

... : 2.55142141E+27

... : 4.19146938E+33

... : 1.95548379

and so on ..

Edit 2:

The type polynom is defined as:

```
type, extends(bound_user_polynom) :: polynom
real(kind=kind(1.0D0)), allocatable, dimension(:) :: coeff
type(monomial),allocatable, dimension(:) :: monom
contains
procedure :: eval => poly_eval
procedure, private :: p_add
generic :: operator(+) => p_add
procedure, private :: p_subs
generic :: operator(-) => p_subs
end type
!constructor
interface polynom
module procedure construct_poly
end interface
```

and in my main program i call:

```
integral_result = integral(p(2), 2 , status)
```