In matlab, one can write:

```
S = @(x,y) x^2+y^2-1
G = @(x) S(x,1);
```

If I have a function expecting a one-argument function, I can do the above. How can I do this in c/c++?

I have a library function (from the CGAL library) that expects as an argument a function that itself has only one argument. Ideally, I have a class (`SphericalHarmonics`

) and I would like to have a member function which takes the one argument. So I have:

```
FT SphericalHarmonics::distFunction(Point_3 p)
```

(note that `FT`

is a type similar to `double`

) but of course when I try

```
SphericalHarmonics *sh = new SphericalHarmonics(1);
Surface_3 surface(sh->distFunction, Sphere(ORIGIN,2.));
```

`this`

is also treated as an argument, my `distFunction`

function is a two-argument function, and an error is thrown.

Note that this can be solved with global variables, i.e.

```
SphericalHarmonics *sh;
FT dist_function(Point_3 p) {
return sh->distFunction(p);
}
main() {
sh = new SphericalHarmonics(1);
Surface_3 surface(dist_function);
}
```

However, this is really non-ideal. I'd like a way to do this without global variables, as it would be far better to be able to have a class function that easily integrates with the CGAL library.

Thanks in advance!

**[UPDATED]**

@Andy-Prowl: I have tried your `std::bind`

and `lambda`

solutions, but still seem to be running into errors with regards to the number of arguments.

When, in `main`

, I use the code:

```
SphericalHarmonics *sh = new SphericalHarmonics(cInit, numL, symm);
auto fxn = std::bind(&SphericalHarmonics::distFunction, sh, std::placeholders::_1);
Surface_3 surface(fxn, Sphere_3(ORIGIN,2.));
```

I get the errors:

```
~/lib/basisfunctions/SphericalHarmonics2/mesh_an_implicit_function.cpp:62:48:
error: no matching function for call to
‘CGAL::Implicit_surface_3<CGAL::Robust_circumcenter_traits_3<CGAL::Epick>,
double (*)
(CGAL::Point_3<CGAL::Epick>)>::Implicit_surface_3(std::_Bind<std::_Mem_fn
<double (SphericalHarmonics::*)(CGAL::Point_3<CGAL::Epick>)>
(SphericalHarmonics*, std::_Placeholder<1>)>&, Sphere_3)’
```

and

```
~/CGAL-4.1/include/CGAL/Implicit_surface_3.h:50:5: note: no known conversion
for argument 1 from ‘std::_Bind<std::_Mem_fn<double (SphericalHarmonics::*)
(CGAL::Point_3<CGAL::Epick>)>(SphericalHarmonics*, std::_Placeholder<1>)>’ to
‘CGAL::Implicit_surface_3<CGAL::Robust_circumcenter_traits_3<CGAL::Epick>,
double (*)(CGAL::Point_3<CGAL::Epick>)>::Function
{aka double (*)(CGAL::Point_3<CGAL::Epick>)}’
```

and

```
~/CGAL-4.1/include/CGAL/Implicit_surface_3.h:34:9: note:
candidate expects 1 argument, 2 provided
```

**[UPDATED]**

It is now clear to me that I need a function which can be converted to a function pointer (i.e. `surface`

required a function pointer argument). This rules out the `std::bind`

option. Moreover, it appears that a lambda cannot be converted to a function pointer if it captures variables (capture-less vs. capturing lambdas). So I think Andy-Prowl's answer below is in general the correct answer to this question, although I'll need to find a different work-around.