ext/pybind11/docs/advanced/cast/functional.rst - public/gem5 - Git at Google

 Functional
 ##########

 The following features must be enabled by including :file:`pybind11/functional.h`.


 Callbacks and passing anonymous functions
 =========================================

 The C++11 standard brought lambda functions and the generic polymorphic
 function wrapper ``std::function<>`` to the C++ programming language, which
 enable powerful new ways of working with functions. Lambda functions come in
 two flavors: stateless lambda function resemble classic function pointers that
 link to an anonymous piece of code, while stateful lambda functions
 additionally depend on captured variables that are stored in an anonymous
 *lambda closure object*.

 Here is a simple example of a C++ function that takes an arbitrary function
 (stateful or stateless) with signature ``int -> int`` as an argument and runs
 it with the value 10.

 .. code-block:: cpp

     int func_arg(const std::function<int(int)> &f) {
         return f(10);
     }

 The example below is more involved: it takes a function of signature ``int -> int``
 and returns another function of the same kind. The return value is a stateful
 lambda function, which stores the value ``f`` in the capture object and adds 1 to
 its return value upon execution.

 .. code-block:: cpp

     std::function<int(int)> func_ret(const std::function<int(int)> &f) {
         return [f](int i) {
             return f(i) + 1;
         };
     }

 This example demonstrates using python named parameters in C++ callbacks which
 requires using ``py::cpp_function`` as a wrapper. Usage is similar to defining
 methods of classes:

 .. code-block:: cpp

     py::cpp_function func_cpp() {
         return py::cpp_function([](int i) { return i+1; },
            py::arg("number"));
     }

 After including the extra header file :file:`pybind11/functional.h`, it is almost
 trivial to generate binding code for all of these functions.

 .. code-block:: cpp

     #include <pybind11/functional.h>

     PYBIND11_MODULE(example, m) {
         m.def("func_arg", &func_arg);
         m.def("func_ret", &func_ret);
         m.def("func_cpp", &func_cpp);
     }

 The following interactive session shows how to call them from Python.

 .. code-block:: pycon

     $ python
     >>> import example
     >>> def square(i):
     ...     return i * i
     ...
     >>> example.func_arg(square)
     100L
     >>> square_plus_1 = example.func_ret(square)
     >>> square_plus_1(4)
     17L
     >>> plus_1 = func_cpp()
     >>> plus_1(number=43)
     44L

 .. warning::

     Keep in mind that passing a function from C++ to Python (or vice versa)
     will instantiate a piece of wrapper code that translates function
     invocations between the two languages. Naturally, this translation
     increases the computational cost of each function call somewhat. A
     problematic situation can arise when a function is copied back and forth
     between Python and C++ many times in a row, in which case the underlying
     wrappers will accumulate correspondingly. The resulting long sequence of
     C++ -> Python -> C++ -> ... roundtrips can significantly decrease
     performance.

     There is one exception: pybind11 detects case where a stateless function
     (i.e. a function pointer or a lambda function without captured variables)
     is passed as an argument to another C++ function exposed in Python. In this
     case, there is no overhead. Pybind11 will extract the underlying C++
     function pointer from the wrapped function to sidestep a potential C++ ->
     Python -> C++ roundtrip. This is demonstrated in :file:`tests/test_callbacks.cpp`.

 .. note::

     This functionality is very useful when generating bindings for callbacks in
     C++ libraries (e.g. GUI libraries, asynchronous networking libraries, etc.).

     The file :file:`tests/test_callbacks.cpp` contains a complete example
     that demonstrates how to work with callbacks and anonymous functions in
     more detail.
	Functional
	##########

	The following features must be enabled by including :file:`pybind11/functional.h`.


	Callbacks and passing anonymous functions
	=========================================

	The C++11 standard brought lambda functions and the generic polymorphic
	function wrapper ``std::function<>`` to the C++ programming language, which
	enable powerful new ways of working with functions. Lambda functions come in
	two flavors: stateless lambda function resemble classic function pointers that
	link to an anonymous piece of code, while stateful lambda functions
	additionally depend on captured variables that are stored in an anonymous
	lambda closure object.

	Here is a simple example of a C++ function that takes an arbitrary function
	(stateful or stateless) with signature ``int -> int`` as an argument and runs
	it with the value 10.

	.. code-block:: cpp

	int func_arg(const std::function<int(int)> &f) {
	return f(10);
	}

	The example below is more involved: it takes a function of signature ``int -> int``
	and returns another function of the same kind. The return value is a stateful
	lambda function, which stores the value ``f`` in the capture object and adds 1 to
	its return value upon execution.

	.. code-block:: cpp

	std::function<int(int)> func_ret(const std::function<int(int)> &f) {
	return [f](int i) {
	return f(i) + 1;
	};
	}

	This example demonstrates using python named parameters in C++ callbacks which
	requires using ``py::cpp_function`` as a wrapper. Usage is similar to defining
	methods of classes:

	.. code-block:: cpp

	py::cpp_function func_cpp() {
	return py::cpp_function([](int i) { return i+1; },
	py::arg("number"));
	}

	After including the extra header file :file:`pybind11/functional.h`, it is almost
	trivial to generate binding code for all of these functions.

	.. code-block:: cpp

	#include <pybind11/functional.h>

	PYBIND11_MODULE(example, m) {
	m.def("func_arg", &func_arg);
	m.def("func_ret", &func_ret);
	m.def("func_cpp", &func_cpp);
	}

	The following interactive session shows how to call them from Python.

	.. code-block:: pycon

	$ python
	>>> import example
	>>> def square(i):
	... return i * i
	...
	>>> example.func_arg(square)
	100L
	>>> square_plus_1 = example.func_ret(square)
	>>> square_plus_1(4)
	17L
	>>> plus_1 = func_cpp()
	>>> plus_1(number=43)
	44L

	.. warning::

	Keep in mind that passing a function from C++ to Python (or vice versa)
	will instantiate a piece of wrapper code that translates function
	invocations between the two languages. Naturally, this translation
	increases the computational cost of each function call somewhat. A
	problematic situation can arise when a function is copied back and forth
	between Python and C++ many times in a row, in which case the underlying
	wrappers will accumulate correspondingly. The resulting long sequence of
	C++ -> Python -> C++ -> ... roundtrips can significantly decrease
	performance.

	There is one exception: pybind11 detects case where a stateless function
	(i.e. a function pointer or a lambda function without captured variables)
	is passed as an argument to another C++ function exposed in Python. In this
	case, there is no overhead. Pybind11 will extract the underlying C++
	function pointer from the wrapped function to sidestep a potential C++ ->
	Python -> C++ roundtrip. This is demonstrated in :file:`tests/test_callbacks.cpp`.

	.. note::

	This functionality is very useful when generating bindings for callbacks in
	C++ libraries (e.g. GUI libraries, asynchronous networking libraries, etc.).

	The file :file:`tests/test_callbacks.cpp` contains a complete example
	that demonstrates how to work with callbacks and anonymous functions in
	more detail.