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311 lines
8.5 KiB
ReStructuredText
311 lines
8.5 KiB
ReStructuredText
.. _classes:
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Object-oriented code
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####################
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Creating bindings for a custom type
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===================================
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Let's now look at a more complex example where we'll create bindings for a
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custom C++ data structure named ``Pet``. Its definition is given below:
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.. code-block:: cpp
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struct Pet {
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Pet(const std::string &name) : name(name) { }
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void setName(const std::string &name_) { name = name_; }
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const std::string &getName() const { return name; }
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std::string name;
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};
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The binding code for ``Pet`` looks as follows:
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.. code-block:: cpp
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#include <pybind11/pybind11.h>
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namespace py = pybind11;
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PYBIND_PLUGIN(example) {
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py::module m("example", "pybind11 example plugin");
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py::class_<Pet>(m, "Pet")
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.def(py::init<const std::string &>())
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.def("setName", &Pet::setName)
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.def("getName", &Pet::getName);
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return m.ptr();
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}
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:class:`class_` creates bindings for a C++ `class` or `struct`-style data
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structure. :func:`init` is a convenience function that takes the types of a
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constructor's parameters as template arguments and wraps the corresponding
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constructor (see the :ref:`custom_constructors` section for details). An
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interactive Python session demonstrating this example is shown below:
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.. code-block:: python
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% python
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>>> import example
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>>> p = example.Pet('Molly')
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>>> print(p)
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<example.Pet object at 0x10cd98060>
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>>> p.getName()
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u'Molly'
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>>> p.setName('Charly')
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>>> p.getName()
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u'Charly'
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Keyword and default arguments
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=============================
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It is possible to specify keyword and default arguments using the syntax
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discussed in the previous chapter. Refer to the sections :ref:`keyword_args`
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and :ref:`default_args` for details.
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Binding lambda functions
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========================
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Note how ``print(p)`` produced a rather useless summary of our data structure in the example above:
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.. code-block:: python
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>>> print(p)
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<example.Pet object at 0x10cd98060>
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To address this, we could bind an utility function that returns a human-readable
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summary to the special method slot named ``__repr__``. Unfortunately, there is no
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suitable functionality in the ``Pet`` data structure, and it would be nice if
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we did not have to change it. This can easily be accomplished by binding a
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Lambda function instead:
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.. code-block:: cpp
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py::class_<Pet>(m, "Pet")
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.def(py::init<const std::string &>())
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.def("setName", &Pet::setName)
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.def("getName", &Pet::getName)
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.def("__repr__",
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[](const Pet &a) {
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return "<example.Pet named '" + a.name + "'>";
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}
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);
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Both stateless [#f1]_ and stateful lambda closures are supported by pybind11.
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With the above change, the same Python code now produces the following output:
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.. code-block:: python
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>>> print(p)
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<example.Pet named 'Molly'>
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Instance and static fields
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==========================
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We can also directly expose the ``name`` field using the
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:func:`class_::def_readwrite` method. A similar :func:`class_::def_readonly`
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method also exists for ``const`` fields.
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.. code-block:: cpp
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py::class_<Pet>(m, "Pet")
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.def(py::init<const std::string &>())
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.def_readwrite("name", &Pet::name)
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// ... remainder ...
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This makes it possible to write
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.. code-block:: python
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>>> p = example.Pet('Molly')
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>>> p.name
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u'Molly'
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>>> p.name = 'Charly'
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>>> p.name
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u'Charly'
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Now suppose that ``Pet::name`` was a private internal variable
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that can only be accessed via setters and getters.
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.. code-block:: cpp
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class Pet {
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public:
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Pet(const std::string &name) : name(name) { }
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void setName(const std::string &name_) { name = name_; }
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const std::string &getName() const { return name; }
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private:
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std::string name;
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};
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In this case, the method :func:`class_::def_property`
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(:func:`class_::def_property_readonly` for read-only data) can be used to
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provide a field-like interface within Python that will transparently call
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the setter and getter functions:
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.. code-block:: cpp
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py::class_<Pet>(m, "Pet")
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.def(py::init<const std::string &>())
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.def_property("name", &Pet::getName, &Pet::setName)
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// ... remainder ...
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.. seealso::
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Similar functions :func:`class_::def_readwrite_static`,
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:func:`class_::def_readonly_static` :func:`class_::def_property_static`,
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and :func:`class_::def_property_readonly_static` are provided for binding
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static variables and properties.
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Inheritance
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===========
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Suppose now that the example consists of two data structures with an
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inheritance relationship:
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.. code-block:: cpp
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struct Pet {
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Pet(const std::string &name) : name(name) { }
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std::string name;
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};
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struct Dog : Pet {
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Dog(const std::string &name) : Pet(name) { }
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std::string bark() const { return "woof!"; }
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};
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To capture the hierarchical relationship in pybind11, we must assign a name to
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the ``Pet`` :class:`class_` instance and reference it when binding the ``Dog``
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class.
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.. code-block:: cpp
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py::class_<Pet> pet(m, "Pet");
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pet.def(py::init<const std::string &>())
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.def_readwrite("name", &Pet::name);
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py::class_<Dog>(m, "Dog", pet /* <- specify parent */)
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.def(py::init<const std::string &>())
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.def("bark", &Dog::bark);
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Instances then expose fields and methods of both types:
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.. code-block:: python
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>>> p = example.Dog('Molly')
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>>> p.name
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u'Molly'
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>>> p.bark()
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u'woof!'
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Overloaded methods
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==================
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Sometimes there are several overloaded C++ methods with the same name taking
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different kinds of input arguments:
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.. code-block:: cpp
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struct Pet {
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Pet(const std::string &name, int age) : name(name), age(age) { }
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void set(int age) { age = age; }
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void set(const std::string &name) { name = name; }
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std::string name;
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int age;
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};
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Attempting to bind ``Pet::set`` will cause an error since the compiler does not
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know which method the user intended to select. We can disambiguate by casting
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them to function pointers. Binding multiple functions to the same Python name
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automatically creates a chain of fucnction overloads that will be tried in
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sequence.
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.. code-block:: cpp
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py::class_<Pet>(m, "Pet")
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.def(py::init<const std::string &, int>())
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.def("set", (void (Pet::*)(int)) &Pet::set, "Set the pet's age")
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.def("set", (void (Pet::*)(const std::string &)) &Pet::set, "Set the pet's name");
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The overload signatures are also visible in the method's docstring:
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.. code-block:: python
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>>> help(example.Pet)
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class Pet(__builtin__.object)
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| Methods defined here:
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| __init__(...)
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| Signature : (Pet, str, int32_t) -> None
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| set(...)
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| 1. Signature : (Pet, int32_t) -> None
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| Set the pet's age
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| 2. Signature : (Pet, str) -> None
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| Set the pet's name
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.. note::
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To define multiple overloaded constructors, simply declare one after the
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other using the ``.def(py::init<...>())`` syntax. The existing machinery
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for specifying keyword and default arguments also works.
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Enumerations and internal types
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===============================
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Let's now suppose that the example class contains an internal enumeration type,
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e.g.:
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.. code-block:: cpp
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struct Pet {
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enum Kind {
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Dog = 0,
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Cat
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};
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Pet(const std::string &name, Kind type) : name(name), type(type) { }
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std::string name;
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Kind type;
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};
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The binding code for this example looks as follows:
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.. code-block:: cpp
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py::class_<Pet> pet(m, "Pet");
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pet.def(py::init<const std::string &, Pet::Kind>())
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.def_readwrite("name", &Pet::name)
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.def_readwrite("type", &Pet::type);
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py::enum_<Pet::Kind>(pet, "Kind")
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.value("Dog", Pet::Kind::Dog)
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.value("Cat", Pet::Kind::Cat)
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.export_values();
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To ensure that the ``Kind`` type is created within the scope of ``Pet``, the
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``pet`` :class:`class_` instance must be supplied to the :class:`enum_`.
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constructor. The :func:`enum_::export_values` function exports the enum entries
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into the parent scope, which should be skipped for newer C++11-style strongly
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typed enums.
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.. code-block:: python
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>>> p = Pet('Lucy', Pet.Cat)
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>>> p.type
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Kind.Cat
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>>> int(p.type)
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1L
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.. [#f1] Stateless closures are those with an empty pair of brackets ``[]`` as the capture object.
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