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Improve documentation related to inheritance. (#1676) 

* Adds section to the reference.
* Adds section to advanced classes page describing how to use `get_overload`.
This commit is contained in:
Ivor Wanders 2019-06-10 16:12:28 -04:00 committed by Wenzel Jakob
parent 492da592c2
commit 2b045757b5
4 changed files with 121 additions and 4 deletions
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49
docs/advanced/classes.rst
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@ -80,10 +80,10 @@ helper class that is defined as follows:
}
};
The macro :func:`PYBIND11_OVERLOAD_PURE` should be used for pure virtual
functions, and :func:`PYBIND11_OVERLOAD` should be used for functions which have
The macro :c:macro:`PYBIND11_OVERLOAD_PURE` should be used for pure virtual
functions, and :c:macro:`PYBIND11_OVERLOAD` should be used for functions which have
a default implementation. There are also two alternate macros
:func:`PYBIND11_OVERLOAD_PURE_NAME` and :func:`PYBIND11_OVERLOAD_NAME` which
:c:macro:`PYBIND11_OVERLOAD_PURE_NAME` and :c:macro:`PYBIND11_OVERLOAD_NAME` which
take a string-valued name argument between the *Parent class* and *Name of the
function* slots, which defines the name of function in Python. This is required
when the C++ and Python versions of the
@ -325,6 +325,10 @@ can now create a python class that inherits from ``Dog``:
Extended trampoline class functionality
=======================================
.. _extended_class_functionality_forced_trampoline
Forced trampoline class initialisation
--------------------------------------
The trampoline classes described in the previous sections are, by default, only
initialized when needed. More specifically, they are initialized when a python
class actually inherits from a registered type (instead of merely creating an
@ -352,6 +356,45 @@ ensuring member initialization and (eventual) destruction.
See the file :file:`tests/test_virtual_functions.cpp` for complete examples
showing both normal and forced trampoline instantiation.
Different method signatures
---------------------------
The macro's introduced in :ref:`overriding_virtuals` cover most of the standard
use cases when exposing C++ classes to Python. Sometimes it is hard or unwieldy
to create a direct one-on-one mapping between the arguments and method return
type.
An example would be when the C++ signature contains output arguments using
references (See also :ref:`faq_reference_arguments`). Another way of solving
this is to use the method body of the trampoline class to do conversions to the
input and return of the Python method.
The main building block to do so is the :func:`get_overload`, this function
allows retrieving a method implemented in Python from within the trampoline's
methods. Consider for example a C++ method which has the signature
``bool myMethod(int32_t& value)``, where the return indicates whether
something should be done with the ``value``. This can be made convenient on the
Python side by allowing the Python function to return ``None`` or an ``int``:
.. code-block:: cpp
bool MyClass::myMethod(int32_t& value)
{
pybind11::gil_scoped_acquire gil; // Acquire the GIL while in this scope.
// Try to look up the overloaded method on the Python side.
pybind11::function overload = pybind11::get_overload(this, "myMethod");
if (overload) { // method is found
auto obj = overload(value); // Call the Python function.
if (py::isinstance<py::int_>(obj)) { // check if it returned a Python integer type
value = obj.cast<int32_t>(); // Cast it and assign it to the value.
return true; // Return true; value should be used.
} else {
return false; // Python returned none, return false.
}
}
return false; // Alternatively return MyClass::myMethod(value);
}
.. _custom_constructors:
Custom constructors

2
docs/faq.rst
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@ -39,6 +39,8 @@ multiple versions of Python and it finds the wrong one, delete
cmake -DPYTHON_EXECUTABLE:FILEPATH=<path-to-python-executable> .
.. _faq_reference_arguments:
Limitations involving reference arguments
=========================================

15
docs/reference.rst
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@ -86,6 +86,21 @@ Python built-in functions
.. doxygengroup:: python_builtins
:members:
Inheritance
===========
See :doc:`/classes` and :doc:`/advanced/classes` for more detail.
.. doxygendefine:: PYBIND11_OVERLOAD
.. doxygendefine:: PYBIND11_OVERLOAD_PURE
.. doxygendefine:: PYBIND11_OVERLOAD_NAME
.. doxygendefine:: PYBIND11_OVERLOAD_PURE_NAME
.. doxygenfunction:: get_overload
Exceptions
==========

57
include/pybind11/pybind11.h
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@ -2062,6 +2062,14 @@ inline function get_type_overload(const void *this_ptr, const detail::type_info
return overload;
}
/** \rst
Try to retrieve a python method by the provided name from the instance pointed to by the this_ptr.
:this_ptr: The pointer to the object the overload should be retrieved for. This should be the first
non-trampoline class encountered in the inheritance chain.
:name: The name of the overloaded Python method to retrieve.
:return: The Python method by this name from the object or an empty function wrapper.
\endrst */
template <class T> function get_overload(const T *this_ptr, const char *name) {
auto tinfo = detail::get_type_info(typeid(T));
return tinfo ? get_type_overload(this_ptr, tinfo, name) : function();
@ -2080,17 +2088,66 @@ template <class T> function get_overload(const T *this_ptr, const char *name) {
} \
}
/** \rst
Macro to populate the virtual method in the trampoline class. This macro tries to look up a method named 'fn'
from the Python side, deals with the :ref:`gil` and necessary argument conversions to call this method and return
the appropriate type. See :ref:`overriding_virtuals` for more information. This macro should be used when the method
name in C is not the same as the method name in Python. For example with `__str__`.
.. code-block:: cpp
std::string toString() override {
PYBIND11_OVERLOAD_NAME(
std::string, // Return type (ret_type)
Animal, // Parent class (cname)
toString, // Name of function in C++ (name)
"__str__", // Name of method in Python (fn)
);
}
\endrst */
#define PYBIND11_OVERLOAD_NAME(ret_type, cname, name, fn, ...) \
PYBIND11_OVERLOAD_INT(PYBIND11_TYPE(ret_type), PYBIND11_TYPE(cname), name, __VA_ARGS__) \
return cname::fn(__VA_ARGS__)
/** \rst
Macro for pure virtual functions, this function is identical to :c:macro:`PYBIND11_OVERLOAD_NAME`, except that it
throws if no overload can be found.
\endrst */
#define PYBIND11_OVERLOAD_PURE_NAME(ret_type, cname, name, fn, ...) \
PYBIND11_OVERLOAD_INT(PYBIND11_TYPE(ret_type), PYBIND11_TYPE(cname), name, __VA_ARGS__) \
pybind11::pybind11_fail("Tried to call pure virtual function \"" PYBIND11_STRINGIFY(cname) "::" name "\"");
/** \rst
Macro to populate the virtual method in the trampoline class. This macro tries to look up the method
from the Python side, deals with the :ref:`gil` and necessary argument conversions to call this method and return
the appropriate type. This macro should be used if the method name in C and in Python are identical.
See :ref:`overriding_virtuals` for more information.
.. code-block:: cpp
class PyAnimal : public Animal {
public:
// Inherit the constructors
using Animal::Animal;
// Trampoline (need one for each virtual function)
std::string go(int n_times) override {
PYBIND11_OVERLOAD_PURE(
std::string, // Return type (ret_type)
Animal, // Parent class (cname)
go, // Name of function in C++ (must match Python name) (fn)
n_times // Argument(s) (...)
);
}
};
\endrst */
#define PYBIND11_OVERLOAD(ret_type, cname, fn, ...) \
PYBIND11_OVERLOAD_NAME(PYBIND11_TYPE(ret_type), PYBIND11_TYPE(cname), #fn, fn, __VA_ARGS__)
/** \rst
Macro for pure virtual functions, this function is identical to :c:macro:`PYBIND11_OVERLOAD`, except that it throws
if no overload can be found.
\endrst */
#define PYBIND11_OVERLOAD_PURE(ret_type, cname, fn, ...) \
PYBIND11_OVERLOAD_PURE_NAME(PYBIND11_TYPE(ret_type), PYBIND11_TYPE(cname), #fn, fn, __VA_ARGS__)