Extending and Embedding the Python Interpreter
**********************************************

This document describes how to write modules in C or C++ to extend the
Python interpreter with new modules.  Those modules can not only
define new functions but also new object types and their methods.  The
document also describes how to embed the Python interpreter in another
application, for use as an extension language.  Finally, it shows how
to compile and link extension modules so that they can be loaded
dynamically (at run time) into the interpreter, if the underlying
operating system supports this feature.

This document assumes basic knowledge about Python.  For an informal
introduction to the language, see Python Tutorial.  Dokumentacja
języka Python gives a more formal definition of the language.
Biblioteka standardowa Pythona documents the existing object types,
functions and modules (both built-in and written in Python) that give
the language its wide application range.

For a detailed description of the whole Python/C API, see the separate
Python/C API Reference Manual.


Recommended third party tools
=============================

This guide only covers the basic tools for creating extensions
provided as part of this version of CPython. Third party tools like
Cython, cffi, SWIG and Numba offer both simpler and more sophisticated
approaches to creating C and C++ extensions for Python.

Zobacz także:

  Python Packaging User Guide: Binary Extensions
     The Python Packaging User Guide not only covers several available
     tools that simplify the creation of binary extensions, but also
     discusses the various reasons why creating an extension module
     may be desirable in the first place.


Creating extensions without third party tools
=============================================

This section of the guide covers creating C and C++ extensions without
assistance from third party tools. It is intended primarily for
creators of those tools, rather than being a recommended way to create
your own C extensions.

* 1. Rozszerzanie Pythona za pomocą C lub C++

  * 1.1. Prosty przykład

  * 1.2. Intermezzo: Błędy i Wyjątki

  * 1.3. Z powrotem do Przykładu

  * 1.4. Zadanie zainicjowania i tabela sposobów postępowania modułu.

  * 1.5. Kompilacja i łączenie

  * 1.6. Wywoływanie zadań języka pytonowskiego z C

  * 1.7. Wydobywanie parametrów w zadaniach rozszerzających

  * 1.8. Parametry kluczowe dla zadań rozszerzających

  * 1.9. Budowanie dowolnych wartości

  * 1.10. Liczby odniesień

  * 1.11. Pisanie rozszerzeń w C++

  * 1.12. Dostarczanie sprzęgu programowania aplikacji (API) języka C
    dla modułu rozszerzającego

* 2. Defining Extension Types: Tutorial

  * 2.1. The Basics

  * 2.2. Adding data and methods to the Basic example

  * 2.3. Providing finer control over data attributes

  * 2.4. Supporting cyclic garbage collection

  * 2.5. Subclassing other types

* 3. Defining Extension Types: Assorted Topics

  * 3.1. Finalizowanie i de-alokacja

  * 3.2. Prezentacja Przedmiotów

  * 3.3. Zarządzanie własnościami

  * 3.4. Porównywanie przedmiotów

  * 3.5. Wsparcie protokołu abstrakcyjnego

  * 3.6. Wsparcie dla słabych odniesień

  * 3.7. Więcej sugestii

* 4. Building C and C++ Extensions

  * 4.1. Building C and C++ Extensions with distutils

  * 4.2. Distributing your extension modules

* 5. Building C and C++ Extensions on Windows

  * 5.1. A Cookbook Approach

  * 5.2. Differences Between Unix and Windows

  * 5.3. Using DLLs in Practice


Embedding the CPython runtime in a larger application
=====================================================

Sometimes, rather than creating an extension that runs inside the
Python interpreter as the main application, it is desirable to instead
embed the CPython runtime inside a larger application. This section
covers some of the details involved in doing that successfully.

* 1. Embedding Python in Another Application

  * 1.1. Very High Level Embedding

  * 1.2. Beyond Very High Level Embedding: An overview

  * 1.3. Pure Embedding

  * 1.4. Extending Embedded Python

  * 1.5. Embedding Python in C++

  * 1.6. Compiling and Linking under Unix-like systems
