Ampliación e incrustación del intérprete de Python
**************************************************

This document describes how to write modules in C or C++ to extend the
Python interpreter with new modules.  Those modules can do what Python
code does -- define functions, object types and methods -- but also
interact with native libraries or achieve better performance by
avoiding the overhead of an interpreter.  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 C and Python.  For an
informal introduction to Python, see El tutorial de Python.
Referencia del Lenguaje Python gives a more formal definition of the
language.  La biblioteca estándar de Python documents the existing
object types, functions and modules (both built-in and written in
Python) that give the language its wide application range.

Para obtener una descripción detallada de toda la API de Python/C,
consulte el apartado separado Manual de referencia de la API en C de
Python.

To support extensions, Python's C API (Application Programmers
Interface) defines a set of functions, macros and variables that
provide access to most aspects of the Python run-time system.  The
Python API is incorporated in a C source file by including the header
""Python.h"".

Nota:

  The C extension interface is specific to CPython, and extension
  modules do not work on other Python implementations.  In many cases,
  it is possible to avoid writing C extensions and preserve
  portability to other implementations. For example, if your use case
  is calling C library functions or system calls, you should consider
  using the "ctypes" module or the cffi library rather than writing
  custom C code. These modules let you write Python code to interface
  with C code and are more portable between implementations of Python
  than writing and compiling a C extension module.


Herramientas de terceros recomendadas
=====================================

This document only covers the basic tools for creating extensions
provided as part of this version of CPython. Some third party tools
offer both simpler and more sophisticated approaches to creating C and
C++ extensions for Python.

While this document is aimed at extension authors, it should also be
helpful to the authors of such tools. For example, the tutorial module
can serve as a simple test case for a build tool or sample expected
output of a code generator.


C API Tutorial
==============

This tutorial describes how to write a simple module in C or C++,
using the Python C API -- that is, using the basic tools provided as
part of this version of CPython.

1. Your first C API extension module


Guides for intermediate topics
==============================

Esta sección de la guía cubre la creación de extensiones C y C++ sin
la ayuda de herramientas de terceros. Está destinado principalmente a
los creadores de esas herramientas, en lugar de ser una forma
recomendada de crear sus propias extensiones C.

* Using the C API: Assorted topics

* Definición de tipos de extensión: Tutorial

* Definición de tipos de extensión: temas variados

* Construyendo extensiones C y C++

* Creación de extensiones C y C++ en Windows


Incrustar el tiempo de ejecución de CPython en una aplicación más grande
========================================================================

A veces, en lugar de crear una extensión que se ejecute dentro del
intérprete de Python como la aplicación principal, es conveniente
incorporar el tiempo de ejecución de CPython dentro de una aplicación
más grande. Esta sección cubre algunos de los detalles involucrados en
hacerlo con éxito.

* Incrustando Python en otra aplicación
