pybind11/docs/basics.rst

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.. _basics:
First steps
###########
This sections demonstrates the basic features of pybind11. Before getting
started, make sure that development environment is set up to compile the
included set of examples, which also double as test cases.
Compiling the test cases
========================
Linux/MacOS
-----------
On Linux you'll need to install the **python-dev** or **python3-dev** packages as
well as **cmake**. On Mac OS, the included python version works out of the box,
but **cmake** must still be installed.
After installing the prerequisites, run
.. code-block:: bash
cmake .
make -j 4
followed by
.. code-block:: bash
make test
Windows
-------
On Windows, use the `CMake GUI`_ to create a Visual Studio project. Note that
only the 2015 release and newer versions are supported since pybind11 relies on
various C++11 language features that break older versions of Visual Studio.
After running CMake, open the created :file:`pybind11.sln` file and perform a
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release build, which will will produce a file named
:file:`Release\\example.pyd`. Copy this file to the :file:`example` directory
and run :file:`example\\run_test.py` using the targeted Python version.
.. _`CMake GUI`: https://cmake.org/runningcmake
.. Note::
When all tests fail, make sure that
1. The Python binary and the testcases are compiled for the same processor
type and bitness (i.e. either **i386** or **x86_64**)
2. The Python binary used to run :file:`example\\run_test.py` matches the
Python version specified in the CMake GUI. This is controlled via
the ``PYTHON_EXECUTABLE`` ``PYTHON_INCLUDE_DIR``, and
``PYTHON_LIBRARY`` variables.
.. seealso::
Advanced users who are already familiar with Boost.Python may want to skip
the tutorial and look at the test cases in the :file:`example` directory,
which exercise all features of pybind11.
Creating bindings for a simple function
=======================================
Let's start by creating Python bindings for an extremely simple function, which
adds two numbers and returns their result:
.. code-block:: cpp
int add(int i, int j) {
return i + j;
}
For simplicity [#f1]_, we'll put both this function and the binding code into
a file named :file:`example.cpp` with the following contents:
.. code-block:: cpp
#include <pybind11/pybind11.h>
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int add(int i, int j) {
return i + j;
}
namespace py = pybind11;
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PYBIND11_PLUGIN(example) {
py::module m("example", "pybind11 example plugin");
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m.def("add", &add, "A function which adds two numbers");
return m.ptr();
}
The :func:`PYBIND11_PLUGIN` macro creates a function that will be called when an
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``import`` statement is issued from within Python. The next line creates a
module named ``example`` (with the supplied docstring). The method
:func:`module::def` generates binding code that exposes the
``add()`` function to Python. The last line returns the internal Python object
associated with ``m`` to the Python interpreter.
.. note::
Notice how little code was needed to expose our function to Python: all
details regarding the function's parameters and return value were
automatically inferred using template metaprogramming. This overall
approach and the used syntax are borrowed from Boost.Python, though the
underlying implementation is very different.
pybind11 is a header-only-library, hence it is not necessary to link against
any special libraries (other than Python itself). On Windows, use the CMake
build file discussed in section :ref:`cmake`. On Linux and Mac OS, the above
example can be compiled using the following command
.. code-block:: bash
$ c++ -O3 -shared -std=c++11 -I <path-to-pybind11>/include `python-config --cflags --libs` example.cpp -o example.so
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In general, it is advisable to include several additional build parameters
that can considerably reduce the size of the created binary. Refer to section
:ref:`cmake` for a detailed example of a suitable cross-platform CMake-based
build system.
Assuming that the created file :file:`example.so` (:file:`example.pyd` on Windows)
is located in the current directory, the following interactive Python session
shows how to load and execute the example.
.. code-block:: python
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$ python
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Python 2.7.10 (default, Aug 22 2015, 20:33:39)
[GCC 4.2.1 Compatible Apple LLVM 7.0.0 (clang-700.0.59.1)] on darwin
Type "help", "copyright", "credits" or "license" for more information.
>>> import example
>>> example.add(1, 2)
3L
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>>>
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.. _keyword_args:
Keyword arguments
=================
With a simple modification code, it is possible to inform Python about the
names of the arguments ("i" and "j" in this case).
.. code-block:: cpp
m.def("add", &add, "A function which adds two numbers",
py::arg("i"), py::arg("j"));
:class:`arg` is one of several special tag classes which can be used to pass
metadata into :func:`module::def`. With this modified binding code, we can now
call the function using keyword arguments, which is a more readable alternative
particularly for functions taking many parameters:
.. code-block:: python
>>> import example
>>> example.add(i=1, j=2)
3L
The keyword names also appear in the function signatures within the documentation.
.. code-block:: python
>>> help(example)
....
FUNCTIONS
add(...)
Signature : (i: int32_t, j: int32_t) -> int32_t
A function which adds two numbers
.. _default_args:
Default arguments
=================
Suppose now that the function to be bound has default arguments, e.g.:
.. code-block:: cpp
int add(int i = 1, int j = 2) {
return i + j;
}
Unfortunately, pybind11 cannot automatically extract these parameters, since they
are not part of the function's type information. However, they are simple to specify
using an extension of :class:`arg`:
.. code-block:: cpp
m.def("add", &add, "A function which adds two numbers",
py::arg("i") = 1, py::arg("j") = 2);
The default values also appear within the documentation.
.. code-block:: python
>>> help(example)
....
FUNCTIONS
add(...)
Signature : (i: int32_t = 1L, j: int32_t = 2L) -> int32_t
A function which adds two numbers
.. _supported_types:
Supported data types
====================
The following basic data types are supported out of the box (some may require
an additional extension header to be included). To pass other data structures
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as arguments and return values, refer to the section on binding :ref:`classes`.
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+------------------------+--------------------------+-----------------------+
| Data type | Description | Header file |
+========================+==========================+=======================+
| int8_t, uint8_t | 8-bit integers | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| int16_t, uint16_t | 16-bit integers | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| int32_t, uint32_t | 32-bit integers | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| int64_t, uint64_t | 64-bit integers | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| ssize_t, size_t | Platform-dependent size | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| float, double | Floating point types | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| bool | Two-state Boolean type | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| char | Character literal | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| const char * | UTF-8 string literal | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| std::string | STL dynamic UTF-8 string | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| std::pair<T1, T2> | Pair of two custom types | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| std::tuple<....> | Arbitrary tuple of types | pybind11/pybind11.h |
+------------------------+--------------------------+-----------------------+
| std::complex<T> | Complex numbers | pybind11/complex.h |
+------------------------+--------------------------+-----------------------+
| std::vector<T> | STL dynamic array | pybind11/stl.h |
+------------------------+--------------------------+-----------------------+
| std::map<T1, T2> | STL dynamic maps | pybind11/stl.h |
+------------------------+--------------------------+-----------------------+
| std::function<...> | STL polymorphic function | pybind11/functional.h |
+------------------------+--------------------------+-----------------------+
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.. [#f1] In practice, implementation and binding code will generally be located
in separate files.