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.. _development:
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==============================
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IPython development guidelines
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==============================
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Overview
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========
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This document describes IPython from the perspective of developers. Most
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importantly, it gives information for people who want to contribute to the
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development of IPython. So if you want to help out, read on!
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How to contribute to IPython
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============================
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IPython development is done using Bazaar [Bazaar]_ and Launchpad [Launchpad]_.
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This makes it easy for people to contribute to the development of IPython.
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There are several ways in which you can join in.
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If you have a small change that you want to send to the team, you can edit your
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bazaar checkout of IPython (see below) in-place, and ask bazaar for the
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differences::
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$ cd /path/to/your/copy/of/ipython
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$ bzr diff > my_fixes.diff
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This produces a patch file with your fixes, which we can apply to the source
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tree. This file should then be attached to a ticket in our `bug tracker
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<https://bugs.launchpad.net/ipython>`_, indicating what it does.
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This model of creating small, self-contained patches works very well and there
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are open source projects that do their entire development this way. However,
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in IPython we have found that for tracking larger changes, making use of
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bazaar's full capabilities in conjunction with Launchpad's code hosting
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services makes for a much better experience.
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Making your own branch of IPython allows you to refine your changes over time,
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track the development of the main team, and propose your own full version of
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the code for others to use and review, with a minimum amount of fuss. The next
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parts of this document will explain how to do this.
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Install Bazaar and create a Launchpad account
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---------------------------------------------
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First make sure you have installed Bazaar (see their `website
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<http://bazaar-vcs.org/>`_). To see that Bazaar is installed and knows about
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you, try the following::
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$ bzr whoami
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Joe Coder <jcoder@gmail.com>
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This should display your name and email. Next, you will want to create an
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account on the `Launchpad website <http://www.launchpad.net>`_ and setup your
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ssh keys. For more information of setting up your ssh keys, see `this link
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<https://help.launchpad.net/YourAccount/CreatingAnSSHKeyPair>`_.
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Get the main IPython branch from Launchpad
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------------------------------------------
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Now, you can get a copy of the main IPython development branch (we call this
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the "trunk")::
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$ bzr branch lp:ipython
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Create a working branch
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-----------------------
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When working on IPython, you won't actually make edits directly to the
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:file:`lp:ipython` branch. Instead, you will create a separate branch for your
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changes. For now, let's assume you want to do your work in a branch named
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"ipython-mybranch". Create this branch by doing::
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$ bzr branch ipython ipython-mybranch
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When you actually create a branch, you will want to give it a name that
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reflects the nature of the work that you will be doing in it, like
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"install-docs-update".
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Make edits in your working branch
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---------------------------------
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Now you are ready to actually make edits in your :file:`ipython-mybranch`
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branch. Before doing this, it is helpful to install this branch so you can
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test your changes as you work. This is easiest if you have setuptools
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installed. Then, just do::
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$ cd ipython-mybranch
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$ python setupegg.py develop
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Now, make some changes. After a while, you will want to commit your changes.
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This let's Bazaar know that you like the changes you have made and gives you
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an opportunity to keep a nice record of what you have done. This looks like
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this::
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$ ...do work in ipython-mybranch...
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$ bzr commit -m "the commit message goes here"
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Please note that since we now don't use an old-style linear ChangeLog (that
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tends to cause problems with distributed version control systems), you should
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ensure that your log messages are reasonably detailed. Use a docstring-like
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approach in the commit messages (including the second line being left
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*blank*)::
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Single line summary of changes being committed.
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* more details when warranted ...
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* including crediting outside contributors if they sent the
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code/bug/idea!
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As you work, you will repeat this edit/commit cycle many times. If you work on
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your branch for a long time, you will also want to get the latest changes from
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the :file:`lp:ipython` branch. This can be done with the following sequence of
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commands::
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$ ls
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ipython
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ipython-mybranch
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$ cd ipython
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$ bzr pull
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$ cd ../ipython-mybranch
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$ bzr merge ../ipython
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$ bzr commit -m "Merging changes from trunk"
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Along the way, you should also run the IPython test suite. You can do this
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using the :command:`iptest` command (which is basically a customized version of
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:command:`nosetests`)::
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$ cd
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$ iptest
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The :command:`iptest` command will also pick up and run any tests you have
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written. See :ref:`_devel_testing` for further details on the testing system.
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Post your branch and request a code review
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------------------------------------------
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Once you are done with your edits, you should post your branch on Launchpad so
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that other IPython developers can review the changes and help you merge your
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changes into the main development branch. To post your branch on Launchpad,
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do::
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$ cd ipython-mybranch
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$ bzr push lp:~yourusername/ipython/ipython-mybranch
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Then, go to the `IPython Launchpad site <www.launchpad.net/ipython>`_, and you
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should see your branch under the "Code" tab. If you click on your branch, you
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can provide a short description of the branch as well as mark its status. Most
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importantly, you should click the link that reads "Propose for merging into
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another branch". What does this do?
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This let's the other IPython developers know that your branch is ready to be
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reviewed and merged into the main development branch. During this review
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process, other developers will give you feedback and help you get your code
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ready to be merged. What types of things will we be looking for:
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* All code is documented.
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* All code has tests.
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* The entire IPython test suite passes.
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Once your changes have been reviewed and approved, someone will merge them
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into the main development branch.
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Documentation
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=============
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Standalone documentation
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------------------------
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All standalone documentation should be written in plain text (``.txt``) files
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using reStructuredText [reStructuredText]_ for markup and formatting. All such
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documentation should be placed in directory :file:`docs/source` of the IPython
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source tree. The documentation in this location will serve as the main source
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for IPython documentation and all existing documentation should be converted
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to this format.
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To build the final documentation, we use Sphinx [Sphinx]_. Once you have
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Sphinx installed, you can build the html docs yourself by doing::
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$ cd ipython-mybranch/docs
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$ make html
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Docstring format
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----------------
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Good docstrings are very important. All new code should have docstrings that
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are formatted using reStructuredText for markup and formatting, since it is
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understood by a wide variety of tools. Details about using reStructuredText
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for docstrings can be found `here
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<http://epydoc.sourceforge.net/manual-othermarkup.html>`_.
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Additional PEPs of interest regarding documentation of code:
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* `Docstring Conventions <http://www.python.org/peps/pep-0257.html>`_
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* `Docstring Processing System Framework <http://www.python.org/peps/pep-0256.html>`_
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* `Docutils Design Specification <http://www.python.org/peps/pep-0258.html>`_
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Coding conventions
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==================
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General
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-------
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In general, we'll try to follow the standard Python style conventions as
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described here:
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* `Style Guide for Python Code <http://www.python.org/peps/pep-0008.html>`_
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Other comments:
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* In a large file, top level classes and functions should be
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separated by 2-3 lines to make it easier to separate them visually.
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* Use 4 spaces for indentation.
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* Keep the ordering of methods the same in classes that have the same
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methods. This is particularly true for classes that implement an interface.
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Naming conventions
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------------------
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In terms of naming conventions, we'll follow the guidelines from the `Style
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Guide for Python Code`_.
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For all new IPython code (and much existing code is being refactored), we'll
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use:
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* All ``lowercase`` module names.
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* ``CamelCase`` for class names.
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* ``lowercase_with_underscores`` for methods, functions, variables and
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attributes.
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There are, however, some important exceptions to these rules. In some cases,
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IPython code will interface with packages (Twisted, Wx, Qt) that use other
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conventions. At some level this makes it impossible to adhere to our own
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standards at all times. In particular, when subclassing classes that use other
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naming conventions, you must follow their naming conventions. To deal with
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cases like this, we propose the following policy:
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* If you are subclassing a class that uses different conventions, use its
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naming conventions throughout your subclass. Thus, if you are creating a
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Twisted Protocol class, used Twisted's
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``namingSchemeForMethodsAndAttributes.``
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* All IPython's official interfaces should use our conventions. In some cases
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this will mean that you need to provide shadow names (first implement
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``fooBar`` and then ``foo_bar = fooBar``). We want to avoid this at all
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costs, but it will probably be necessary at times. But, please use this
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sparingly!
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Implementation-specific *private* methods will use
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``_single_underscore_prefix``. Names with a leading double underscore will
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*only* be used in special cases, as they makes subclassing difficult (such
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names are not easily seen by child classes).
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Occasionally some run-in lowercase names are used, but mostly for very short
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names or where we are implementing methods very similar to existing ones in a
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base class (like ``runlines()`` where ``runsource()`` and ``runcode()`` had
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established precedent).
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The old IPython codebase has a big mix of classes and modules prefixed with an
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explicit ``IP``. In Python this is mostly unnecessary, redundant and frowned
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upon, as namespaces offer cleaner prefixing. The only case where this approach
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is justified is for classes which are expected to be imported into external
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namespaces and a very generic name (like Shell) is too likely to clash with
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something else. We'll need to revisit this issue as we clean up and refactor
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the code, but in general we should remove as many unnecessary ``IP``/``ip``
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prefixes as possible. However, if a prefix seems absolutely necessary the more
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specific ``IPY`` or ``ipy`` are preferred.
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.. _devel_testing:
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Testing system
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==============
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It is extremely important that all code contributed to IPython has tests.
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Tests should be written as unittests, doctests or as entities that the Nose
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[Nose]_ testing package will find. Regardless of how the tests are written, we
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will use Nose for discovering and running the tests. Nose will be required to
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run the IPython test suite, but will not be required to simply use IPython.
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Tests of Twisted using code need to follow two additional guidelines:
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1. Twisted using tests should be written by subclassing the :class:`TestCase`
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class that comes with :mod:`twisted.trial.unittest`.
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2. All :class:`Deferred` instances that are created in the test must be
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properly chained and the final one *must* be the return value of the test
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method.
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When these two things are done, Nose will be able to run the tests and the
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twisted reactor will be handled correctly.
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Each subpackage in IPython should have its own :file:`tests` directory that
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contains all of the tests for that subpackage. This allows each subpackage to
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be self-contained. A good convention to follow is to have a file named
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:file:`test_foo.py` for each module :file:`foo.py` in the package. This makes
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it easy to organize the tests, though like most conventions, it's OK to break
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it if logic and common sense dictate otherwise.
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If a subpackage has any dependencies beyond the Python standard library, the
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tests for that subpackage should be skipped if the dependencies are not
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found. This is very important so users don't get tests failing simply because
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they don't have dependencies. We ship a set of decorators in the
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:mod:`IPython.testing` package to tag tests that may be platform-specific or
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otherwise may have restrictions; if the existing ones don't fit your needs, add
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a new decorator in that location so other tests can reuse it.
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To run the IPython test suite, use the :command:`iptest` command that is
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installed with IPython (if you are using IPython in-place, without installing
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it, you can find this script in the :file:`scripts` directory)::
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$ iptest
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This command runs Nose with the proper options and extensions. By default,
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:command:`iptest` runs the entire IPython test suite (skipping tests that may
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be platform-specific or which depend on tools you may not have). But you can
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also use it to run only one specific test file, or a specific test function.
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For example, this will run only the :file:`test_magic` file from the test
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suite::
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$ iptest IPython.tests.test_magic
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----------------------------------------------------------------------
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Ran 10 tests in 0.348s
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OK (SKIP=3)
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Deleting object: second_pass
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while the ``path:function`` syntax allows you to select a specific function in
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that file to run::
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$ iptest IPython.tests.test_magic:test_obj_del
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----------------------------------------------------------------------
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Ran 1 test in 0.204s
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OK
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Since :command:`iptest` is based on nosetests, you can pass it any regular
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nosetests option. For example, you can use ``--pdb`` or ``--pdb-failures`` to
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automatically activate the interactive Pdb debugger on errors or failures. See
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the nosetests documentation for further details.
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.. warning::
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Note that right now we have a nasty interaction between ipdoctest and
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twisted. Until we figure this out, please use the following instructions to
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ensure that at least you run all the tests.
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Right now, if you now run::
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$ iptest [any options] [any submodules]
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it will NOT load ipdoctest but won't cause any Twisted problems.
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Once you're happy that you didn't break Twisted, run::
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$ iptest --with-ipdoctest [any options] [any submodules]
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This MAY give a Twisted AlreadyCalledError exception at the end, but it will
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also correctly load up all of the ipython-specific tests and doctests.
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The above can be made easier with a trivial shell alias::
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$ alias iptest2='iptest --with-ipdoctest'
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So that you can run::
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$ iptest ...
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# Twisted happy
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# iptest2 ...
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# ignore possible Twisted error, this checks all the rest.
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A few tips for writing tests
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----------------------------
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You can write tests either as normal test files, using all the conventions that
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Nose recognizes, or as doctests. Note that *all* IPython functions should have
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at least one example that serves as a doctest, whenever technically feasible.
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However, example doctests should only be in the main docstring if they are *a
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good example*, i.e. if they convey useful information about the function. If
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you simply would like to write a test as a doctest, put it in a separate test
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file and write a no-op function whose only purpose is its docstring.
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Note, however, that in a file named :file:`test_X`, functions whose only test
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is their docstring (as a doctest) and which have no test functionality of their
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own, should be called *doctest_foo* instead of *test_foo*, otherwise they get
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double-counted (the empty function call is counted as a test, which just
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inflates tests numbers artificially). This restriction does not apply to
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functions in files with other names, due to how Nose discovers tests.
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You can use IPython examples in your docstrings. Those can make full use of
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IPython functionality (magics, variable substitution, etc), but be careful to
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keep them generic enough that they run identically on all Operating Systems.
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The prompts in your doctests can be either of the plain Python ``>>>`` variety
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or ``In [1]:`` IPython style. Since this is the IPython system, after all, we
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encourage you to use IPython prompts throughout, unless you are illustrating a
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specific aspect of the normal prompts (such as the ``%doctest_mode`` magic).
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If a test isn't safe to run inside the main nose process (e.g. because it loads
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a GUI toolkit), consider running it in a subprocess and capturing its output
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for evaluation and test decision later. Here is an example of how to do it, by
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relying on the builtin ``_ip`` object that contains the public IPython api as
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defined in :mod:`IPython.ipapi`::
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def test_obj_del():
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"""Test that object's __del__ methods are called on exit."""
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test_dir = os.path.dirname(__file__)
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del_file = os.path.join(test_dir,'obj_del.py')
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out = _ip.IP.getoutput('ipython %s' % del_file)
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|
nt.assert_equals(out,'object A deleted')
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|
|
|
|
|
|
|
|
|
|
|
If a doctest contains input whose output you don't want to verify identically
|
|
|
via doctest (random output, an object id, etc), you can mark a docstring with
|
|
|
``#random``. All of these test will have their code executed but no output
|
|
|
checking will be done::
|
|
|
|
|
|
>>> 1+3
|
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|
junk goes here... # random
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|
|
|
|
>>> 1+2
|
|
|
again, anything goes #random
|
|
|
if multiline, the random mark is only needed once.
|
|
|
|
|
|
>>> 1+2
|
|
|
You can also put the random marker at the end:
|
|
|
# random
|
|
|
|
|
|
>>> 1+2
|
|
|
# random
|
|
|
.. or at the beginning.
|
|
|
|
|
|
In a case where you want an *entire* docstring to be executed but not verified
|
|
|
(this only serves to check that the code runs without crashing, so it should be
|
|
|
used very sparingly), you can put ``# all-random`` in the docstring.
|
|
|
|
|
|
.. _devel_config:
|
|
|
|
|
|
Release checklist
|
|
|
=================
|
|
|
|
|
|
Most of the release process is automated by the :file:`release` script in the
|
|
|
:file:`tools` directory. This is just a handy reminder for the release manager.
|
|
|
|
|
|
#. Run the release script, which makes the tar.gz, eggs and Win32 .exe
|
|
|
installer. It posts them to the site and registers the release with PyPI.
|
|
|
|
|
|
#. Updating the website with announcements and links to the updated
|
|
|
changes.txt in html form. Remember to put a short note both on the news
|
|
|
page of the site and on Launcphad.
|
|
|
|
|
|
#. Drafting a short release announcement with i) highlights and ii) a link to
|
|
|
the html changes.txt.
|
|
|
|
|
|
#. Make sure that the released version of the docs is live on the site.
|
|
|
|
|
|
#. Celebrate!
|
|
|
|
|
|
Porting to 3.0
|
|
|
==============
|
|
|
|
|
|
There are no definite plans for porting of IPython to python 3. The major
|
|
|
issue is the dependency on twisted framework for the networking/threading
|
|
|
stuff. It is possible that it the traditional IPython interactive console
|
|
|
could be ported more easily since it has no such dependency. Here are a few
|
|
|
things that will need to be considered when doing such a port especially
|
|
|
if we want to have a codebase that works directly on both 2.x and 3.x.
|
|
|
|
|
|
1. The syntax for exceptions changed (PEP 3110). The old
|
|
|
`except exc, var` changed to `except exc as var`. At last
|
|
|
count there was 78 occurences of this usage in the codebase
|
|
|
|
|
|
.. [Bazaar] Bazaar. http://bazaar-vcs.org/
|
|
|
.. [Launchpad] Launchpad. http://www.launchpad.net/ipython
|
|
|
.. [reStructuredText] reStructuredText. http://docutils.sourceforge.net/rst.html
|
|
|
.. [Sphinx] Sphinx. http://sphinx.pocoo.org/
|
|
|
.. [Nose] Nose: a discovery based unittest extension. http://code.google.com/p/python-nose/
|
|
|
|
