upstream/ipython Commit - r5481:346da308

Add note to docs about problems with proxy for HTML notebook....

Thomas Kluyver -

r5481:346da308

parent child

docs/source/interactive/htmlnotebook.txt

0 +11 0

              .. _htmlnotebook:
              =========================
              An HTML Notebook IPython
              =========================
              .. seealso::
                  :ref:`Installation requirements <installnotebook>` for the Notebook.
              The IPython Notebook consists of two related components:
              * An JSON based Notebook document format for recording and distributing
                Python code and rich text.
              * A web-based user interface for authoring and running notebook documents.
              The Notebook can be used by starting the Notebook server with the
              command::
                  $ ipython notebook
              Note that by default, the notebook doesn't load pylab, it's just a normal
              IPython session like any other.  If you want pylab support, you must use::
                  $ ipython notebook --pylab
              which will behave similar to the terminal and Qt console versions, using your
              default matplotlib backend and providing floating interactive plot windows.  If
              you want inline figures, you must manually select the ``inline`` backend::
                  $ ipython notebook --pylab=inline
              This server uses the same ZeroMQ-based two process kernel architecture as
              the QT Console as well Tornado for serving HTTP/S requests. Some of the main
              features of the Notebook include:
              * Display rich data (png/html/latex/svg) in the browser as a result of
                computations.
              * Compose text cells using HTML and Markdown.
              * Import and export notebook documents in range of formats (.ipynb, .py).
              * In browser syntax highlighting, tab completion and autoindentation.
              * Inline matplotlib plots that can be stored in Notebook documents and opened
                later.
              See :ref:`our installation documentation <install_index>` for directions on
              how to install the notebook and its dependencies.
              .. note::
                 You can start more than one notebook server at the same time, if you want to
                 work on notebooks in different directories.  By default the first notebook
                 server starts in port 8888, later notebooks search for random ports near
                 that one.  You can also manually specify the port with the ``--port``
                 option.
              Basic Usage
              ===========
              The landing page of the notebook server application, which we call the IPython
              Notebook *dashboard*, shows the notebooks currently available in the directory
              in which the application was started, and allows you to create new notebooks.
              A notebook is a combination of two things:
 . An interactive session connected to an IPython kernel, controlled by a web
                 application that can send input to the console and display many types of output
                 (text, graphics, mathematics and more).  This is the same kernel used by the
                 :ref:`Qt console <qtconsole>`, but in this case the web console sends input in
                 persistent cells that you can edit in-place instead of the vertically scrolling
                 terminal style used by the Qt console.
 . A document that can save the inputs and outputs of the session as well as
                 additional text that accompanies the code but is not meant for execution.  In
                 this way, notebook files serve as a complete computational record of a session
                 including explanatory text and mathematics, code and resulting figures.  These
                 documents are internally JSON files and are saved with the ``.ipynb``
                 extension.
              If you have ever used the Mathematica or Sage notebooks (the latter is also
              web-based__) you should feel right at home.  If you have not, you should be
              able to learn how to use it in just a few minutes.
              .. __: http://sagenb.org
              Creating and editing notebooks
              ------------------------------
              You can create new notebooks from the dashboard with the ``New Notebook``
              button or open existing ones by clicking on their name.  Once in a notebook,
              your browser tab will reflect the name of that notebook (prefixed with "IPy:").
              The URL for that notebook is not meant to be human-readable and is *not*
              persistent across invocations of the notebook server.
              You can also drag and drop into the area listing files any python file: it
              will be imported into a notebook with the same name (but ``.ipynb`` extension)
              located in the directory where the notebook server was started.  This notebook
              will consist of a single cell with all the code in the file, which you can
              later manually partition into individual cells for gradual execution, add text
              and graphics, etc.
              Workflow and limitations
              ------------------------
              The normal workflow in a notebook is quite similar to a normal IPython session,
              with the difference that you can edit a cell in-place multiple times until you
              obtain the desired results rather than having to rerun separate scripts with
              the ``%run`` magic (though magics also work in the notebook).   Typically
              you'll work on a problem in pieces, organizing related pieces into cells and
              moving forward as previous parts work correctly.  This is much more convenient
              for interactive exploration than breaking up a computation into scripts that
              must be executed together, especially if parts of them take a long time to run
              (In the traditional terminal-based IPython, you can use tricks with namespaces
              and ``%run -i`` to achieve this capability, but we think the notebook is a more
              natural solution for  that kind of problem).
              The only significant limitation the notebook currently has, compared to the qt
              console, is that it can not run any code that expects input from the kernel
              (such as scripts that call :func:`raw_input`).  Very importantly, this means
              that the ``%debug`` magic does *not* work in the notebook!  We intend to
              correct this limitation, but in the meantime, there is a way to debug problems
              in the notebook: you can attach a Qt console to your existing notebook kernel,
              and run ``%debug`` from the Qt console.  If your notebook is running on a local
              computer (i.e. if you are accessing it via your localhost address at
 .0.0.1), you can just type ``%qtconsole`` in the notebook and a Qt console
              will open up connected to that same kernel.
              In general, the notebook server prints the full details of how to connect to
              each kernel at the terminal, with lines like::
                  [IPKernelApp] To connect another client to this kernel, use:
                  [IPKernelApp] --existing kernel-3bb93edd-6b5a-455c-99c8-3b658f45dde5.json
              This is the name of a JSON file that contains all the port and validation
              information necessary to connect to the kernel.  You can manually start a
              qt console with::
                  ipython qtconsole --existing kernel-3bb93edd-6b5a-455c-99c8-3b658f45dde5.json
              and if you only have a single kernel running, simply typing::
                  ipython qtconsole --existing
              will automatically find it (it will always find the most recently started
              kernel if there is more than one).  You can also request this connection data
              by typing ``%connect_info``; this will print the same file information as well
              as the content of the JSON data structure it contains.
              Text input
              ----------
              In addition to code cells and the output they produce (such as figures), you
              can also type text not meant for execution.  To type text, change the type of a
              cell from ``Code`` to ``Markdown`` by using the button or the :kbd:`Ctrl-m m`
              keybinding (see below).  You can then type any text in Markdown_ syntax, as
              well as mathematical expressions if you use ``$...$`` for inline math or
              ``$$...$$`` for displayed math.
              Exporting a notebook
              --------------------
              If you want to provide others with a static HTML or PDF view of your notebook,
              use the ``Print`` button.  This opens a static view of the document, which you
              can print to PDF using your operating system's facilities, or save to a file
              with your web browser's 'Save' option (note that typically, this will create
              both an html file *and* a directory called `notebook_name_files` next to it
              that contains all the necessary style information, so if you intend to share
              this, you must send the directory along with the main html file).
              The `Download` button lets you save a notebook file to the Download area
              configured by your web browser (particularly useful if you are running the
              notebook server on a remote host and need a file locally).  The notebook is
              saved by default with the ``.ipynb`` extension and the files contain JSON data
              that is not meant for human editing or consumption.  But you can always export
              the input part of a notebook to a plain python script by choosing Python format
              in the `Download` drop list.  This removes all output and saves the text cells
              in comment areas.
              .. warning::
                 While in simple cases you can roundtrip a notebook to Python, edit the
                 python file and import it back without loss, this is in general *not
                 guaranteed to work at all*.  As the notebook format evolves in complexity,
                 there will be attributes of the notebook that will not survive a roundtrip
                 through the Python form.  You should think of the Python format as a way to
                 output a script version of a notebook and the import capabilities as a way
                 to load existing code to get a notebook started.  But the Python version is
                 *not* an alternate notebook format.
              Keyboard use
              ------------
              All actions in the notebook can be achieved with the mouse, but we have also
              added keyboard shortcuts for the most common ones, so that productive use of
              the notebook can be achieved with minimal mouse intervention.  The main
              key bindings you need to remember are:
              * :kbd:`Shift-Enter`: execute the current cell (similar to the Qt console),
                show output (if any) and create a new cell below.  Note that in the notebook,
                simply using :kbd:`Enter` *never* forces execution, it simply inserts a new
                line in the current cell.  Therefore, in the notebook you must always use
                :kbd:`Shift-Enter` to get execution (or use the mouse and click on the ``Run
                Selected`` button).
              * :kbd:`Ctrl-Enter`: execute the current cell in "terminal mode", where any
                output is shown but the cursor stays in the current cell, whose input
                area is flushed empty.  This is convenient to do quick in-place experiments
                or query things like filesystem content without creating additional cells you
                may not want saved in your notebook.
              * :kbd:`Ctrl-m`: this is the prefix for all other keybindings, which consist
                of an additional single letter.  Type :kbd:`Ctrl-m h` (that is, the sole
                letter :kbd:`h` after :kbd:`Ctrl-m`) and IPython will show you the remaining
                available keybindings.
              Security
              ========
              You can protect your notebook server with a simple single-password by
              setting the :attr:`NotebookApp.password` configurable. You can prepare a
              hashed password using the function :func:`IPython.lib.security.passwd`:
              .. sourcecode:: ipython
                  In [1]: from IPython.lib import passwd
                  In [2]: passwd()
                  Enter password:
                  Verify password:
                  Out[2]: 'sha1:67c9e60bb8b6:9ffede0825894254b2e042ea597d771089e11aed'
              .. note::
                :func:`~IPython.lib.security.passwd` can also take the password as a string
                argument. **Do not** pass it as an argument inside an IPython session, as it
                will be saved in your input history.
              You can then add this to your :file:`ipython_notebook_config.py`, e.g.::
                  # Password to use for web authentication
                  c.NotebookApp.password = u'sha1:67c9e60bb8b6:9ffede0825894254b2e042ea597d771089e11aed'
              When using a password, it is a good idea to also use SSL, so that your password
              is not sent in the clear. You can start the notebook to communicate via a secure
              protocol mode using a self-signed certificate by typing::
                  $ ipython notebook --certfile=mycert.pem
              .. note::
                  A self-signed certificate can be generated with openssl. For example::
                      $ openssl req -x509 -nodes -days 365 -newkey rsa:1024 -keyout mycert.pem -out mycert.pem
+             Known Issues
+             ============
+             When behind a proxy, especially if your system or browser is set to autodetect
+             the proxy, the html notebook might fail to connect to the server's websockets,
+             and present you with a warning at startup. In this case, you need to configure
+             your system not to use the proxy for the server's address.
+             In Firefox, for example, go to the Preferences panel, Advanced section,
+             Network tab, click 'Settings...', and add the address of the notebook server
+             to the 'No proxy for' field.
              Notebook document format
              ========================
              .. _Markdown: http://daringfireball.net/projects/markdown/basics

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