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.. _qtconsole:
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=========================
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A Qt Console for IPython
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=========================
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We now have a version of IPython, using the new two-process :ref:`ZeroMQ Kernel
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<ipythonzmq>`, running in a PyQt_ GUI. This is a very lightweight widget that
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largely feels like a terminal, but provides a number of enhancements only
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possible in a GUI, such as inline figures, proper multiline editing with syntax
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highlighting, graphical calltips, and much more.
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.. figure:: ../_static/qtconsole.png
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:width: 400px
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:alt: IPython Qt console with embedded plots
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:align: center
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:target: ../_static/qtconsole.png
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The Qt console for IPython, using inline matplotlib plots.
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To get acquainted with the Qt console, type `%guiref` to see a quick
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introduction of its main features.
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The Qt frontend has hand-coded emacs-style bindings for text navigation. This
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is not yet configurable.
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.. tip::
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Since the Qt console tries hard to behave like a terminal, by default it
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immediately executes single lines of input that are complete. If you want
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to force multiline input, hit :key:`Ctrl-Enter` at the end of the first line
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instead of :key:`Enter`, and it will open a new line for input. At any
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point in a multiline block, you can force its execution (without having to
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go to the bottom) with :key:`Shift-Enter`.
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``%loadpy``
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===========
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The new ``%loadpy`` magic takes any python script (must end in '.py'), and
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pastes its contents as your next input, so you can edit it before
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executing. The script may be on your machine, but you can also specify a url,
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and it will download the script from the web. This is particularly useful for
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playing with examples from documentation, such as matplotlib.
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.. sourcecode:: ipython
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In [6]: %loadpy http://matplotlib.sourceforge.net/plot_directive/mpl_examples/mplot3d/contour3d_demo.py
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In [7]: from mpl_toolkits.mplot3d import axes3d
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...: import matplotlib.pyplot as plt
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...:
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...: fig = plt.figure()
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...: ax = fig.add_subplot(111, projection='3d')
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...: X, Y, Z = axes3d.get_test_data(0.05)
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...: cset = ax.contour(X, Y, Z)
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...: ax.clabel(cset, fontsize=9, inline=1)
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...:
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...: plt.show()
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Pylab
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=====
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One of the most exciting features of the new console is embedded matplotlib
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figures. You can use any standard matplotlib GUI backend (Except native MacOSX)
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to draw the figures, and since there is now a two-process model, there is no
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longer a conflict between user input and the drawing eventloop.
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.. image:: figs/besselj.png
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:width: 519px
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.. display:
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:func:`display`
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***************
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An additional function, :func:`display`, will be added to the global namespace
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if you specify the ``--pylab`` option at the command line. The IPython display
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system provides a mechanism for specifying PNG or SVG (and more)
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representations of objects for GUI frontends. By default, IPython registers
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convenient PNG and SVG renderers for matplotlib figures, so you can embed them
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in your document by calling :func:`display` on one or more of them. This is
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especially useful for saving_ your work.
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.. sourcecode:: ipython
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In [5]: plot(range(5)) # plots in the matplotlib window
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In [6]: display(gcf()) # embeds the current figure in the qtconsole
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In [7]: display(*getfigs()) # embeds all active figures in the qtconsole
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If you have a reference to a matplotlib figure object, you can always display
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that specific figure:
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.. sourcecode:: ipython
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In [1]: f = figure()
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In [2]: plot(rand(100))
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Out[2]: [<matplotlib.lines.Line2D at 0x7fc6ac03dd90>]
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In [3]: display(f)
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# Plot is shown here
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In [4]: title('A title')
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Out[4]: <matplotlib.text.Text at 0x7fc6ac023450>
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In [5]: display(f)
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# Updated plot with title is shown here.
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.. _inline:
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``--pylab=inline``
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******************
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If you want to have all of your figures embedded in your session, instead of
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calling :func:`display`, you can specify ``--pylab=inline`` when you start the
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console, and each time you make a plot, it will show up in your document, as if
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you had called :func:`display(fig)`.
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.. _saving:
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Saving and Printing
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===================
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IPythonQt has the ability to save your current session, as either HTML or
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XHTML. If you have been using :func:`display` or inline_ pylab, your figures
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will be PNG in HTML, or inlined as SVG in XHTML. PNG images have the option to
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be either in an external folder, as in many browsers' "Webpage, Complete"
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option, or inlined as well, for a larger, but more portable file.
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The widget also exposes the ability to print directly, via the default print
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shortcut or context menu.
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.. Note::
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Saving is only available to richtext Qt widgets, which are used by default,
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but if you pass the ``--plain`` flag, saving will not be available to you.
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See these examples of :download:`png/html<figs/jn.html>` and
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:download:`svg/xhtml <figs/jn.xhtml>` output. Note that syntax highlighting
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does not survive export. This is a known issue, and is being investigated.
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Colors and Highlighting
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=======================
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Terminal IPython has always had some coloring, but never syntax
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highlighting. There are a few simple color choices, specified by the ``colors``
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flag or ``%colors`` magic:
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* LightBG for light backgrounds
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* Linux for dark backgrounds
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* NoColor for a simple colorless terminal
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The Qt widget has full support for the ``colors`` flag used in the terminal shell.
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The Qt widget, however, has full syntax highlighting as you type, handled by
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the `pygments`_ library. The ``style`` argument exposes access to any style by
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name that can be found by pygments, and there are several already
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installed. The ``colors`` argument, if unspecified, will be guessed based on
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the chosen style. Similarly, there are default styles associated with each
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``colors`` option.
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Screenshot of ``ipython qtconsole --colors=linux``, which uses the 'monokai'
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theme by default:
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.. image:: figs/colors_dark.png
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:width: 627px
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.. Note::
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Calling ``ipython qtconsole -h`` will show all the style names that
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pygments can find on your system.
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You can also pass the filename of a custom CSS stylesheet, if you want to do
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your own coloring, via the ``stylesheet`` argument. The default LightBG
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stylesheet:
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.. sourcecode:: css
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QPlainTextEdit, QTextEdit { background-color: white;
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color: black ;
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selection-background-color: #ccc}
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.error { color: red; }
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.in-prompt { color: navy; }
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.in-prompt-number { font-weight: bold; }
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.out-prompt { color: darkred; }
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.out-prompt-number { font-weight: bold; }
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Fonts
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=====
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The QtConsole has configurable via the ConsoleWidget. To change these, set the
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``font_family`` or ``font_size`` traits of the ConsoleWidget. For instance, to
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use 9pt Anonymous Pro::
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$> ipython qtconsole --ConsoleWidget.font_family="Anonymous Pro" --ConsoleWidget.font_size=9
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Process Management
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==================
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With the two-process ZMQ model, the frontend does not block input during
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execution. This means that actions can be taken by the frontend while the
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Kernel is executing, or even after it crashes. The most basic such command is
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via 'Ctrl-.', which restarts the kernel. This can be done in the middle of a
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blocking execution. The frontend can also know, via a heartbeat mechanism, that
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the kernel has died. This means that the frontend can safely restart the
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kernel.
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Multiple Consoles
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*****************
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Since the Kernel listens on the network, multiple frontends can connect to it.
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These do not have to all be qt frontends - any IPython frontend can connect and
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run code. When you start ipython qtconsole, there will be an output line,
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like::
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[IPKernelApp] To connect another client to this kernel, use:
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[IPKernelApp] --existing --shell=60690 --iopub=44045 --stdin=38323 --hb=41797
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Other frontends can connect to your kernel, and share in the execution. This is
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great for collaboration. The `-e` flag is for 'external'. Starting other
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consoles with that flag will not try to start their own, but rather connect to
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yours. Ultimately, you will not have to specify each port individually, but for
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now this copy-paste method is best.
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By default (for security reasons), the kernel only listens on localhost, so you
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can only connect multiple frontends to the kernel from your local machine. You
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can specify to listen on an external interface by specifying the ``ip``
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argument::
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$> ipython qtconsole --ip=192.168.1.123
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If you specify the ip as 0.0.0.0, that refers to all interfaces, so any
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computer that can see yours can connect to the kernel.
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.. warning::
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Since the ZMQ code currently has no security, listening on an
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external-facing IP is dangerous. You are giving any computer that can see
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you on the network the ability to issue arbitrary shell commands as you on
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your machine. Be very careful with this.
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Stopping Kernels and Consoles
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*****************************
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Since there can be many consoles per kernel, the shutdown mechanism and dialog
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are probably more complicated than you are used to. Since you don't always want
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to shutdown a kernel when you close a window, you are given the option to just
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close the console window or also close the Kernel and *all other windows*. Note
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that this only refers to all other *local* windows, as remote Consoles are not
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allowed to shutdown the kernel, and shutdowns do not close Remote consoles (to
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allow for saving, etc.).
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Rules:
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* Restarting the kernel automatically clears all *local* Consoles, and prompts remote
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Consoles about the reset.
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* Shutdown closes all *local* Consoles, and notifies remotes that
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the Kernel has been shutdown.
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* Remote Consoles may not restart or shutdown the kernel.
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Qt and the QtConsole
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====================
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An important part of working with the QtConsole when you are writing your own
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Qt code is to remember that user code (in the kernel) is *not* in the same
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process as the frontend. This means that there is not necessarily any Qt code
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running in the kernel, and under most normal circumstances there isn't. If,
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however, you specify ``pylab=qt`` at the command-line, then there *will* be a
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:class:`QCoreApplication` instance running in the kernel process along with
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user-code. To get a reference to this application, do:
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.. sourcecode:: python
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from PyQt4 import QtCore
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app = QtCore.QCoreApplication.instance()
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# app will be None if there is no such instance
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A common problem listed in the PyQt4 Gotchas_ is the fact that Python's garbage
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collection will destroy Qt objects (Windows, etc.) once there is no longer a
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Python reference to them, so you have to hold on to them. For instance, in:
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.. sourcecode:: python
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def make_window():
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win = QtGui.QMainWindow()
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def make_and_return_window():
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win = QtGui.QMainWindow()
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return win
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:func:`make_window` will never draw a window, because garbage collection will
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destroy it before it is drawn, whereas :func:`make_and_return_window` lets the
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caller decide when the window object should be destroyed. If, as a developer,
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you know that you always want your objects to last as long as the process, you
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can attach them to the QApplication instance itself:
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.. sourcecode:: python
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# do this just once:
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app = QtCore.QCoreApplication.instance()
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app.references = set()
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# then when you create Windows, add them to the set
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def make_window():
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win = QtGui.QMainWindow()
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app.references.add(win)
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Now the QApplication itself holds a reference to ``win``, so it will never be
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garbage collected until the application itself is destroyed.
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.. _Gotchas: http://www.riverbankcomputing.co.uk/static/Docs/PyQt4/html/gotchas.html#garbage-collection
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Regressions
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===========
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There are some features, where the qt console lags behind the Terminal
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frontend. We hope to have these fixed by 0.11 release.
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* !cmd input: Due to our use of pexpect, we cannot pass input to subprocesses
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launched using the '!' escape. (this will not be fixed).
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.. [PyQt] PyQt4 http://www.riverbankcomputing.co.uk/software/pyqt/download
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.. [pygments] Pygments http://pygments.org/
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