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.. _ipython_qt:
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====================
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IPython Qt interface
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====================
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Abstract
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--------
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This is about the implementation of a Qt-based Graphical User Interface (GUI)
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to execute Python code with an interpreter that runs in a separate process and
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the two systems (GUI frontend and interpreter kernel) communicating via the
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ZeroMQ Messaging library. The bulk of the implementation will be done without
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dependencies on IPython (only on Zmq). Once the key features are ready,
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IPython-specific features can be added using the IPython codebase.
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Project details
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---------------
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For a long time there has been demand for a graphical user interface for
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IPython, and the project already ships Wx-based prototypes thereof. But these
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run all code in a single process, making them extremely brittle, as a crash of
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the Python interpreter kills the entire user session. Here I propose to build
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a Qt-based GUI that will communicate with a separate process for the code
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execution, so that if the interpreter kernel dies, the frontend can continue to
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function after restarting a new kernel (and offering the user the option to
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re-execute all inputs, which the frontend can know).
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This GUI will allow for the easy editing of multi-line input and the convenient
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re-editing of previous blocks of input, which can be displayed in a 2-d
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workspace instead of a line-driven one like today's IPython. This makes it much
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easier to incrementally build and tune a code, by combining the rapid feedback
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cycle of IPython with the ability to edit multiline code with good graphical
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support.
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2-process model pyzmq base
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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Since the necessity of a user to keep his data safe, the design is based in a
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2-process model that will be achieved with a simple client/server system with
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`pyzmq <http://www.zeromq.org/bindings:python>`_, so the GUI session do not
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crash if the the kernel process does. This will be achieved using this test
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`code
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<http://github.com/fperez/pyzmq/blob/completer/examples/kernel/kernel.py>`_ and
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customizing it to the necessities of the GUI such as queue management with
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discrimination for different frontends connected to the same kernel and tab
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completion. A piece of drafted code for the kernel (server) should look like
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this::
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def main():
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c = zmq.Context(1, 1)
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rep_conn = connection % port_base
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pub_conn = connection % (port_base+1)
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print >>sys.__stdout__, "Starting the kernel..."
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print >>sys.__stdout__, "On:",rep_conn, pub_conn
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session = Session(username=u'kernel')
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reply_socket = c.socket(zmq.ROUTER)
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reply_socket.bind(rep_conn)
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pub_socket = c.socket(zmq.PUB)
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pub_socket.bind(pub_conn)
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stdout = OutStream(session, pub_socket, u'stdout')
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stderr = OutStream(session, pub_socket, u'stderr')
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sys.stdout = stdout
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sys.stderr = stderr
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display_hook = DisplayHook(session, pub_socket)
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sys.displayhook = display_hook
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kernel = Kernel(session, reply_socket, pub_socket)
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This kernel will use two queues (output and input), the input queue will have
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the id of the process(frontend) making the request, type(execute, complete,
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help, etc) and id of the request itself and the string of code to be executed,
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the output queue will have basically the same information just that the string
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is the to be displayed. This model is because the kernel needs to maintain
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control of timeouts when multiple requests are sent and keep them indexed.
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Qt based GUI
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~~~~~~~~~~~~
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Design of the interface is going to be based in cells of code executed on the
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previous defined kernel. It will also have GUI facilities such toolboxes,
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tooltips to autocomplete code and function summary, highlighting and
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autoindentation. It will have the cell kind of multiline edition mode so each
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block of code can be edited and executed independently, this can be achieved
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queuing QTextEdit objects (the cell) giving them format so we can discriminate
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outputs from inputs. One of the main characteristics will be the debug support
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that will show the requested outputs as the debugger (that will be on a popup
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widget) "walks" through the code, this design is to be reviewed with the
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mentor. `This <http://gfif.udea.edu.co/IPythonQt_snapshot.png>`_ is a
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tentative view of the main window.
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The GUI will check continuously the output queue from the kernel for new
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information to handle. This information have to be handled with care since any
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output will come at anytime and possibly in a different order than requested or
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maybe not appear at all, this could be possible due to a variety of reasons(for
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example tab completion request while the kernel is busy processing another
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frontend's request). This is, if the kernel is busy it won't be possible to
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fulfill the request for a while so the GUI will be prepared to abandon waiting
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for the reply if the user moves on or a certain timeout expires.
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POSSIBLE FUTURE DIRECTIONS
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---------------------------
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The near future will bring the feature of saving and loading sessions, also
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importing and exporting to different formats like rst, html, pdf and
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python/ipython code, a discussion about this is taking place in the ipython-dev
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mailing list. Also the interaction with a remote kernel and distributed
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computation which is an IPython's project already in development.
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The idea of a mathematica-like help widget (i.e. there will be parts of it that
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will execute as a native session of IPythonQt) is still to be discussed in the
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development mailing list but it's definitively a great idea.
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