Exemplo n.º 1
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def default_manager(kernel):
    connection_file = find_connection_file(kernel.connection_file)
    manager = QtKernelManager(connection_file=connection_file)
    manager.load_connection_file()
    manager.start_channels()
    atexit.register(manager.cleanup_connection_file)
    return manager
Exemplo n.º 2
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 def _init_kernel_manager(self):
     connection_file = find_connection_file(self.app.connection_file)
     manager = QtKernelManager(connection_file=connection_file)
     manager.load_connection_file()
     manager.start_channels()
     atexit.register(manager.cleanup_connection_file)
     self.kernel_manager = manager
Exemplo n.º 3
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    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)
        sec = self.profile_dir.security_dir
        try:
            cf = filefind(self.connection_file, ['.', sec])
        except IOError:
            # file might not exist
            if self.connection_file == os.path.basename(self.connection_file):
                # just shortname, put it in security dir
                cf = os.path.join(sec, self.connection_file)
            else:
                cf = self.connection_file

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
            ip=self.ip,
            shell_port=self.shell_port,
            iopub_port=self.iopub_port,
            stdin_port=self.stdin_port,
            hb_port=self.hb_port,
            connection_file=cf,
            config=self.config,
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        elif self.sshserver:
            # ssh, write new connection file
            self.kernel_manager.write_connection_file()
        self.kernel_manager.start_channels()
Exemplo n.º 4
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 def _init_kernel_manager(self):
     """"""
     
     km = QtKernelManager(connection_file=self._connection_file,
                          config=self.config)
     km.load_connection_file()
     km.start_channels(hb=self._heartbeat)
     self.kernel_manager = km
     atexit.register(self.kernel_manager.cleanup_connection_file)
Exemplo n.º 5
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  def __init__(self):
    QMainWindow.__init__(self)
    self.resize(1000,1000)

    self.kernel = QtKernelManager()
    self.kernel.start_kernel()
    self.kernel.start_channels()

    self.console = IPythonWidget()
    self.console.kernel_manager = self.kernel
    self.setCentralWidget(self.console)
Exemplo n.º 6
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def default_manager(kernel):
    """ Return a configured QtKernelManager

    :param kernel: An IPKernelApp instance
    """
    connection_file = find_connection_file(kernel.connection_file)
    manager = QtKernelManager(connection_file=connection_file)
    manager.load_connection_file()
    manager.start_channels()
    atexit.register(manager.cleanup_connection_file)
    return manager
Exemplo n.º 7
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class MainWin(QMainWindow):
  def __init__(self):
    QMainWindow.__init__(self)
    self.resize(1000,1000)

    self.kernel = QtKernelManager()
    self.kernel.start_kernel()
    self.kernel.start_channels()

    self.console = IPythonWidget()
    self.console.kernel_manager = self.kernel
    self.setCentralWidget(self.console)
Exemplo n.º 8
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    def __init__(self, parent=None):

        QDialog.__init__(self, parent)

        self.main_window = parent
        self.kernel_manager = QtKernelManager()
        self.kernel_manager.start_kernel()
        self.kernel_manager.start_channels()
        self.console = IPythonWidget(local_kernel=LOCALHOST)
        self.console.kernel_manager = self.kernel_manager
        self.verticalLayout = QVBoxLayout(self)
        self.verticalLayout.setContentsMargins(0, 0, 0, 0)
        self.setLayout(self.verticalLayout)
        self.verticalLayout.addWidget(self.console)
Exemplo n.º 9
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    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)
        sec = self.profile_dir.security_dir
        try:
            cf = filefind(self.connection_file, ['.', sec])
        except IOError:
            # file might not exist
            if self.connection_file == os.path.basename(self.connection_file):
                # just shortname, put it in security dir
                cf = os.path.join(sec, self.connection_file)
            else:
                cf = self.connection_file

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
                                ip=self.ip,
                                shell_port=self.shell_port,
                                iopub_port=self.iopub_port,
                                stdin_port=self.stdin_port,
                                hb_port=self.hb_port,
                                connection_file=cf,
                                config=self.config,
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        elif self.sshserver:
            # ssh, write new connection file
            self.kernel_manager.write_connection_file()
        self.kernel_manager.start_channels()
Exemplo n.º 10
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    def connect_kernel(self, connection_file, heartbeat=False):
        """
        connection_file: str - is the connection file name, for example
        'kernel-16098.json'.
        heartbeat: bool - workaround, needed for right click/save as
                          ... errors ... i don't know how to
                          fix this issue. Anyone knows? Anyway it
                          needs more testing
            example1 (standalone):

                    app = QtGui.QApplication([])
                    widget = IPythonConsoleQtWidget()
                    widget.set_default_style(colors='linux')


                    widget.connect_kernel(
                        connection_file='some connection file name')

                    app.exec_()

            example2 (IPythonLocalKernelApp):

                    app = QtGui.QApplication([])

                    kernelapp = IPythonLocalKernelApp.instance()
                    kernelapp.initialize()

                    widget = IPythonConsoleQtWidget()

                    # Green text, black background ;)
                    widget.set_default_style(colors='linux')

                    widget.connect_kernel(
                        connection_file='kernelapp.get_connection_file())

                    app.exec_()

        """
        km = QtKernelManager(
            connection_file=find_connection_file(connection_file),
            config=self.config)
        km.load_connection_file()
        km.start_channels(hb=heartbeat)
        self.kernel_manager = km
        atexit.register(self.kernel_manager.cleanup_connection_file)
Exemplo n.º 11
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    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
                                shell_address=(self.ip, self.shell_port),
                                sub_address=(self.ip, self.iopub_port),
                                stdin_address=(self.ip, self.stdin_port),
                                hb_address=(self.ip, self.hb_port),
                                config=self.config
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ip=self.ip, ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        self.kernel_manager.start_channels()
Exemplo n.º 12
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        def get_widget(self, droplist_completion=True):
            if IPython.__version__ < '0.13':
                completion = droplist_completion
            else:
                completion = 'droplist' if droplist_completion else 'plain'
            widget = RichIPythonWidget(gui_completion=completion)

            cf = find_connection_file(self.kernel_app.connection_file)
            km = QtKernelManager(connection_file=cf, config=widget.config)
            km.load_connection_file()
            km.start_channels()
            widget.kernel_manager = km
            atexit.register(km.cleanup_connection_file)

            sys.stdout = self._stdout
            sys.stderr = self._stderr
            sys.displayhook = self._dishook

            return widget
Exemplo n.º 13
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    def __init__(self, parent=None):
        QDockWidget.__init__(self, parent)
        self.setObjectName("IPython Console")
        self.setWindowTitle(
            QCoreApplication.translate("IPython Console", "IPython Console"))
        self.setAllowedAreas(Qt.BottomDockWidgetArea)

        self.container = QWidget()
        self.layout = QVBoxLayout(self.container)

        self.kernel_manager = QtKernelManager()
        self.kernel_manager.start_kernel()
        self.kernel_manager.start_channels()

        self.console = IPythonWidget(local_kernel=LOCALHOST)
        self.console.kernel_manager = self.kernel_manager
        print dir(self.console)

        self.layout.addWidget(self.console)
        self.setWidget(self.container)
Exemplo n.º 14
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class IPythonConsole(QDockWidget):
    def __init__(self, parent=None):
        QDockWidget.__init__(self, parent)
        self.setObjectName("IPython Console")
        self.setWindowTitle(QCoreApplication.translate("IPython Console", "IPython Console"))
        self.setAllowedAreas(Qt.BottomDockWidgetArea)

        self.container = QWidget()
        self.layout = QVBoxLayout(self.container)

        self.kernel_manager = QtKernelManager()
        self.kernel_manager.start_kernel()
        self.kernel_manager.start_channels()

        self.console = IPythonWidget(local_kernel=LOCALHOST)
        self.console.kernel_manager = self.kernel_manager
        print dir(self.console)

        self.layout.addWidget(self.console)
        self.setWidget(self.container)
Exemplo n.º 15
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class console(QWidget):

	"""A QWidget that serves as a debug window"""

	def __init__(self, parent=None):

		QDialog.__init__(self, parent)

		self.main_window = parent
		self.kernel_manager = QtKernelManager()
		self.kernel_manager.start_kernel()
		self.kernel_manager.start_channels()
		self.console = IPythonWidget(local_kernel=LOCALHOST)
		self.console.kernel_manager = self.kernel_manager
		self.verticalLayout = QVBoxLayout(self)
		self.verticalLayout.setContentsMargins(0,0,0,0)
		self.setLayout(self.verticalLayout)
		self.verticalLayout.addWidget(self.console)

	def setReadOnly(self, state):

		"""
		Dummy function

		Arguments:
		state -- dummy argument
		"""

		pass

	def clear(self):

		"""Clears the console"""

		self.console.reset()

	def show_prompt(self):

		"""Shows a new prompt"""

		self.console._show_interpreter_prompt()
Exemplo n.º 16
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def init_kernel_manager():
    # Don't let Qt or ZMQ swallow KeyboardInterupts.
    signal.signal(signal.SIGINT, signal.SIG_DFL)

    ip = '127.0.0.1'

    # Create a KernelManager and start a kernel.
    kernel_manager = QtKernelManager(
                            shell_address=(ip, 0),
                            sub_address=(ip, 0),
                            stdin_address=(ip, 0),
                            hb_address=(ip, 0)
                            #,
                            #config=self.config
    )
    # start the kernel
    kwargs = dict(ip='127.0.0.1', ipython=True)
    #kwargs['extra_arguments'] = self.kernel_argv
    kernel_manager.start_kernel(**kwargs)
    kernel_manager.start_channels()
    return kernel_manager
Exemplo n.º 17
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 def new_frontend_master(self):
     """ Create and return new frontend attached to new kernel, launched on localhost.
     """
     ip = self.ip if self.ip in LOCAL_IPS else LOCALHOST
     kernel_manager = QtKernelManager(
                             ip=ip,
                             connection_file=self._new_connection_file(),
                             config=self.config,
     )
     # start the kernel
     kwargs = dict(ipython=not self.pure)
     kwargs['extra_arguments'] = self.kernel_argv
     kernel_manager.start_kernel(**kwargs)
     kernel_manager.start_channels()
     widget = self.widget_factory(config=self.config,
                                local_kernel=True)
     widget.kernel_manager = kernel_manager
     widget._existing = False
     widget._may_close = True
     widget._confirm_exit = self.confirm_exit
     return widget
Exemplo n.º 18
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 def new_frontend_slave(self, current_widget):
     """Create and return a new frontend attached to an existing kernel.
     
     Parameters
     ----------
     current_widget : IPythonWidget
         The IPythonWidget whose kernel this frontend is to share
     """
     kernel_manager = QtKernelManager(
                             connection_file=current_widget.kernel_manager.connection_file,
                             config = self.config,
     )
     kernel_manager.load_connection_file()
     kernel_manager.start_channels()
     widget = self.widget_factory(config=self.config,
                             local_kernel=False)
     widget._existing = True
     widget._may_close = False
     widget._confirm_exit = False
     widget.kernel_manager = kernel_manager
     return widget
Exemplo n.º 19
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 def _init_kernel_manager(self):
     km = QtKernelManager(connection_file=self._connection_file,
                          config=self.config)
     km.load_connection_file()
     km.start_channels(hb=self._heartbeat)
     self.kernel_manager = km
     atexit.register(self.kernel_manager.cleanup_connection_file)
Exemplo n.º 20
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def default_manager(kernel):
    connection_file = find_connection_file(kernel.connection_file)
    manager = QtKernelManager(connection_file=connection_file)
    manager.load_connection_file()
    manager.start_channels()
    atexit.register(manager.cleanup_connection_file)
    return manager
Exemplo n.º 21
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 def setupKernelManager(self):
     kernelManager = None
     try:
         from IPython.frontend.qt.kernelmanager import QtKernelManager
         kernelManager = QtKernelManager()
         kernelManager.start_kernel()
         kernelManager.start_channels()
         if hasattr(kernelManager, "connection_file"):
             ipconnection = kernelManager.connection_file
         else:
             shell_port = kernelManager.shell_address[1]
             iopub_port = kernelManager.sub_address[1]
             stdin_port = kernelManager.stdin_address[1]
             hb_port = kernelManager.hb_address[1]
             ipconnection = "--shell={0} --iopub={1} --stdin={2} --hb={3}".format(shell_port, iopub_port, stdin_port, hb_port)
         self.supportManager.updateEnvironment({ 
                 "PMX_IPYTHON_CONNECTION": ipconnection
         })
     except ImportError as e:
         self.logger.warn("Warning: %s" % e)
         kernelManager = None
     return kernelManager
Exemplo n.º 22
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	def __init__(self, parent=None):

		QDialog.__init__(self, parent)

		self.main_window = parent
		self.kernel_manager = QtKernelManager()
		self.kernel_manager.start_kernel()
		self.kernel_manager.start_channels()
		self.console = IPythonWidget(local_kernel=LOCALHOST)
		self.console.kernel_manager = self.kernel_manager
		self.verticalLayout = QVBoxLayout(self)
		self.verticalLayout.setContentsMargins(0,0,0,0)
		self.setLayout(self.verticalLayout)
		self.verticalLayout.addWidget(self.console)
Exemplo n.º 23
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class console(QWidget):
    """A QWidget that serves as a debug window"""
    def __init__(self, parent=None):

        QDialog.__init__(self, parent)

        self.main_window = parent
        self.kernel_manager = QtKernelManager()
        self.kernel_manager.start_kernel()
        self.kernel_manager.start_channels()
        self.console = IPythonWidget(local_kernel=LOCALHOST)
        self.console.kernel_manager = self.kernel_manager
        self.verticalLayout = QVBoxLayout(self)
        self.verticalLayout.setContentsMargins(0, 0, 0, 0)
        self.setLayout(self.verticalLayout)
        self.verticalLayout.addWidget(self.console)

    def setReadOnly(self, state):
        """
		Dummy function

		Arguments:
		state -- dummy argument
		"""

        pass

    def clear(self):
        """Clears the console"""

        self.console.reset()

    def show_prompt(self):
        """Shows a new prompt"""

        self.console._show_interpreter_prompt()
Exemplo n.º 24
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    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
                                shell_address=(self.ip, self.shell_port),
                                sub_address=(self.ip, self.iopub_port),
                                stdin_address=(self.ip, self.stdin_port),
                                hb_address=(self.ip, self.hb_port),
                                config=self.config
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ip=self.ip, ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        self.kernel_manager.start_channels()
Exemplo n.º 25
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 def new_frontend_master(self):
     """ Create and return new frontend attached to new kernel, launched on localhost.
     """
     ip = self.ip if self.ip in LOCAL_IPS else LOCALHOST
     kernel_manager = QtKernelManager(
         ip=ip,
         connection_file=self._new_connection_file(),
         config=self.config,
     )
     # start the kernel
     kwargs = dict(ipython=not self.pure)
     kwargs['extra_arguments'] = self.kernel_argv
     kernel_manager.start_kernel(**kwargs)
     kernel_manager.start_channels()
     widget = self.widget_factory(config=self.config, local_kernel=True)
     widget.kernel_manager = kernel_manager
     widget._existing = False
     widget._may_close = True
     widget._confirm_exit = self.confirm_exit
     return widget
Exemplo n.º 26
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 def new_frontend_slave(self, current_widget):
     """Create and return a new frontend attached to an existing kernel.
     
     Parameters
     ----------
     current_widget : IPythonWidget
         The IPythonWidget whose kernel this frontend is to share
     """
     kernel_manager = QtKernelManager(
         connection_file=current_widget.kernel_manager.connection_file,
         config=self.config,
     )
     kernel_manager.load_connection_file()
     kernel_manager.start_channels()
     widget = self.widget_factory(config=self.config, local_kernel=False)
     widget._existing = True
     widget._may_close = False
     widget._confirm_exit = False
     widget.kernel_manager = kernel_manager
     return widget
Exemplo n.º 27
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    def connect_kernel(self, connection_file, heartbeat=False):
        """
        connection_file: str - is the connection file name, for example 'kernel-16098.json'
        heartbeat: bool - workaround, needed for right click/save as ... errors ... i don't know how to 
                          fix this issue. Anyone knows? Anyway it needs more testing
            example1 (standalone):

                    app = QtGui.QApplication([])
                    widget = IPythonConsoleQtWidget()
                    widget.set_default_style(colors='linux')


                    widget.connect_kernel(connection_file='some connection file name')

                    app.exec_()

            example2 (IPythonLocalKernelApp):

                    app = QtGui.QApplication([])

                    kernelapp = IPythonLocalKernelApp.instance()
                    kernelapp.initialize()

                    widget = IPythonConsoleQtWidget()

                    # Green text, black background ;)
                    widget.set_default_style(colors='linux')

                    widget.connect_kernel(connection_file='kernelapp.get_connection_file())

                    app.exec_()

        """
        km = QtKernelManager(
            connection_file=find_connection_file(connection_file),
            config=self.config)
        km.load_connection_file()
        km.start_channels(hb=heartbeat)
        self.kernel_manager = km
        atexit.register(self.kernel_manager.cleanup_connection_file)
Exemplo n.º 28
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 def setupKernelManager(self):
     kernelManager = None
     try:
         from IPython.frontend.qt.kernelmanager import QtKernelManager
         kernelManager = QtKernelManager()
         kernelManager.start_kernel()
         kernelManager.start_channels()
         if hasattr(kernelManager, "connection_file"):
             ipconnection = kernelManager.connection_file
         else:
             shell_port = kernelManager.shell_address[1]
             iopub_port = kernelManager.sub_address[1]
             stdin_port = kernelManager.stdin_address[1]
             hb_port = kernelManager.hb_address[1]
             ipconnection = "--shell={0} --iopub={1} --stdin={2} --hb={3}".format(
                 shell_port, iopub_port, stdin_port, hb_port)
         self.supportManager.updateEnvironment(
             {"PMX_IPYTHON_CONNECTION": ipconnection})
     except ImportError as e:
         self.logger.warn("Warning: %s" % e)
         kernelManager = None
     return kernelManager
Exemplo n.º 29
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def main():
    """ Entry point for application.
    """
    # Parse command line arguments.
    parser = ArgumentParser()
    kgroup = parser.add_argument_group('kernel options')
    kgroup.add_argument('-e',
                        '--existing',
                        action='store_true',
                        help='connect to an existing kernel')
    kgroup.add_argument(
        '--ip',
        type=str,
        default=LOCALHOST,
        help='set the kernel\'s IP address [default localhost]')
    kgroup.add_argument('--xreq',
                        type=int,
                        metavar='PORT',
                        default=0,
                        help='set the XREQ channel port [default random]')
    kgroup.add_argument('--sub',
                        type=int,
                        metavar='PORT',
                        default=0,
                        help='set the SUB channel port [default random]')
    kgroup.add_argument('--rep',
                        type=int,
                        metavar='PORT',
                        default=0,
                        help='set the REP channel port [default random]')
    kgroup.add_argument('--hb',
                        type=int,
                        metavar='PORT',
                        default=0,
                        help='set the heartbeat port [default: random]')

    egroup = kgroup.add_mutually_exclusive_group()
    egroup.add_argument('--pure', action='store_true', help = \
                        'use a pure Python kernel instead of an IPython kernel')
    egroup.add_argument('--pylab', type=str, metavar='GUI', nargs='?',
                       const='auto', help = \
        "Pre-load matplotlib and numpy for interactive use. If GUI is not \
         given, the GUI backend is matplotlib's, otherwise use one of: \
         ['tk', 'gtk', 'qt', 'wx', 'inline']."                                              )

    wgroup = parser.add_argument_group('widget options')
    wgroup.add_argument('--paging',
                        type=str,
                        default='inside',
                        choices=['inside', 'hsplit', 'vsplit', 'none'],
                        help='set the paging style [default inside]')
    wgroup.add_argument('--rich',
                        action='store_true',
                        help='enable rich text support')
    wgroup.add_argument('--gui-completion',
                        action='store_true',
                        help='use a GUI widget for tab completion')

    args = parser.parse_args()

    # Don't let Qt or ZMQ swallow KeyboardInterupts.
    import signal
    signal.signal(signal.SIGINT, signal.SIG_DFL)

    # Create a KernelManager and start a kernel.
    kernel_manager = QtKernelManager(xreq_address=(args.ip, args.xreq),
                                     sub_address=(args.ip, args.sub),
                                     rep_address=(args.ip, args.rep),
                                     hb_address=(args.ip, args.hb))
    if args.ip == LOCALHOST and not args.existing:
        if args.pure:
            kernel_manager.start_kernel(ipython=False)
        elif args.pylab:
            kernel_manager.start_kernel(pylab=args.pylab)
        else:
            kernel_manager.start_kernel()
    kernel_manager.start_channels()

    # Create the widget.
    app = QtGui.QApplication([])
    if args.pure:
        kind = 'rich' if args.rich else 'plain'
        widget = FrontendWidget(kind=kind, paging=args.paging)
    elif args.rich or args.pylab:
        widget = RichIPythonWidget(paging=args.paging)
    else:
        widget = IPythonWidget(paging=args.paging)
    widget.gui_completion = args.gui_completion
    widget.kernel_manager = kernel_manager

    # Create the main window.
    window = MainWindow(app, widget, args.existing)
    window.setWindowTitle('Python' if args.pure else 'IPython')
    window.show()

    # Start the application main loop.
    app.exec_()
Exemplo n.º 30
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def main():
    """ Entry point for application.
    """
    # Parse command line arguments.
    parser = ArgumentParser()
    kgroup = parser.add_argument_group('kernel options')
    kgroup.add_argument('-e', '--existing', action='store_true',
                        help='connect to an existing kernel')
    kgroup.add_argument('--ip', type=str, default=LOCALHOST,
                        help=\
            "set the kernel\'s IP address [default localhost].\
            If the IP address is something other than localhost, then \
            Consoles on other machines will be able to connect\
            to the Kernel, so be careful!")
    kgroup.add_argument('--xreq', type=int, metavar='PORT', default=0,
                        help='set the XREQ channel port [default random]')
    kgroup.add_argument('--sub', type=int, metavar='PORT', default=0,
                        help='set the SUB channel port [default random]')
    kgroup.add_argument('--rep', type=int, metavar='PORT', default=0,
                        help='set the REP channel port [default random]')
    kgroup.add_argument('--hb', type=int, metavar='PORT', default=0,
                        help='set the heartbeat port [default random]')

    egroup = kgroup.add_mutually_exclusive_group()
    egroup.add_argument('--pure', action='store_true', help = \
                        'use a pure Python kernel instead of an IPython kernel')
    egroup.add_argument('--pylab', type=str, metavar='GUI', nargs='?', 
                       const='auto', help = \
        "Pre-load matplotlib and numpy for interactive use. If GUI is not \
         given, the GUI backend is matplotlib's, otherwise use one of: \
         ['tk', 'gtk', 'qt', 'wx', 'inline'].")

    wgroup = parser.add_argument_group('widget options')
    wgroup.add_argument('--paging', type=str, default='inside',
                        choices = ['inside', 'hsplit', 'vsplit', 'none'],
                        help='set the paging style [default inside]')
    wgroup.add_argument('--plain', action='store_true',
                        help='disable rich text support')
    wgroup.add_argument('--gui-completion', action='store_true',
                        help='use a GUI widget for tab completion')
    wgroup.add_argument('--style', type=str,
                        choices = list(get_all_styles()),
                        help='specify a pygments style for by name')
    wgroup.add_argument('--stylesheet', type=str,
                        help='path to a custom CSS stylesheet')
    wgroup.add_argument('--colors', type=str, help = \
        "Set the color scheme (LightBG,Linux,NoColor). This is guessed \
         based on the pygments style if not set.")

    args = parser.parse_args()

    # parse the colors arg down to current known labels
    if args.colors:
        colors=args.colors.lower()
        if colors in ('lightbg', 'light'):
            colors='lightbg'
        elif colors in ('dark', 'linux'):
            colors='linux'
        else:
            colors='nocolor'
    elif args.style:
        if args.style=='bw':
            colors='nocolor'
        elif styles.dark_style(args.style):
            colors='linux'
        else:
            colors='lightbg'
    else:
        colors=None

    # Don't let Qt or ZMQ swallow KeyboardInterupts.
    import signal
    signal.signal(signal.SIGINT, signal.SIG_DFL)

    # Create a KernelManager and start a kernel.
    kernel_manager = QtKernelManager(xreq_address=(args.ip, args.xreq),
                                     sub_address=(args.ip, args.sub),
                                     rep_address=(args.ip, args.rep),
                                     hb_address=(args.ip, args.hb))
    if not args.existing:
        # if not args.ip in LOCAL_IPS+ALL_ALIAS:
        #     raise ValueError("Must bind a local ip, such as: %s"%LOCAL_IPS)

        kwargs = dict(ip=args.ip)
        if args.pure:
            kwargs['ipython']=False
        else:
            kwargs['colors']=colors
            if args.pylab:
                kwargs['pylab']=args.pylab

        kernel_manager.start_kernel(**kwargs)
    kernel_manager.start_channels()

    # Create the widget.
    app = QtGui.QApplication([])
    local_kernel = (not args.existing) or args.ip in LOCAL_IPS
    if args.pure:
        kind = 'plain' if args.plain else 'rich'
        widget = FrontendWidget(kind=kind, paging=args.paging, 
                                local_kernel=local_kernel)
    elif args.plain:
        widget = IPythonWidget(paging=args.paging, local_kernel=local_kernel)
    else:
        widget = RichIPythonWidget(paging=args.paging, 
                                   local_kernel=local_kernel)
    widget.gui_completion = args.gui_completion
    widget.kernel_manager = kernel_manager

    # Configure the style.
    if not args.pure: # only IPythonWidget supports styles
        if args.style:
            widget.syntax_style = args.style
            widget.style_sheet = styles.sheet_from_template(args.style, colors)
            widget._syntax_style_changed()
            widget._style_sheet_changed()
        elif colors:
            # use a default style
            widget.set_default_style(colors=colors)
        else:
            # this is redundant for now, but allows the widget's
            # defaults to change
            widget.set_default_style()

        if args.stylesheet:
            # we got an expicit stylesheet
            if os.path.isfile(args.stylesheet):
                with open(args.stylesheet) as f:
                    sheet = f.read()
                widget.style_sheet = sheet
                widget._style_sheet_changed()
            else:
                raise IOError("Stylesheet %r not found."%args.stylesheet)

    # Create the main window.
    window = MainWindow(app, widget, args.existing, may_close=local_kernel)
    window.setWindowTitle('Python' if args.pure else 'IPython')
    window.show()

    # Start the application main loop.
    app.exec_()
Exemplo n.º 31
0
class IPythonQtConsoleApp(BaseIPythonApplication):
    name = 'ipython-qtconsole'
    default_config_file_name='ipython_config.py'
    
    description = """
        The IPython QtConsole.
        
        This launches a Console-style application using Qt.  It is not a full
        console, in that launched terminal subprocesses will not be able to accept
        input.
        
        The QtConsole supports various extra features beyond the Terminal IPython
        shell, such as inline plotting with matplotlib, via:
        
            ipython qtconsole --pylab=inline
        
        as well as saving your session as HTML, and printing the output.
        
    """
    examples = _examples

    classes = [IPKernelApp, IPythonWidget, ZMQInteractiveShell, ProfileDir, Session]
    flags = Dict(flags)
    aliases = Dict(aliases)

    kernel_argv = List(Unicode)

    # create requested profiles by default, if they don't exist:
    auto_create = CBool(True)
    # connection info:
    ip = Unicode(LOCALHOST, config=True,
        help="""Set the kernel\'s IP address [default localhost].
        If the IP address is something other than localhost, then
        Consoles on other machines will be able to connect
        to the Kernel, so be careful!"""
    )
    
    sshserver = Unicode('', config=True,
        help="""The SSH server to use to connect to the kernel.""")
    sshkey = Unicode('', config=True,
        help="""Path to the ssh key to use for logging in to the ssh server.""")
    
    hb_port = Int(0, config=True,
        help="set the heartbeat port [default: random]")
    shell_port = Int(0, config=True,
        help="set the shell (XREP) port [default: random]")
    iopub_port = Int(0, config=True,
        help="set the iopub (PUB) port [default: random]")
    stdin_port = Int(0, config=True,
        help="set the stdin (XREQ) port [default: random]")

    existing = CBool(False, config=True,
        help="Whether to connect to an already running Kernel.")

    stylesheet = Unicode('', config=True,
        help="path to a custom CSS stylesheet")

    pure = CBool(False, config=True,
        help="Use a pure Python kernel instead of an IPython kernel.")
    plain = CBool(False, config=True,
        help="Use a plaintext widget instead of rich text (plain can't print/save).")

    def _pure_changed(self, name, old, new):
        kind = 'plain' if self.plain else 'rich'
        self.config.ConsoleWidget.kind = kind
        if self.pure:
            self.widget_factory = FrontendWidget
        elif self.plain:
            self.widget_factory = IPythonWidget
        else:
            self.widget_factory = RichIPythonWidget

    _plain_changed = _pure_changed

    confirm_exit = CBool(True, config=True,
        help="""
        Set to display confirmation dialog on exit. You can always use 'exit' or 'quit',
        to force a direct exit without any confirmation.""",
    )
    
    # the factory for creating a widget
    widget_factory = Any(RichIPythonWidget)

    def parse_command_line(self, argv=None):
        super(IPythonQtConsoleApp, self).parse_command_line(argv)
        if argv is None:
            argv = sys.argv[1:]

        self.kernel_argv = list(argv) # copy
        # kernel should inherit default config file from frontend
        self.kernel_argv.append("--KernelApp.parent_appname='%s'"%self.name)
        # scrub frontend-specific flags
        for a in argv:
            
            if a.startswith('-'):
                key = a.lstrip('-').split('=')[0]
                if key in qt_flags:
                    self.kernel_argv.remove(a)
    
    def init_ssh(self):
        """set up ssh tunnels, if needed."""
        if not self.sshserver and not self.sshkey:
            return
        
        if self.sshkey and not self.sshserver:
            self.sshserver = self.ip
            self.ip=LOCALHOST
        
        lports = select_random_ports(4)
        rports = self.shell_port, self.iopub_port, self.stdin_port, self.hb_port
        self.shell_port, self.iopub_port, self.stdin_port, self.hb_port = lports
        
        remote_ip = self.ip
        self.ip = LOCALHOST
        self.log.info("Forwarding connections to %s via %s"%(remote_ip, self.sshserver))
        
        if tunnel.try_passwordless_ssh(self.sshserver, self.sshkey):
            password=False
        else:
            password = getpass("SSH Password for %s: "%self.sshserver)
        
        for lp,rp in zip(lports, rports):
            tunnel.ssh_tunnel(lp, rp, self.sshserver, remote_ip, self.sshkey, password)
        
    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
                                shell_address=(self.ip, self.shell_port),
                                sub_address=(self.ip, self.iopub_port),
                                stdin_address=(self.ip, self.stdin_port),
                                hb_address=(self.ip, self.hb_port),
                                config=self.config
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ip=self.ip, ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        self.kernel_manager.start_channels()


    def init_qt_elements(self):
        # Create the widget.
        self.app = QtGui.QApplication([])
        local_kernel = (not self.existing) or self.ip in LOCAL_IPS
        self.widget = self.widget_factory(config=self.config,
                                        local_kernel=local_kernel)
        self.widget.kernel_manager = self.kernel_manager
        self.window = MainWindow(self.app, self.widget, self.existing,
                                may_close=local_kernel,
                                confirm_exit=self.confirm_exit)
        self.window.setWindowTitle('Python' if self.pure else 'IPython')

    def init_colors(self):
        """Configure the coloring of the widget"""
        # Note: This will be dramatically simplified when colors
        # are removed from the backend.

        if self.pure:
            # only IPythonWidget supports styling
            return

        # parse the colors arg down to current known labels
        try:
            colors = self.config.ZMQInteractiveShell.colors
        except AttributeError:
            colors = None
        try:
            style = self.config.IPythonWidget.colors
        except AttributeError:
            style = None

        # find the value for colors:
        if colors:
            colors=colors.lower()
            if colors in ('lightbg', 'light'):
                colors='lightbg'
            elif colors in ('dark', 'linux'):
                colors='linux'
            else:
                colors='nocolor'
        elif style:
            if style=='bw':
                colors='nocolor'
            elif styles.dark_style(style):
                colors='linux'
            else:
                colors='lightbg'
        else:
            colors=None

        # Configure the style.
        widget = self.widget
        if style:
            widget.style_sheet = styles.sheet_from_template(style, colors)
            widget.syntax_style = style
            widget._syntax_style_changed()
            widget._style_sheet_changed()
        elif colors:
            # use a default style
            widget.set_default_style(colors=colors)
        else:
            # this is redundant for now, but allows the widget's
            # defaults to change
            widget.set_default_style()

        if self.stylesheet:
            # we got an expicit stylesheet
            if os.path.isfile(self.stylesheet):
                with open(self.stylesheet) as f:
                    sheet = f.read()
                widget.style_sheet = sheet
                widget._style_sheet_changed()
            else:
                raise IOError("Stylesheet %r not found."%self.stylesheet)

    def initialize(self, argv=None):
        super(IPythonQtConsoleApp, self).initialize(argv)
        self.init_ssh()
        self.init_kernel_manager()
        self.init_qt_elements()
        self.init_colors()
        self.init_window_shortcut()

    def init_window_shortcut(self):
        fullScreenAction = QtGui.QAction('Toggle Full Screen', self.window)
        fullScreenAction.setShortcut('Ctrl+Meta+Space')
        fullScreenAction.triggered.connect(self.toggleFullScreen)
        self.window.addAction(fullScreenAction)

    def toggleFullScreen(self):
        if not self.window.isFullScreen():
            self.window.showFullScreen()
        else:
            self.window.showNormal()

    def start(self):

        # draw the window
        self.window.show()

        # Start the application main loop.
        self.app.exec_()
Exemplo n.º 32
0
class IPythonQtConsoleApp(BaseIPythonApplication):
    name = 'ipython-qtconsole'
    default_config_file_name='ipython_config.py'

    description = """
        The IPython QtConsole.
        
        This launches a Console-style application using Qt.  It is not a full
        console, in that launched terminal subprocesses will not be able to accept
        input.
        
        The QtConsole supports various extra features beyond the Terminal IPython
        shell, such as inline plotting with matplotlib, via:
        
            ipython qtconsole --pylab=inline
        
        as well as saving your session as HTML, and printing the output.
        
    """
    examples = _examples

    classes = [IPKernelApp, IPythonWidget, ZMQInteractiveShell, ProfileDir, Session]
    flags = Dict(flags)
    aliases = Dict(aliases)

    kernel_argv = List(Unicode)

    # create requested profiles by default, if they don't exist:
    auto_create = CBool(True)
    # connection info:
    ip = Unicode(LOCALHOST, config=True,
        help="""Set the kernel\'s IP address [default localhost].
        If the IP address is something other than localhost, then
        Consoles on other machines will be able to connect
        to the Kernel, so be careful!"""
    )
    
    sshserver = Unicode('', config=True,
        help="""The SSH server to use to connect to the kernel.""")
    sshkey = Unicode('', config=True,
        help="""Path to the ssh key to use for logging in to the ssh server.""")
    
    hb_port = Integer(0, config=True,
        help="set the heartbeat port [default: random]")
    shell_port = Integer(0, config=True,
        help="set the shell (XREP) port [default: random]")
    iopub_port = Integer(0, config=True,
        help="set the iopub (PUB) port [default: random]")
    stdin_port = Integer(0, config=True,
        help="set the stdin (XREQ) port [default: random]")
    connection_file = Unicode('', config=True,
        help="""JSON file in which to store connection info [default: kernel-<pid>.json]

        This file will contain the IP, ports, and authentication key needed to connect
        clients to this kernel. By default, this file will be created in the security-dir
        of the current profile, but can be specified by absolute path.
        """)
    def _connection_file_default(self):
        return 'kernel-%i.json' % os.getpid()

    existing = Unicode('', config=True,
        help="""Connect to an already running kernel""")

    stylesheet = Unicode('', config=True,
        help="path to a custom CSS stylesheet")

    pure = CBool(False, config=True,
        help="Use a pure Python kernel instead of an IPython kernel.")
    plain = CBool(False, config=True,
        help="Use a plaintext widget instead of rich text (plain can't print/save).")

    def _pure_changed(self, name, old, new):
        kind = 'plain' if self.plain else 'rich'
        self.config.ConsoleWidget.kind = kind
        if self.pure:
            self.widget_factory = FrontendWidget
        elif self.plain:
            self.widget_factory = IPythonWidget
        else:
            self.widget_factory = RichIPythonWidget

    _plain_changed = _pure_changed

    confirm_exit = CBool(True, config=True,
        help="""
        Set to display confirmation dialog on exit. You can always use 'exit' or 'quit',
        to force a direct exit without any confirmation.""",
    )
    
    # the factory for creating a widget
    widget_factory = Any(RichIPythonWidget)

    def parse_command_line(self, argv=None):
        super(IPythonQtConsoleApp, self).parse_command_line(argv)
        if argv is None:
            argv = sys.argv[1:]
        self.kernel_argv = list(argv) # copy
        # kernel should inherit default config file from frontend
        self.kernel_argv.append("--KernelApp.parent_appname='%s'"%self.name)
        # Scrub frontend-specific flags
        swallow_next = False
        was_flag = False
        # copy again, in case some aliases have the same name as a flag
        # argv = list(self.kernel_argv)
        for a in argv:
            if swallow_next:
                swallow_next = False
                # last arg was an alias, remove the next one
                # *unless* the last alias has a no-arg flag version, in which
                # case, don't swallow the next arg if it's also a flag:
                if not (was_flag and a.startswith('-')):
                    self.kernel_argv.remove(a)
                    continue
            if a.startswith('-'):
                split = a.lstrip('-').split('=')
                alias = split[0]
                if alias in qt_aliases:
                    self.kernel_argv.remove(a)
                    if len(split) == 1:
                        # alias passed with arg via space
                        swallow_next = True
                        # could have been a flag that matches an alias, e.g. `existing`
                        # in which case, we might not swallow the next arg
                        was_flag = alias in qt_flags
                elif alias in qt_flags:
                    # strip flag, but don't swallow next, as flags don't take args
                    self.kernel_argv.remove(a)
    
    def init_connection_file(self):
        """find the connection file, and load the info if found.
        
        The current working directory and the current profile's security
        directory will be searched for the file if it is not given by
        absolute path.
        
        When attempting to connect to an existing kernel and the `--existing`
        argument does not match an existing file, it will be interpreted as a
        fileglob, and the matching file in the current profile's security dir
        with the latest access time will be used.
        """
        if self.existing:
            try:
                cf = find_connection_file(self.existing)
            except Exception:
                self.log.critical("Could not find existing kernel connection file %s", self.existing)
                self.exit(1)
            self.log.info("Connecting to existing kernel: %s" % cf)
            self.connection_file = cf
        # should load_connection_file only be used for existing?
        # as it is now, this allows reusing ports if an existing
        # file is requested
        try:
            self.load_connection_file()
        except Exception:
            self.log.error("Failed to load connection file: %r", self.connection_file, exc_info=True)
            self.exit(1)
    
    def load_connection_file(self):
        """load ip/port/hmac config from JSON connection file"""
        # this is identical to KernelApp.load_connection_file
        # perhaps it can be centralized somewhere?
        try:
            fname = filefind(self.connection_file, ['.', self.profile_dir.security_dir])
        except IOError:
            self.log.debug("Connection File not found: %s", self.connection_file)
            return
        self.log.debug(u"Loading connection file %s", fname)
        with open(fname) as f:
            s = f.read()
        cfg = json.loads(s)
        if self.ip == LOCALHOST and 'ip' in cfg:
            # not overridden by config or cl_args
            self.ip = cfg['ip']
        for channel in ('hb', 'shell', 'iopub', 'stdin'):
            name = channel + '_port'
            if getattr(self, name) == 0 and name in cfg:
                # not overridden by config or cl_args
                setattr(self, name, cfg[name])
        if 'key' in cfg:
            self.config.Session.key = str_to_bytes(cfg['key'])
    
    def init_ssh(self):
        """set up ssh tunnels, if needed."""
        if not self.sshserver and not self.sshkey:
            return
        
        if self.sshkey and not self.sshserver:
            # specifying just the key implies that we are connecting directly
            self.sshserver = self.ip
            self.ip = LOCALHOST
        
        # build connection dict for tunnels:
        info = dict(ip=self.ip,
                    shell_port=self.shell_port,
                    iopub_port=self.iopub_port,
                    stdin_port=self.stdin_port,
                    hb_port=self.hb_port
        )
        
        self.log.info("Forwarding connections to %s via %s"%(self.ip, self.sshserver))
        
        # tunnels return a new set of ports, which will be on localhost:
        self.ip = LOCALHOST
        try:
            newports = tunnel_to_kernel(info, self.sshserver, self.sshkey)
        except:
            # even catch KeyboardInterrupt
            self.log.error("Could not setup tunnels", exc_info=True)
            self.exit(1)
        
        self.shell_port, self.iopub_port, self.stdin_port, self.hb_port = newports
        
        cf = self.connection_file
        base,ext = os.path.splitext(cf)
        base = os.path.basename(base)
        self.connection_file = os.path.basename(base)+'-ssh'+ext
        self.log.critical("To connect another client via this tunnel, use:")
        self.log.critical("--existing %s" % self.connection_file)
    
    def _new_connection_file(self):
        return os.path.join(self.profile_dir.security_dir, 'kernel-%s.json' % uuid.uuid4())

    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)
        sec = self.profile_dir.security_dir
        try:
            cf = filefind(self.connection_file, ['.', sec])
        except IOError:
            # file might not exist
            if self.connection_file == os.path.basename(self.connection_file):
                # just shortname, put it in security dir
                cf = os.path.join(sec, self.connection_file)
            else:
                cf = self.connection_file

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
                                ip=self.ip,
                                shell_port=self.shell_port,
                                iopub_port=self.iopub_port,
                                stdin_port=self.stdin_port,
                                hb_port=self.hb_port,
                                connection_file=cf,
                                config=self.config,
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        elif self.sshserver:
            # ssh, write new connection file
            self.kernel_manager.write_connection_file()
        self.kernel_manager.start_channels()

    def new_frontend_master(self):
        """ Create and return new frontend attached to new kernel, launched on localhost.
        """
        ip = self.ip if self.ip in LOCAL_IPS else LOCALHOST
        kernel_manager = QtKernelManager(
                                ip=ip,
                                connection_file=self._new_connection_file(),
                                config=self.config,
        )
        # start the kernel
        kwargs = dict(ipython=not self.pure)
        kwargs['extra_arguments'] = self.kernel_argv
        kernel_manager.start_kernel(**kwargs)
        kernel_manager.start_channels()
        widget = self.widget_factory(config=self.config,
                                   local_kernel=True)
        widget.kernel_manager = kernel_manager
        widget._existing = False
        widget._may_close = True
        widget._confirm_exit = self.confirm_exit
        return widget

    def new_frontend_slave(self, current_widget):
        """Create and return a new frontend attached to an existing kernel.
        
        Parameters
        ----------
        current_widget : IPythonWidget
            The IPythonWidget whose kernel this frontend is to share
        """
        kernel_manager = QtKernelManager(
                                connection_file=current_widget.kernel_manager.connection_file,
                                config = self.config,
        )
        kernel_manager.load_connection_file()
        kernel_manager.start_channels()
        widget = self.widget_factory(config=self.config,
                                local_kernel=False)
        widget._existing = True
        widget._may_close = False
        widget._confirm_exit = False
        widget.kernel_manager = kernel_manager
        return widget

    def init_qt_elements(self):
        # Create the widget.
        self.app = QtGui.QApplication([])

        base_path = os.path.abspath(os.path.dirname(__file__))
        icon_path = os.path.join(base_path, 'resources', 'icon', 'IPythonConsole.svg')
        self.app.icon = QtGui.QIcon(icon_path)
        QtGui.QApplication.setWindowIcon(self.app.icon)

        local_kernel = (not self.existing) or self.ip in LOCAL_IPS
        self.widget = self.widget_factory(config=self.config,
                                        local_kernel=local_kernel)
        self.widget._existing = self.existing
        self.widget._may_close = not self.existing
        self.widget._confirm_exit = self.confirm_exit

        self.widget.kernel_manager = self.kernel_manager
        self.window = MainWindow(self.app,
                                confirm_exit=self.confirm_exit,
                                new_frontend_factory=self.new_frontend_master,
                                slave_frontend_factory=self.new_frontend_slave,
                                )
        self.window.log = self.log
        self.window.add_tab_with_frontend(self.widget)
        self.window.init_menu_bar()

        # we need to populate the 'Magic Menu' once the kernel has answer at
        # least once 

        ########################################################################
        ## TEMPORARILY DISABLED - see #1057 for details, uncomment the next
        ## line when a proper fix is found:
        ## self.kernel_manager.shell_channel.first_reply.connect(self.window.pop.trigger)
        ## END TEMPORARY FIX
        ########################################################################

        self.window.setWindowTitle('Python' if self.pure else 'IPython')

    def init_colors(self):
        """Configure the coloring of the widget"""
        # Note: This will be dramatically simplified when colors
        # are removed from the backend.

        if self.pure:
            # only IPythonWidget supports styling
            return

        # parse the colors arg down to current known labels
        try:
            colors = self.config.ZMQInteractiveShell.colors
        except AttributeError:
            colors = None
        try:
            style = self.config.IPythonWidget.syntax_style
        except AttributeError:
            style = None

        # find the value for colors:
        if colors:
            colors=colors.lower()
            if colors in ('lightbg', 'light'):
                colors='lightbg'
            elif colors in ('dark', 'linux'):
                colors='linux'
            else:
                colors='nocolor'
        elif style:
            if style=='bw':
                colors='nocolor'
            elif styles.dark_style(style):
                colors='linux'
            else:
                colors='lightbg'
        else:
            colors=None

        # Configure the style.
        widget = self.widget
        if style:
            widget.style_sheet = styles.sheet_from_template(style, colors)
            widget.syntax_style = style
            widget._syntax_style_changed()
            widget._style_sheet_changed()
        elif colors:
            # use a default style
            widget.set_default_style(colors=colors)
        else:
            # this is redundant for now, but allows the widget's
            # defaults to change
            widget.set_default_style()

        if self.stylesheet:
            # we got an expicit stylesheet
            if os.path.isfile(self.stylesheet):
                with open(self.stylesheet) as f:
                    sheet = f.read()
                widget.style_sheet = sheet
                widget._style_sheet_changed()
            else:
                raise IOError("Stylesheet %r not found."%self.stylesheet)

    @catch_config_error
    def initialize(self, argv=None):
        super(IPythonQtConsoleApp, self).initialize(argv)
        self.init_connection_file()
        default_secure(self.config)
        self.init_ssh()
        self.init_kernel_manager()
        self.init_qt_elements()
        self.init_colors()

    def start(self):

        # draw the window
        self.window.show()

        # Start the application main loop.
        self.app.exec_()
Exemplo n.º 33
0
 def connect_kernel(self, conn, heartbeat=False):
     km = QtKernelManager(connection_file=find_connection_file(conn))
     km.load_connection_file()
     km.start_channels(hb=heartbeat)
     self.kernel_manager = km
     atexit.register(self.kernel_manager.cleanup_connection_file)
Exemplo n.º 34
0
class IPythonQtConsoleApp(BaseIPythonApplication):
    name = 'ipython-qtconsole'
    default_config_file_name='ipython_config.py'
    
    description = """
        The IPython QtConsole.
        
        This launches a Console-style application using Qt.  It is not a full
        console, in that launched terminal subprocesses will not.
        
        The QtConsole supports various extra features beyond the
        
    """
    
    classes = [IPKernelApp, IPythonWidget, ZMQInteractiveShell, ProfileDir, Session]
    flags = Dict(flags)
    aliases = Dict(aliases)

    kernel_argv = List(Unicode)

    # connection info:
    ip = Unicode(LOCALHOST, config=True,
        help="""Set the kernel\'s IP address [default localhost].
        If the IP address is something other than localhost, then
        Consoles on other machines will be able to connect
        to the Kernel, so be careful!"""
    )
    hb_port = Int(0, config=True,
        help="set the heartbeat port [default: random]")
    shell_port = Int(0, config=True,
        help="set the shell (XREP) port [default: random]")
    iopub_port = Int(0, config=True,
        help="set the iopub (PUB) port [default: random]")
    stdin_port = Int(0, config=True,
        help="set the stdin (XREQ) port [default: random]")

    existing = CBool(False, config=True,
        help="Whether to connect to an already running Kernel.")

    stylesheet = Unicode('', config=True,
        help="path to a custom CSS stylesheet")

    pure = CBool(False, config=True,
        help="Use a pure Python kernel instead of an IPython kernel.")
    plain = CBool(False, config=True,
        help="Use a plaintext widget instead of rich text (plain can't print/save).")

    def _pure_changed(self, name, old, new):
        kind = 'plain' if self.plain else 'rich'
        self.config.ConsoleWidget.kind = kind
        if self.pure:
            self.widget_factory = FrontendWidget
        elif self.plain:
            self.widget_factory = IPythonWidget
        else:
            self.widget_factory = RichIPythonWidget

    _plain_changed = _pure_changed

    confirm_exit = CBool(True, config=True,
        help="""
        Set to display confirmation dialog on exit. You can always use 'exit' or 'quit',
        to force a direct exit without any confirmation.""",
    )
    
    # the factory for creating a widget
    widget_factory = Any(RichIPythonWidget)

    def parse_command_line(self, argv=None):
        super(IPythonQtConsoleApp, self).parse_command_line(argv)
        if argv is None:
            argv = sys.argv[1:]

        self.kernel_argv = list(argv) # copy

        # scrub frontend-specific flags
        for a in argv:
            if a.startswith('--') and a[2:] in qt_flags:
                self.kernel_argv.remove(a)

    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
                                shell_address=(self.ip, self.shell_port),
                                sub_address=(self.ip, self.iopub_port),
                                stdin_address=(self.ip, self.stdin_port),
                                hb_address=(self.ip, self.hb_port),
                                config=self.config
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ip=self.ip, ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        self.kernel_manager.start_channels()


    def init_qt_elements(self):
        # Create the widget.
        self.app = QtGui.QApplication([])
        local_kernel = (not self.existing) or self.ip in LOCAL_IPS
        self.widget = self.widget_factory(config=self.config,
                                        local_kernel=local_kernel)
        self.widget.kernel_manager = self.kernel_manager
        self.window = MainWindow(self.app, self.widget, self.existing,
                                may_close=local_kernel,
                                confirm_exit=self.confirm_exit)
        self.window.setWindowTitle('Python' if self.pure else 'IPython')

    def init_colors(self):
        """Configure the coloring of the widget"""
        # Note: This will be dramatically simplified when colors
        # are removed from the backend.

        if self.pure:
            # only IPythonWidget supports styling
            return

        # parse the colors arg down to current known labels
        try:
            colors = self.config.ZMQInteractiveShell.colors
        except AttributeError:
            colors = None
        try:
            style = self.config.IPythonWidget.colors
        except AttributeError:
            style = None

        # find the value for colors:
        if colors:
            colors=colors.lower()
            if colors in ('lightbg', 'light'):
                colors='lightbg'
            elif colors in ('dark', 'linux'):
                colors='linux'
            else:
                colors='nocolor'
        elif style:
            if style=='bw':
                colors='nocolor'
            elif styles.dark_style(style):
                colors='linux'
            else:
                colors='lightbg'
        else:
            colors=None

        # Configure the style.
        widget = self.widget
        if style:
            widget.style_sheet = styles.sheet_from_template(style, colors)
            widget.syntax_style = style
            widget._syntax_style_changed()
            widget._style_sheet_changed()
        elif colors:
            # use a default style
            widget.set_default_style(colors=colors)
        else:
            # this is redundant for now, but allows the widget's
            # defaults to change
            widget.set_default_style()

        if self.stylesheet:
            # we got an expicit stylesheet
            if os.path.isfile(self.stylesheet):
                with open(self.stylesheet) as f:
                    sheet = f.read()
                widget.style_sheet = sheet
                widget._style_sheet_changed()
            else:
                raise IOError("Stylesheet %r not found."%self.stylesheet)

    def initialize(self, argv=None):
        super(IPythonQtConsoleApp, self).initialize(argv)
        self.init_kernel_manager()
        self.init_qt_elements()
        self.init_colors()

    def start(self):

        # draw the window
        self.window.show()

        # Start the application main loop.
        self.app.exec_()
Exemplo n.º 35
0
class IPythonQtConsoleApp(BaseIPythonApplication):
    name = 'ipython-qtconsole'
    default_config_file_name = 'ipython_config.py'

    description = """
        The IPython QtConsole.
        
        This launches a Console-style application using Qt.  It is not a full
        console, in that launched terminal subprocesses will not be able to accept
        input.
        
        The QtConsole supports various extra features beyond the Terminal IPython
        shell, such as inline plotting with matplotlib, via:
        
            ipython qtconsole --pylab=inline
        
        as well as saving your session as HTML, and printing the output.
        
    """
    examples = _examples

    classes = [
        IPKernelApp, IPythonWidget, ZMQInteractiveShell, ProfileDir, Session
    ]
    flags = Dict(flags)
    aliases = Dict(aliases)

    kernel_argv = List(Unicode)

    # create requested profiles by default, if they don't exist:
    auto_create = CBool(True)
    # connection info:
    ip = Unicode(LOCALHOST,
                 config=True,
                 help="""Set the kernel\'s IP address [default localhost].
        If the IP address is something other than localhost, then
        Consoles on other machines will be able to connect
        to the Kernel, so be careful!""")

    sshserver = Unicode(
        '',
        config=True,
        help="""The SSH server to use to connect to the kernel.""")
    sshkey = Unicode(
        '',
        config=True,
        help="""Path to the ssh key to use for logging in to the ssh server."""
    )

    hb_port = Int(0,
                  config=True,
                  help="set the heartbeat port [default: random]")
    shell_port = Int(0,
                     config=True,
                     help="set the shell (XREP) port [default: random]")
    iopub_port = Int(0,
                     config=True,
                     help="set the iopub (PUB) port [default: random]")
    stdin_port = Int(0,
                     config=True,
                     help="set the stdin (XREQ) port [default: random]")
    connection_file = Unicode(
        '',
        config=True,
        help=
        """JSON file in which to store connection info [default: kernel-<pid>.json]

        This file will contain the IP, ports, and authentication key needed to connect
        clients to this kernel. By default, this file will be created in the security-dir
        of the current profile, but can be specified by absolute path.
        """)

    def _connection_file_default(self):
        return 'kernel-%i.json' % os.getpid()

    existing = Unicode('',
                       config=True,
                       help="""Connect to an already running kernel""")

    stylesheet = Unicode('',
                         config=True,
                         help="path to a custom CSS stylesheet")

    pure = CBool(False,
                 config=True,
                 help="Use a pure Python kernel instead of an IPython kernel.")
    plain = CBool(
        False,
        config=True,
        help=
        "Use a plaintext widget instead of rich text (plain can't print/save)."
    )

    def _pure_changed(self, name, old, new):
        kind = 'plain' if self.plain else 'rich'
        self.config.ConsoleWidget.kind = kind
        if self.pure:
            self.widget_factory = FrontendWidget
        elif self.plain:
            self.widget_factory = IPythonWidget
        else:
            self.widget_factory = RichIPythonWidget

    _plain_changed = _pure_changed

    confirm_exit = CBool(
        True,
        config=True,
        help="""
        Set to display confirmation dialog on exit. You can always use 'exit' or 'quit',
        to force a direct exit without any confirmation.""",
    )

    # the factory for creating a widget
    widget_factory = Any(RichIPythonWidget)

    def parse_command_line(self, argv=None):
        super(IPythonQtConsoleApp, self).parse_command_line(argv)
        if argv is None:
            argv = sys.argv[1:]
        self.kernel_argv = list(argv)  # copy
        # kernel should inherit default config file from frontend
        self.kernel_argv.append("--KernelApp.parent_appname='%s'" % self.name)
        # Scrub frontend-specific flags
        swallow_next = False
        was_flag = False
        # copy again, in case some aliases have the same name as a flag
        # argv = list(self.kernel_argv)
        for a in argv:
            if swallow_next:
                swallow_next = False
                # last arg was an alias, remove the next one
                # *unless* the last alias has a no-arg flag version, in which
                # case, don't swallow the next arg if it's also a flag:
                if not (was_flag and a.startswith('-')):
                    self.kernel_argv.remove(a)
                    continue
            if a.startswith('-'):
                split = a.lstrip('-').split('=')
                alias = split[0]
                if alias in qt_aliases:
                    self.kernel_argv.remove(a)
                    if len(split) == 1:
                        # alias passed with arg via space
                        swallow_next = True
                        # could have been a flag that matches an alias, e.g. `existing`
                        # in which case, we might not swallow the next arg
                        was_flag = alias in qt_flags
                elif alias in qt_flags:
                    # strip flag, but don't swallow next, as flags don't take args
                    self.kernel_argv.remove(a)

    def init_connection_file(self):
        """find the connection file, and load the info if found.
        
        The current working directory and the current profile's security
        directory will be searched for the file if it is not given by
        absolute path.
        
        When attempting to connect to an existing kernel and the `--existing`
        argument does not match an existing file, it will be interpreted as a
        fileglob, and the matching file in the current profile's security dir
        with the latest access time will be used.
        """
        if self.existing:
            try:
                cf = find_connection_file(self.existing)
            except Exception:
                self.log.critical(
                    "Could not find existing kernel connection file %s",
                    self.existing)
                self.exit(1)
            self.log.info("Connecting to existing kernel: %s" % cf)
            self.connection_file = cf
        # should load_connection_file only be used for existing?
        # as it is now, this allows reusing ports if an existing
        # file is requested
        try:
            self.load_connection_file()
        except Exception:
            self.log.error("Failed to load connection file: %r",
                           self.connection_file,
                           exc_info=True)
            self.exit(1)

    def load_connection_file(self):
        """load ip/port/hmac config from JSON connection file"""
        # this is identical to KernelApp.load_connection_file
        # perhaps it can be centralized somewhere?
        try:
            fname = filefind(self.connection_file,
                             ['.', self.profile_dir.security_dir])
        except IOError:
            self.log.debug("Connection File not found: %s",
                           self.connection_file)
            return
        self.log.debug(u"Loading connection file %s", fname)
        with open(fname) as f:
            s = f.read()
        cfg = json.loads(s)
        if self.ip == LOCALHOST and 'ip' in cfg:
            # not overridden by config or cl_args
            self.ip = cfg['ip']
        for channel in ('hb', 'shell', 'iopub', 'stdin'):
            name = channel + '_port'
            if getattr(self, name) == 0 and name in cfg:
                # not overridden by config or cl_args
                setattr(self, name, cfg[name])
        if 'key' in cfg:
            self.config.Session.key = str_to_bytes(cfg['key'])

    def init_ssh(self):
        """set up ssh tunnels, if needed."""
        if not self.sshserver and not self.sshkey:
            return

        if self.sshkey and not self.sshserver:
            # specifying just the key implies that we are connecting directly
            self.sshserver = self.ip
            self.ip = LOCALHOST

        # build connection dict for tunnels:
        info = dict(ip=self.ip,
                    shell_port=self.shell_port,
                    iopub_port=self.iopub_port,
                    stdin_port=self.stdin_port,
                    hb_port=self.hb_port)

        self.log.info("Forwarding connections to %s via %s" %
                      (self.ip, self.sshserver))

        # tunnels return a new set of ports, which will be on localhost:
        self.ip = LOCALHOST
        try:
            newports = tunnel_to_kernel(info, self.sshserver, self.sshkey)
        except:
            # even catch KeyboardInterrupt
            self.log.error("Could not setup tunnels", exc_info=True)
            self.exit(1)

        self.shell_port, self.iopub_port, self.stdin_port, self.hb_port = newports

        cf = self.connection_file
        base, ext = os.path.splitext(cf)
        base = os.path.basename(base)
        self.connection_file = os.path.basename(base) + '-ssh' + ext
        self.log.critical("To connect another client via this tunnel, use:")
        self.log.critical("--existing %s" % self.connection_file)

    def _new_connection_file(self):
        return os.path.join(self.profile_dir.security_dir,
                            'kernel-%s.json' % uuid.uuid4())

    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)
        sec = self.profile_dir.security_dir
        try:
            cf = filefind(self.connection_file, ['.', sec])
        except IOError:
            # file might not exist
            if self.connection_file == os.path.basename(self.connection_file):
                # just shortname, put it in security dir
                cf = os.path.join(sec, self.connection_file)
            else:
                cf = self.connection_file

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
            ip=self.ip,
            shell_port=self.shell_port,
            iopub_port=self.iopub_port,
            stdin_port=self.stdin_port,
            hb_port=self.hb_port,
            connection_file=cf,
            config=self.config,
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        elif self.sshserver:
            # ssh, write new connection file
            self.kernel_manager.write_connection_file()
        self.kernel_manager.start_channels()

    def new_frontend_master(self):
        """ Create and return new frontend attached to new kernel, launched on localhost.
        """
        ip = self.ip if self.ip in LOCAL_IPS else LOCALHOST
        kernel_manager = QtKernelManager(
            ip=ip,
            connection_file=self._new_connection_file(),
            config=self.config,
        )
        # start the kernel
        kwargs = dict(ipython=not self.pure)
        kwargs['extra_arguments'] = self.kernel_argv
        kernel_manager.start_kernel(**kwargs)
        kernel_manager.start_channels()
        widget = self.widget_factory(config=self.config, local_kernel=True)
        widget.kernel_manager = kernel_manager
        widget._existing = False
        widget._may_close = True
        widget._confirm_exit = self.confirm_exit
        return widget

    def new_frontend_slave(self, current_widget):
        """Create and return a new frontend attached to an existing kernel.
        
        Parameters
        ----------
        current_widget : IPythonWidget
            The IPythonWidget whose kernel this frontend is to share
        """
        kernel_manager = QtKernelManager(
            connection_file=current_widget.kernel_manager.connection_file,
            config=self.config,
        )
        kernel_manager.load_connection_file()
        kernel_manager.start_channels()
        widget = self.widget_factory(config=self.config, local_kernel=False)
        widget._existing = True
        widget._may_close = False
        widget._confirm_exit = False
        widget.kernel_manager = kernel_manager
        return widget

    def init_qt_elements(self):
        # Create the widget.
        self.app = QtGui.QApplication([])

        base_path = os.path.abspath(os.path.dirname(__file__))
        icon_path = os.path.join(base_path, 'resources', 'icon',
                                 'IPythonConsole.svg')
        self.app.icon = QtGui.QIcon(icon_path)
        QtGui.QApplication.setWindowIcon(self.app.icon)

        local_kernel = (not self.existing) or self.ip in LOCAL_IPS
        self.widget = self.widget_factory(config=self.config,
                                          local_kernel=local_kernel)
        self.widget._existing = self.existing
        self.widget._may_close = not self.existing
        self.widget._confirm_exit = self.confirm_exit

        self.widget.kernel_manager = self.kernel_manager
        self.window = MainWindow(
            self.app,
            confirm_exit=self.confirm_exit,
            new_frontend_factory=self.new_frontend_master,
            slave_frontend_factory=self.new_frontend_slave,
        )
        self.window.log = self.log
        self.window.add_tab_with_frontend(self.widget)
        self.window.init_menu_bar()
        self.window.setWindowTitle('Python' if self.pure else 'IPython')

    def init_colors(self):
        """Configure the coloring of the widget"""
        # Note: This will be dramatically simplified when colors
        # are removed from the backend.

        if self.pure:
            # only IPythonWidget supports styling
            return

        # parse the colors arg down to current known labels
        try:
            colors = self.config.ZMQInteractiveShell.colors
        except AttributeError:
            colors = None
        try:
            style = self.config.IPythonWidget.syntax_style
        except AttributeError:
            style = None

        # find the value for colors:
        if colors:
            colors = colors.lower()
            if colors in ('lightbg', 'light'):
                colors = 'lightbg'
            elif colors in ('dark', 'linux'):
                colors = 'linux'
            else:
                colors = 'nocolor'
        elif style:
            if style == 'bw':
                colors = 'nocolor'
            elif styles.dark_style(style):
                colors = 'linux'
            else:
                colors = 'lightbg'
        else:
            colors = None

        # Configure the style.
        widget = self.widget
        if style:
            widget.style_sheet = styles.sheet_from_template(style, colors)
            widget.syntax_style = style
            widget._syntax_style_changed()
            widget._style_sheet_changed()
        elif colors:
            # use a default style
            widget.set_default_style(colors=colors)
        else:
            # this is redundant for now, but allows the widget's
            # defaults to change
            widget.set_default_style()

        if self.stylesheet:
            # we got an expicit stylesheet
            if os.path.isfile(self.stylesheet):
                with open(self.stylesheet) as f:
                    sheet = f.read()
                widget.style_sheet = sheet
                widget._style_sheet_changed()
            else:
                raise IOError("Stylesheet %r not found." % self.stylesheet)

    @catch_config_error
    def initialize(self, argv=None):
        super(IPythonQtConsoleApp, self).initialize(argv)
        self.init_connection_file()
        default_secure(self.config)
        self.init_ssh()
        self.init_kernel_manager()
        self.init_qt_elements()
        self.init_colors()

    def start(self):

        # draw the window
        self.window.show()

        # Start the application main loop.
        self.app.exec_()
Exemplo n.º 36
0
def main():
    """ Entry point for application.
    """
    # Parse command line arguments.
    parser = ArgumentParser()
    kgroup = parser.add_argument_group('kernel options')
    kgroup.add_argument('-e', '--existing', action='store_true',
                        help='connect to an existing kernel')
    kgroup.add_argument('--ip', type=str, default=LOCALHOST,
                        help=\
            "set the kernel\'s IP address [default localhost].\
            If the IP address is something other than localhost, then \
            Consoles on other machines will be able to connect\
            to the Kernel, so be careful!")
    kgroup.add_argument('--xreq', type=int, metavar='PORT', default=0,
                        help='set the XREQ channel port [default random]')
    kgroup.add_argument('--sub', type=int, metavar='PORT', default=0,
                        help='set the SUB channel port [default random]')
    kgroup.add_argument('--rep', type=int, metavar='PORT', default=0,
                        help='set the REP channel port [default random]')
    kgroup.add_argument('--hb', type=int, metavar='PORT', default=0,
                        help='set the heartbeat port [default random]')

    egroup = kgroup.add_mutually_exclusive_group()
    egroup.add_argument('--pure', action='store_true', help = \
                        'use a pure Python kernel instead of an IPython kernel')
    egroup.add_argument('--pylab', type=str, metavar='GUI', nargs='?', 
                       const='auto', help = \
        "Pre-load matplotlib and numpy for interactive use. If GUI is not \
         given, the GUI backend is matplotlib's, otherwise use one of: \
         ['tk', 'gtk', 'qt', 'wx', 'inline'].")

    wgroup = parser.add_argument_group('widget options')
    wgroup.add_argument('--paging', type=str, default='inside',
                        choices = ['inside', 'hsplit', 'vsplit', 'none'],
                        help='set the paging style [default inside]')
    wgroup.add_argument('--rich', action='store_true',
                        help='enable rich text support')
    wgroup.add_argument('--gui-completion', action='store_true',
                        help='use a GUI widget for tab completion')
    wgroup.add_argument('--style', type=str,
                        choices = list(get_all_styles()),
                        help='specify a pygments style for by name.')
    wgroup.add_argument('--stylesheet', type=str,
                        help="path to a custom CSS stylesheet.")
    wgroup.add_argument('--colors', type=str,
                        help="Set the color scheme (LightBG,Linux,NoColor). This is guessed\
                        based on the pygments style if not set.")

    args = parser.parse_args()

    # parse the colors arg down to current known labels
    if args.colors:
        colors=args.colors.lower()
        if colors in ('lightbg', 'light'):
            colors='lightbg'
        elif colors in ('dark', 'linux'):
            colors='linux'
        else:
            colors='nocolor'
    elif args.style:
        if args.style=='bw':
            colors='nocolor'
        elif styles.dark_style(args.style):
            colors='linux'
        else:
            colors='lightbg'
    else:
        colors=None

    # Don't let Qt or ZMQ swallow KeyboardInterupts.
    import signal
    signal.signal(signal.SIGINT, signal.SIG_DFL)

    # Create a KernelManager and start a kernel.
    kernel_manager = QtKernelManager(xreq_address=(args.ip, args.xreq),
                                     sub_address=(args.ip, args.sub),
                                     rep_address=(args.ip, args.rep),
                                     hb_address=(args.ip, args.hb))
    if not args.existing:
        # if not args.ip in LOCAL_IPS+ALL_ALIAS:
        #     raise ValueError("Must bind a local ip, such as: %s"%LOCAL_IPS)

        kwargs = dict(ip=args.ip)
        if args.pure:
            kwargs['ipython']=False
        else:
            kwargs['colors']=colors
            if args.pylab:
                kwargs['pylab']=args.pylab

        kernel_manager.start_kernel(**kwargs)
    kernel_manager.start_channels()

    local_kernel = (not args.existing) or args.ip in LOCAL_IPS
    # Create the widget.
    app = QtGui.QApplication([])
    if args.pure:
        kind = 'rich' if args.rich else 'plain'
        widget = FrontendWidget(kind=kind, paging=args.paging, local_kernel=local_kernel)
    elif args.rich or args.pylab:
        widget = RichIPythonWidget(paging=args.paging, local_kernel=local_kernel)
    else:
        widget = IPythonWidget(paging=args.paging, local_kernel=local_kernel)
    widget.gui_completion = args.gui_completion
    widget.kernel_manager = kernel_manager

    # configure the style:
    if not args.pure: # only IPythonWidget supports styles
        if args.style:
            widget.syntax_style = args.style
            widget.style_sheet = styles.sheet_from_template(args.style, colors)
            widget._syntax_style_changed()
            widget._style_sheet_changed()
        elif colors:
            # use a default style
            widget.set_default_style(colors=colors)
        else:
            # this is redundant for now, but allows the widget's
            # defaults to change
            widget.set_default_style()

        if args.stylesheet:
            # we got an expicit stylesheet
            if os.path.isfile(args.stylesheet):
                with open(args.stylesheet) as f:
                    sheet = f.read()
                widget.style_sheet = sheet
                widget._style_sheet_changed()
            else:
                raise IOError("Stylesheet %r not found."%args.stylesheet)

    # Create the main window.
    window = MainWindow(app, widget, args.existing, may_close=local_kernel)
    window.setWindowTitle('Python' if args.pure else 'IPython')
    window.show()

    # Start the application main loop.
    app.exec_()
Exemplo n.º 37
0
class IPythonQtConsoleApp(BaseIPythonApplication):
    name = 'ipython-qtconsole'
    default_config_file_name='ipython_config.py'
    
    description = """
        The IPython QtConsole.
        
        This launches a Console-style application using Qt.  It is not a full
        console, in that launched terminal subprocesses will not be able to accept
        input.
        
        The QtConsole supports various extra features beyond the Terminal IPython
        shell, such as inline plotting with matplotlib, via:
        
            ipython qtconsole --pylab=inline
        
        as well as saving your session as HTML, and printing the output.
        
    """
    examples = _examples

    classes = [IPKernelApp, IPythonWidget, ZMQInteractiveShell, ProfileDir, Session]
    flags = Dict(flags)
    aliases = Dict(aliases)

    kernel_argv = List(Unicode)

    # create requested profiles by default, if they don't exist:
    auto_create = CBool(True)
    # connection info:
    ip = Unicode(LOCALHOST, config=True,
        help="""Set the kernel\'s IP address [default localhost].
        If the IP address is something other than localhost, then
        Consoles on other machines will be able to connect
        to the Kernel, so be careful!"""
    )
    hb_port = Int(0, config=True,
        help="set the heartbeat port [default: random]")
    shell_port = Int(0, config=True,
        help="set the shell (XREP) port [default: random]")
    iopub_port = Int(0, config=True,
        help="set the iopub (PUB) port [default: random]")
    stdin_port = Int(0, config=True,
        help="set the stdin (XREQ) port [default: random]")

    existing = CBool(False, config=True,
        help="Whether to connect to an already running Kernel.")

    stylesheet = Unicode('', config=True,
        help="path to a custom CSS stylesheet")

    pure = CBool(False, config=True,
        help="Use a pure Python kernel instead of an IPython kernel.")
    plain = CBool(False, config=True,
        help="Use a plaintext widget instead of rich text (plain can't print/save).")

    def _pure_changed(self, name, old, new):
        kind = 'plain' if self.plain else 'rich'
        self.config.ConsoleWidget.kind = kind
        if self.pure:
            self.widget_factory = FrontendWidget
        elif self.plain:
            self.widget_factory = IPythonWidget
        else:
            self.widget_factory = RichIPythonWidget

    _plain_changed = _pure_changed

    confirm_exit = CBool(True, config=True,
        help="""
        Set to display confirmation dialog on exit. You can always use 'exit' or 'quit',
        to force a direct exit without any confirmation.""",
    )
    
    # the factory for creating a widget
    widget_factory = Any(RichIPythonWidget)

    def parse_command_line(self, argv=None):
        super(IPythonQtConsoleApp, self).parse_command_line(argv)
        if argv is None:
            argv = sys.argv[1:]

        self.kernel_argv = list(argv) # copy
        # kernel should inherit default config file from frontend
        self.kernel_argv.append("--KernelApp.parent_appname='%s'"%self.name)
        # scrub frontend-specific flags
        for a in argv:
            
            if a.startswith('-'):
                key = a.lstrip('-').split('=')[0]
                if key in qt_flags:
                    self.kernel_argv.remove(a)

    def init_kernel_manager(self):
        # Don't let Qt or ZMQ swallow KeyboardInterupts.
        signal.signal(signal.SIGINT, signal.SIG_DFL)

        # Create a KernelManager and start a kernel.
        self.kernel_manager = QtKernelManager(
                                shell_address=(self.ip, self.shell_port),
                                sub_address=(self.ip, self.iopub_port),
                                stdin_address=(self.ip, self.stdin_port),
                                hb_address=(self.ip, self.hb_port),
                                config=self.config
        )
        # start the kernel
        if not self.existing:
            kwargs = dict(ip=self.ip, ipython=not self.pure)
            kwargs['extra_arguments'] = self.kernel_argv
            self.kernel_manager.start_kernel(**kwargs)
        self.kernel_manager.start_channels()


    def init_qt_elements(self):
        # Create the widget.
        self.app = QtGui.QApplication([])
        local_kernel = (not self.existing) or self.ip in LOCAL_IPS
        self.widget = self.widget_factory(config=self.config,
                                        local_kernel=local_kernel)
        self.widget.kernel_manager = self.kernel_manager
        self.window = MainWindow(self.app, self.widget, self.existing,
                                may_close=local_kernel,
                                confirm_exit=self.confirm_exit)
        self.window.setWindowTitle('Python' if self.pure else 'IPython')

    def init_colors(self):
        """Configure the coloring of the widget"""
        # Note: This will be dramatically simplified when colors
        # are removed from the backend.

        if self.pure:
            # only IPythonWidget supports styling
            return

        # parse the colors arg down to current known labels
        try:
            colors = self.config.ZMQInteractiveShell.colors
        except AttributeError:
            colors = None
        try:
            style = self.config.IPythonWidget.colors
        except AttributeError:
            style = None

        # find the value for colors:
        if colors:
            colors=colors.lower()
            if colors in ('lightbg', 'light'):
                colors='lightbg'
            elif colors in ('dark', 'linux'):
                colors='linux'
            else:
                colors='nocolor'
        elif style:
            if style=='bw':
                colors='nocolor'
            elif styles.dark_style(style):
                colors='linux'
            else:
                colors='lightbg'
        else:
            colors=None

        # Configure the style.
        widget = self.widget
        if style:
            widget.style_sheet = styles.sheet_from_template(style, colors)
            widget.syntax_style = style
            widget._syntax_style_changed()
            widget._style_sheet_changed()
        elif colors:
            # use a default style
            widget.set_default_style(colors=colors)
        else:
            # this is redundant for now, but allows the widget's
            # defaults to change
            widget.set_default_style()

        if self.stylesheet:
            # we got an expicit stylesheet
            if os.path.isfile(self.stylesheet):
                with open(self.stylesheet) as f:
                    sheet = f.read()
                widget.style_sheet = sheet
                widget._style_sheet_changed()
            else:
                raise IOError("Stylesheet %r not found."%self.stylesheet)

    def initialize(self, argv=None):
        super(IPythonQtConsoleApp, self).initialize(argv)
        self.init_kernel_manager()
        self.init_qt_elements()
        self.init_colors()

    def start(self):

        # draw the window
        self.window.show()

        # Start the application main loop.
        self.app.exec_()
Exemplo n.º 38
0
def main():
    """ Entry point for application.
    """
    # Parse command line arguments.
    parser = ArgumentParser()
    kgroup = parser.add_argument_group('kernel options')
    kgroup.add_argument('-e', '--existing', action='store_true',
                        help='connect to an existing kernel')
    kgroup.add_argument('--ip', type=str, default=LOCALHOST,
                        help='set the kernel\'s IP address [default localhost]')
    kgroup.add_argument('--xreq', type=int, metavar='PORT', default=0,
                        help='set the XREQ channel port [default random]')
    kgroup.add_argument('--sub', type=int, metavar='PORT', default=0,
                        help='set the SUB channel port [default random]')
    kgroup.add_argument('--rep', type=int, metavar='PORT', default=0,
                        help='set the REP channel port [default random]')
    kgroup.add_argument('--hb', type=int, metavar='PORT', default=0,
                        help='set the heartbeat port [default: random]')

    egroup = kgroup.add_mutually_exclusive_group()
    egroup.add_argument('--pure', action='store_true', help = \
                        'use a pure Python kernel instead of an IPython kernel')
    egroup.add_argument('--pylab', type=str, metavar='GUI', nargs='?', 
                       const='auto', help = \
        "Pre-load matplotlib and numpy for interactive use. If GUI is not \
         given, the GUI backend is matplotlib's, otherwise use one of: \
         ['tk', 'gtk', 'qt', 'wx', 'inline'].")

    wgroup = parser.add_argument_group('widget options')
    wgroup.add_argument('--paging', type=str, default='inside',
                        choices = ['inside', 'hsplit', 'vsplit', 'none'],
                        help='set the paging style [default inside]')
    wgroup.add_argument('--rich', action='store_true',
                        help='enable rich text support')
    wgroup.add_argument('--gui-completion', action='store_true',
                        help='use a GUI widget for tab completion')

    args = parser.parse_args()

    # Don't let Qt or ZMQ swallow KeyboardInterupts.
    import signal
    signal.signal(signal.SIGINT, signal.SIG_DFL)

    # Create a KernelManager and start a kernel.
    kernel_manager = QtKernelManager(xreq_address=(args.ip, args.xreq),
                                     sub_address=(args.ip, args.sub),
                                     rep_address=(args.ip, args.rep),
                                     hb_address=(args.ip, args.hb))
    if args.ip == LOCALHOST and not args.existing:
        if args.pure:
            kernel_manager.start_kernel(ipython=False)
        elif args.pylab:
            kernel_manager.start_kernel(pylab=args.pylab)
        else:
            kernel_manager.start_kernel()
    kernel_manager.start_channels()

    # Create the widget.
    app = QtGui.QApplication([])
    if args.pure:
        kind = 'rich' if args.rich else 'plain'
        widget = FrontendWidget(kind=kind, paging=args.paging)
    elif args.rich or args.pylab:
        widget = RichIPythonWidget(paging=args.paging)
    else:
        widget = IPythonWidget(paging=args.paging)
    widget.gui_completion = args.gui_completion
    widget.kernel_manager = kernel_manager

    # Create the main window.
    window = MainWindow(app, widget, args.existing)
    window.setWindowTitle('Python' if args.pure else 'IPython')
    window.show()

    # Start the application main loop.
    app.exec_()