예제 #1
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    def get_kernel(self):
        security_dir = expanduser('~/.ipython/profile_default/security')
        files = path(security_dir).files()
        files.sort(key=lambda f: f.mtime,
                   reverse=True)  # find last opened ipython session

        def check_port(ip, port):
            s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
            try:
                s.connect((ip, int(port)))
                s.shutdown(2)
                return True
            except:
                print 'failed to connect to %s:%s' % (ip, port)
                return False

        for file in files:
            cfg = json.loads(open(file).read())
            ip, port = cfg['ip'], cfg['shell_port']
            if not check_port(ip, port): continue
            kernel = BlockingKernelManager(**cfg)
            kernel.start_channels()
            kernel.shell_channel.session.key = kernel.key
            kernel.hb_channel.unpause()
            return kernel
        print "Did not find a running IPython console."
        print "Disabling IPython support..."
        self.disabled = True
        #raise Exception('Did not find a running IPython console.')
        return None
예제 #2
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def km_from_string(s = PMX_IPYTHON_CONNECTION):
    """create kernel manager from IPKernelApp string
    such as '--shell=47378 --iopub=39859 --stdin=36778 --hb=52668' for IPython 0.11
    or just 'kernel-12345.json' for IPython 0.12
    """
    from os.path import join as pjoin
    from IPython.zmq.blockingkernelmanager import BlockingKernelManager
    from IPython.config.loader import KeyValueConfigLoader
    from IPython.zmq.kernelapp import kernel_aliases
    
    s = s.replace('--existing', '')
    if 'connection_file' in BlockingKernelManager.class_trait_names():
        from IPython.lib.kernel import find_connection_file
        # 0.12 uses files instead of a collection of ports
        # include default IPython search path
        # filefind also allows for absolute paths, in which case the search
        # is ignored
        try:
            # XXX: the following approach will be brittle, depending on what
            # connection strings will end up looking like in the future, and
            # whether or not they are allowed to have spaces. I'll have to sync
            # up with the IPython team to address these issues -pi
            if '--profile' in s:
                k,p = s.split('--profile')
                k = k.lstrip().rstrip() # kernel part of the string
                p = p.lstrip().rstrip() # profile part of the string
                fullpath = find_connection_file(k,p)
            else:
                fullpath = find_connection_file(s.lstrip().rstrip())
        except IOError,e:
            print ":IPython " + s + " failed", "Info"
            print "^-- failed '" + s + "' not found", "Error"
            return
        km = BlockingKernelManager(connection_file = fullpath)
        km.load_connection_file()
예제 #3
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def _launch_kernel(cmd):
    """start an embedded kernel in a subprocess, and wait for it to be ready
    
    Returns
    -------
    kernel, kernel_manager: Popen instance and connected KernelManager
    """
    kernel = Popen([sys.executable, '-c', cmd], stdout=PIPE, stderr=PIPE, env=env)
    connection_file = os.path.join(IPYTHONDIR,
                                    'profile_default',
                                    'security',
                                    'kernel-%i.json' % kernel.pid
    )
    # wait for connection file to exist, timeout after 5s
    tic = time.time()
    while not os.path.exists(connection_file) and kernel.poll() is None and time.time() < tic + 5:
        time.sleep(0.1)
    
    if not os.path.exists(connection_file):
        if kernel.poll() is None:
            kernel.terminate()
        raise IOError("Connection file %r never arrived" % connection_file)
    
    if kernel.poll() is not None:
        raise IOError("Kernel failed to start")
    
    km = BlockingKernelManager(connection_file=connection_file)
    km.load_connection_file()
    km.start_channels()
    
    return kernel, km
예제 #4
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    def get_kernel(self):
        security_dir = expanduser('~/.ipython/profile_default/security')
        files = path(security_dir).files()
        files.sort(key=lambda f: f.mtime, reverse=True) # find last opened ipython session
        def check_port(ip, port):
            s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
            try:
                s.connect( (ip, int(port)) )
                s.shutdown(2)
                return True
            except:
                print 'failed to connect to %s:%s' % (ip, port)
                return False

        for file in files:
            cfg = json.loads(open(file).read())
            ip, port = cfg['ip'], cfg['shell_port']
            if not check_port(ip, port): continue
            kernel = BlockingKernelManager(**cfg)
            kernel.start_channels()
            kernel.shell_channel.session.key = kernel.key
            kernel.hb_channel.unpause()
            return kernel
        print "Did not find a running IPython console."
        print "Disabling IPython support..."
        self.disabled = True
        #raise Exception('Did not find a running IPython console.')
        return None
예제 #5
0
파일: cli.py 프로젝트: azat-archive/kate
    def __init__(self, *args, **kwargs):
        connection_file = find_connection_file(kwargs.pop("connection_file"))

        km = BlockingKernelManager(connection_file=connection_file)

        km.load_connection_file()
        heartbeat = True
        km.start_channels(hb=heartbeat)
        atexit.register(km.cleanup_connection_file)
        super(IPythonConsoleShell, self).__init__(kernel_manager = km)
        self.km = km
예제 #6
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파일: snippet.py 프로젝트: szabo92/gistable
def execute_notebook(nb):
    km = BlockingKernelManager()
    km.start_kernel(extra_arguments=['--pylab=inline'], stderr=open(os.devnull, 'w'))
    km.start_channels()
    # run %pylab inline, because some notebooks assume this
    # even though they shouldn't
    km.shell_channel.execute("pass")
    km.shell_channel.get_msg()
    while True:
        try:
            km.sub_channel.get_msg(timeout=1)
        except Empty:
            break
    
    successes = 0
    failures = 0
    errors = 0
    prompt_number = 1
    for ws in nb.worksheets:
        for cell in ws.cells:
            cell.prompt_number = prompt_number
            if cell.cell_type != 'code':
                continue
            try:
                outs = run_cell(km, cell)
            except Exception as e:
                print "failed to run cell:", repr(e)
                print cell.input
                errors += 1
                continue
            
            cell.outputs = outs
            prompt_number += 1
    km.shutdown_kernel()
    del km
예제 #7
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def run_notebook(nb):
    km = BlockingKernelManager()
    km.start_kernel(stderr=open(os.devnull, 'w'))
    km.start_channels()
    shell = km.shell_channel
    # simple ping:
    shell.execute("pass")
    shell.get_msg()

    cells = 0
    failures = 0
    for ws in nb.worksheets:
        for cell in ws.cells:
            if cell.cell_type != 'code':
                continue
            shell.execute(cell.input)
            # wait for finish, maximum 20s
            reply = shell.get_msg(timeout=20)['content']
            if reply['status'] == 'error':
                failures += 1
                print "\nFAILURE:"
                print cell.input
                print '-----'
                print "raised:"
                print '\n'.join(reply['traceback'])
            cells += 1
            sys.stdout.write('.')

    print
    print "ran notebook %s" % nb.metadata.name
    print "    ran %3i cells" % cells
    if failures:
        print "    %3i cells raised exceptions" % failures
    km.shutdown_kernel()
    del km
예제 #8
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def run_notebook(nb):
    km = BlockingKernelManager()
    km.start_kernel(stderr=open(os.devnull, 'w'))
    km.start_channels()
    shell = km.shell_channel
    # simple ping:
    shell.execute("pass")
    shell.get_msg()
    
    cells = 0
    failures = 0
    for ws in nb.worksheets:
        for cell in ws.cells:
            if cell.cell_type != 'code':
                continue
            shell.execute(cell.input)
            # wait for finish, maximum 20s
            reply = shell.get_msg(timeout=20)['content']
            if reply['status'] == 'error':
                failures += 1
                print "\nFAILURE:"
                print cell.input
                print '-----'
                print "raised:"
                print '\n'.join(reply['traceback'])
            cells += 1
            sys.stdout.write('.')

    print
    print "ran notebook %s" % nb.metadata.name
    print "    ran %3i cells" % cells
    if failures:
        print "    %3i cells raised exceptions" % failures
    km.shutdown_kernel()
    del km
예제 #9
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class IPythonConnection(object):
    """ connects to a running IPython Kernel
    and can execute code there

    example usage:

        1. start the IPython Kernel by typing::

            ipython kernel

            [IPKernelApp] To connect another client to this kernel, use:
            [IPKernelApp] --existing kernel-4933.json

        or even more useful to see the output::

            ipython qtconsol

            [IPKernelApp] To connect another client to this kernel, use:
            [IPKernelApp] --existing kernel-4933.json

        in a shell which will start the IPython Kernel and gives you
        information on how to connect to it, you will need that immedeately.

        2. create a IPythonConnection with the value from before::

            ipc = IPythonConnection(4933)


        3. now you can execute code like::

            ipc.run_cell('print("Hello World")')

    """

    def __init__(self,connection):
        self.cf = find_connection_file(connection)
        self.km = BlockingKernelManager(connection_file=self.cf)
        self.km.load_connection_file()
        self.km.start_channels()

    def run_cell(self,code):
        #self.shell = self.km.shell_channel
        self.shell.execute(code)
예제 #10
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def new_kernel():
    """start a kernel in a subprocess, and wait for it to be ready
    
    Returns
    -------
    kernel_manager: connected KernelManager instance
    """
    KM = BlockingKernelManager()

    KM.start_kernel(stdout=PIPE, stderr=PIPE)
    KM.start_channels()

    # wait for kernel to be ready
    KM.shell_channel.execute("import sys")
    KM.shell_channel.get_msg(block=True, timeout=5)
    flush_channels(KM)
    try:
        yield KM
    finally:
        KM.stop_channels()
        KM.shutdown_kernel()
예제 #11
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파일: test_kernel.py 프로젝트: 3kwa/ipython
def new_kernel():
    """start a kernel in a subprocess, and wait for it to be ready
    
    Returns
    -------
    kernel_manager: connected KernelManager instance
    """
    KM = BlockingKernelManager()

    KM.start_kernel(stdout=PIPE, stderr=PIPE)
    KM.start_channels()
    
    # wait for kernel to be ready
    KM.shell_channel.execute("import sys")
    KM.shell_channel.get_msg(block=True, timeout=5)
    flush_channels(KM)
    try:
        yield KM
    finally:
        KM.stop_channels()
        KM.shutdown_kernel()
예제 #12
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    def __init__(self, *args, **kwargs):
        connection_file = find_connection_file(kwargs.pop("connection_file"))

        km = BlockingKernelManager(connection_file=connection_file)

        km.load_connection_file()
        heartbeat = True
        km.start_channels(hb=heartbeat)
        atexit.register(km.cleanup_connection_file)
        super(IPythonConsoleShell, self).__init__(kernel_manager=km)
        self.km = km
예제 #13
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def test_notebook(nb):
    km = BlockingKernelManager()
    km.start_kernel(extra_arguments=['--pylab=inline'], stderr=open(os.devnull, 'w'))
    km.start_channels()
    # run %pylab inline, because some notebooks assume this
    # even though they shouldn't
    km.shell_channel.execute("pass")
    km.shell_channel.get_msg()
    while True:
        try:
            km.sub_channel.get_msg(timeout=1)
        except Empty:
            break
    
    successes = 0
    failures = 0
    errors = 0
    for ws in nb.worksheets:
        for cell in ws.cells:
            if cell.cell_type != 'code':
                continue
            try:
                outs = run_cell(km, cell)
            except Exception as e:
                print "failed to run cell:", repr(e)
                print cell.input
                errors += 1
                continue
            
            failed = False
            for out, ref in zip(outs, cell.outputs):
                if not compare_outputs(out, ref):
                    failed = True
            if failed:
                failures += 1
            else:
                successes += 1
            sys.stdout.write('.')

    print
    print "tested notebook %s" % nb.metadata.name
    print "    %3i cells successfully replicated" % successes
    if failures:
        print "    %3i cells mismatched output" % failures
    if errors:
        print "    %3i cells failed to complete" % errors
    km.shutdown_kernel()
    del km
def setup_kernel(cmd):
    """start an embedded kernel in a subprocess, and wait for it to be ready
    
    Returns
    -------
    kernel_manager: connected KernelManager instance
    """
    kernel = Popen([sys.executable, '-c', cmd], stdout=PIPE, stderr=PIPE, env=env)
    connection_file = os.path.join(IPYTHONDIR,
                                    'profile_default',
                                    'security',
                                    'kernel-%i.json' % kernel.pid
    )
    # wait for connection file to exist, timeout after 5s
    tic = time.time()
    while not os.path.exists(connection_file) and kernel.poll() is None and time.time() < tic + 10:
        time.sleep(0.1)
    
    if kernel.poll() is not None:
        o,e = kernel.communicate()
        e = py3compat.cast_unicode(e)
        raise IOError("Kernel failed to start:\n%s" % e)
    
    if not os.path.exists(connection_file):
        if kernel.poll() is None:
            kernel.terminate()
        raise IOError("Connection file %r never arrived" % connection_file)
    
    km = BlockingKernelManager(connection_file=connection_file)
    km.load_connection_file()
    km.start_channels()
    
    try:
        yield km
    finally:
        km.stop_channels()
        kernel.terminate()
예제 #15
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파일: conftest.py 프로젝트: B-Rich/zasim
class IPyNbFile(pytest.File):
    def collect(self):
        with self.fspath.open() as f:
            self.nb = reads(f.read(), 'json')

            cell_num = 0

            for ws in self.nb.worksheets:
                for cell in ws.cells:
                    if cell.cell_type == "code":
                        yield IPyNbCell(self.name, self, cell_num, cell)
                        cell_num += 1

    def setup(self):
        self.km = BlockingKernelManager()
        self.km.start_kernel(stderr=open(os.devnull, 'w'))
        self.km.start_channels()
        self.shell = self.km.shell_channel

    def teardown(self):
        self.km.shutdown_kernel()
        del self.shell
        del self.km
예제 #16
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 def __init__(self,connection):
     self.cf = find_connection_file(connection)
     self.km = BlockingKernelManager(connection_file=self.cf)
     self.km.load_connection_file()
     self.km.start_channels()
예제 #17
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파일: conftest.py 프로젝트: B-Rich/zasim
 def setup(self):
     self.km = BlockingKernelManager()
     self.km.start_kernel(stderr=open(os.devnull, 'w'))
     self.km.start_channels()
     self.shell = self.km.shell_channel
예제 #18
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                fullpath = find_connection_file(s.lstrip().rstrip())
        except IOError, e:
            echo(":IPython " + s + " failed", "Info")
            echo("^-- failed '" + s + "' not found", "Error")
            return
        km = BlockingKernelManager(connection_file=fullpath)
        km.load_connection_file()
    else:
        if s == '':
            echo(":IPython 0.11 requires the full connection string")
            return
        loader = KeyValueConfigLoader(s.split(), aliases=kernel_aliases)
        cfg = loader.load_config()['KernelApp']
        try:
            km = BlockingKernelManager(shell_address=(ip, cfg['shell_port']),
                                       sub_address=(ip, cfg['iopub_port']),
                                       stdin_address=(ip, cfg['stdin_port']),
                                       hb_address=(ip, cfg['hb_port']))
        except KeyError, e:
            echo(":IPython " + s + " failed", "Info")
            echo(
                "^-- failed --" + e.message.replace('_port', '') +
                " not specified", "Error")
            return
    km.start_channels()
    send = km.shell_channel.execute
    return km


def get_child_msg(msg_id):
    # XXX: message handling should be split into its own process in the future
    while True:
예제 #19
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def km_from_cfg(cfg):
    km = BlockingKernelManager(**cfg)
    km.shell_channel.start()
    km.shell_channel.session.key = km.key
    return km
예제 #20
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파일: nbrun.py 프로젝트: arokem/nbutils
def test_notebook(nb, halt_on_error=True, km=None):
    our_kernel = km is None
    if our_kernel:
        km = BlockingKernelManager()
        km.start_kernel(extra_arguments=['--pylab=inline'], stderr=open(os.devnull, 'w'))
        km.start_channels()
    print km.connection_file
    # run %pylab inline, because some notebooks assume this
    # even though they shouldn't
    km.shell_channel.execute("pass")
    km.shell_channel.get_msg()
    km.restart_kernel()
    km.shell_channel.get_msg()
    while True:
        try:
            km.sub_channel.get_msg(timeout=1)
        except Empty:
            break
    
    successes = 0
    failures = 0
    errors = 0
    halted = False
    for ws in nb.worksheets:
        for cell in ws.cells:
            if cell.cell_type != 'code':
                continue
            try:
                outs, exec_count = run_cell(km, cell)
            except Exception as e:
                log.critical( "failed to run cell:"+ repr(e))
                log.critical("tested notebook %s" % nb.metadata.name)
                print cell.input
                errors += 1
                continue
            c = '.'
            for out in outs:
                if out['output_type'] == 'pyerr':
                    c = 'E'
            if log.getEffectiveLevel() < logging.FATAL:
                sys.stderr.write(c)
            
            failed = False
            #for out, ref in zip(outs, cell.outputs):
            #    if not compare_outputs(out, ref):
            #        failed = True
            if failed:
                failures += 1
            else:
                successes += 1
            cell.outputs = outs
            cell.prompt_number = exec_count
            if c == 'E' and halt_on_error:
                log.info("halting on error")
                halted = True
                # XXX: this next part is specific to nbexplode
                save_intermediate(km, ws, cell, nb.metadata.name)
                break;

    if log.getEffectiveLevel() <= logging.WARNING:
        sys.stderr.write('\n')
    log.info("tested notebook %s" % nb.metadata.name)
    log.info("    %3i cells successfully replicated" % successes)
    if failures:
        log.info("    %3i cells mismatched output" % failures)
    if errors:
        log.info("    %3i cells failed to complete" % errors)
    if our_kernel:
        km.shutdown_kernel()
        del km
    return nb, halted
예제 #21
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파일: nbrun.py 프로젝트: arokem/nbutils
    parser.add_argument('-s', '--saveonerror', '--save-on-error',
            default=False, action='store_true',
            help="Try to run all cells (by default will halt on first error)")
    parser.add_argument('-A', '--allnotebooks', '--all-notebooks',
            default=False, action='store_true',
            help="Try to run all notebook (by default will halt on first error)")

    args = parser.parse_args()

    if args.verbose:
        log.setLevel(logging.INFO)
    if args.quiet:
        log.setLevel(logging.CRITICAL)


    km = BlockingKernelManager()
    km.start_kernel(extra_arguments=['--pylab=inline'], stderr=open(os.devnull, 'w'))
    km.start_channels()


    if args.saveonerror:
        # XXX: hack - just dange an attribute we can check against
        km.saveonerror = True

    halt_on_error = not args.all
    halt_notebooks  = not args.allnotebooks
    for ipynb in args.inputs:
        log.info('Running '+ ipynb)
        with open(ipynb) as f:
            nb = reads(f.read(), 'json')
        # here, before running the notebook, it'd be nice if we verified it's
예제 #22
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# startup channel
pidfile = '/tmp/ipython.pid'
with open(pidfile, 'r') as f:
    cf = f.readline()
# remove trailing carriage-return
cf = cf[:-1]
try:
    # get real pid of ipython kernel
    cf = str(int(cf) + 1)
    cf = find_connection_file(cf)
except IOError:
    cf = str(int(cf) + 1)
    cf = find_connection_file(cf)
km = BlockingKernelManager()
km.connection_file = cf
km.load_connection_file()
km.start_channels()

def run_code(code):
    # execution is immediate and async, returning a UUID
    msg_id = km.shell_channel.execute(code)
    # get_meg can block for a reply
    reply = km.shell_channel.get_msg()

    if reply['content']['status'] == 'error':
        for line in reply['content']['traceback']:
            print line

# ZMQ server
예제 #23
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        except IOError,e:
            print ":IPython " + s + " failed", "Info"
            print "^-- failed '" + s + "' not found", "Error"
            return
        km = BlockingKernelManager(connection_file = fullpath)
        km.load_connection_file()
    else:
        if s == '':
            print ":IPython 0.11 requires the full connection string"
            return
        loader = KeyValueConfigLoader(s.split(), aliases=kernel_aliases)
        cfg = loader.load_config()['KernelApp']
        try:
            km = BlockingKernelManager(
                shell_address=(ip, cfg['shell_port']),
                sub_address=(ip, cfg['iopub_port']),
                stdin_address=(ip, cfg['stdin_port']),
                hb_address=(ip, cfg['hb_port']))
        except KeyError,e:
            print ":IPython " +s + " failed", "Info"
            print "^-- failed --"+e.message.replace('_port','')+" not specified", "Error"
            return
    km.start_channels()
    return km

kernelManager = km_from_string()

def get_child_msg(msg_id):
    # XXX: message handling should be split into its own process in the future
    while True:
        # get_msg will raise with Empty exception if no messages arrive in 1 second
예제 #24
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def km_from_cfg(cfg):
    km = BlockingKernelManager(**cfg)
    km.start_channels()
    km.shell_channel.session.key = km.key
    km.hb_channel.unpause()
    return km