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
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()
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
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
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
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
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
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)
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()
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
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()
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
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 setup(self): self.km = BlockingKernelManager() self.km.start_kernel(stderr=open(os.devnull, 'w')) self.km.start_channels() self.shell = self.km.shell_channel
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:
def km_from_cfg(cfg): km = BlockingKernelManager(**cfg) km.shell_channel.start() km.shell_channel.session.key = km.key return km
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
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
# 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
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
def km_from_cfg(cfg): km = BlockingKernelManager(**cfg) km.start_channels() km.shell_channel.session.key = km.key km.hb_channel.unpause() return km