Exemple #1
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def start_kernel():
    """
    Start Pytuga Jupyter kernel.
    """

    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=PytugaKernel)
Exemple #2
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def main():
    """launch a ROOT c++ with CutLang kernel"""
    try:
        from ipykernel.kernelapp import IPKernelApp
    except ImportError:
        from IPython.kernel.zmq.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=CutLangKernel)
Exemple #3
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def main():
    """launch a root kernel"""
    try:
        from ipykernel.kernelapp import IPKernelApp
    except ImportError:
        from IPython.kernel.zmq.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=ROOTKernel)
Exemple #4
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def main():
    """launch a root kernel"""
    try:
        from ipykernel.kernelapp import IPKernelApp
    except ImportError:
        from IPython.kernel.zmq.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=ROOTKernel)
Exemple #5
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def main():
    kwargs = sys.argv
    for kwarg in kwargs[:]:
        if kwarg.startswith('--std='):
            # TODO: Handle this properly. Currently this is hard-coded in
            # the kernel.
            assert kwarg == '--std=f2008'
            kwargs.remove(kwarg)
    IPKernelApp.launch_instance(kernel_class=FortranKernel)
Exemple #6
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def start_kernel(transpyler):
    """
    Start Jupyter kernel.
    """

    from ipykernel.kernelapp import IPKernelApp

    kernel_class = with_transpyler_attr(TranspylerKernel, transpyler)
    IPKernelApp.launch_instance(kernel_class=kernel_class)
Exemple #7
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class PySparkKernel(SparkKernelBase):
    def __init__(self, **kwargs):
        implementation = 'PySpark'
        implementation_version = '1.0'
        language = LANG_PYTHON
        language_version = '0.1'
        language_info = {
            'name': 'pyspark',
            'mimetype': 'text/x-python',
            'codemirror_mode': {
                'name': 'python',
                'version': 3
            },
            'file_extension': '.py',
            'pygments_lexer': 'python3'
        }

        session_language = LANG_PYTHON

        super(PySparkKernel,
              self).__init__(implementation, implementation_version, language,
                             language_version, language_info, session_language,
                             **kwargs)


if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=PySparkKernel)
Exemple #8
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from kernel import JavaKernel

if __name__ == '__main__':
    try:
        from ipykernel.kernelapp import IPKernelApp
    except:
        from IPython.kernel.zmq.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=JavaKernel)
Exemple #9
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from ipykernel.kernelapp import IPKernelApp
from . import DyalogKernel

IPKernelApp.launch_instance(kernel_class=DyalogKernel)
Exemple #10
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from ipykernel.kernelapp import IPKernelApp
from .kernel import CpsamdKernel

IPKernelApp.launch_instance(kernel_class=CpsamdKernel)
Exemple #11
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                })
                return {
                    "status": "error",
                    "execution_count": self.execution_count,
                    "traceback": [],
                    "ename": "",
                    "evalue": str(e)
                }

            if not silent:
                latex_str = latex_numeric.latex_numeric_str(num_result)
                self.send_response(
                    self.iopub_socket, "display_data", {
                        "data": {
                            "text/latex": "${}$".format(latex_str),
                            "text/plain": latex_str
                        }
                    })

        return {
            "status": "ok",
            "execution_count": self.execution_count,
            "payload": [],
            "user_expressions": []
        }


if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=CaspyKernel)
Exemple #12
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def main():
    """Launch the kernel app."""
    IPKernelApp.launch_instance(kernel_class=CoconutKernel)
Exemple #13
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        backend = settings["backend"]
        width, height = settings["size"]
        resolution = settings["resolution"]
        for k, v in {
                "defaultfigurevisible": backends[backend],
                "defaultfigurepaperpositionmode": "manual",
                "defaultfigurepaperposition":
                    matlab.double([0, 0, width / resolution, height / resolution]),
                "defaultfigurepaperunits": "inches"}.items():
            self._matlab.set(0., k, v, nargout=0)

    def repr(self, obj):
        return obj

    def restart_kernel(self):
        self._matlab.exit()
        self._matlab = matlab.engine.start_matlab()
        self._first = True

    def do_shutdown(self, restart):
        self._matlab.exit()
        return super(MatlabKernel, self).do_shutdown(restart)


if __name__ == '__main__':
    try:
        from ipykernel.kernelapp import IPKernelApp
    except ImportError:
        from IPython.kernel.zmq.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=MatlabKernel)
Exemple #14
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#
# Copyright SAS Institute
#
#  Licensed under the Apache License, Version 2.0 (the License);
#  you may not use this file except in compliance with the License.
#  You may obtain a copy of the License at
#
#      http://www.apache.org/licenses/LICENSE-2.0
#
#  Unless required by applicable law or agreed to in writing, software
#  distributed under the License is distributed on an "AS IS" BASIS,
#  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
#  See the License for the specific language governing permissions and
#  limitations under the License.
#


from ipykernel.kernelapp import IPKernelApp
from .kernel import SASKernel
IPKernelApp.launch_instance(kernel_class=SASKernel)
Exemple #15
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from ghidra_jython_kernel import GhidraJythonKernel

if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=GhidraJythonKernel)
Exemple #16
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from ipykernel.kernelapp import IPKernelApp
from .kernel import KdbQKernel
IPKernelApp.launch_instance(kernel_class=KdbQKernel)
Exemple #17
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from ipykernel.kernelapp import IPKernelApp
from .kernel import polymakeKernel
IPKernelApp.launch_instance(kernel_class=polymakeKernel)
Exemple #18
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        except:
            self._child.kill(signal.SIGKILL)
        return {'status':'ok', 'restart':restart}
    def jyrepl(self,code,timeout=None):
        out=""
        #this if is needed for printing output if command entered is "variable" or fucntions like abc(var) and for code completion
#        if (len(re.split(r"\=",code.strip()))==1) and (len(re.split(r"[\ ]",code.strip()))==1):
#            code='eval('+repr(code.strip())+')'
#            self._child.sendline(code)
#            now_prompt=self._child.expect_exact([u">>> ",u"... "])
#            if len(self._child.before.splitlines())>1:    out+='\n'.join(self._child.before.splitlines()[1:])+'\n'
#	    now_prompt=self._child.expect_exact([u">>> ",u"... "])
#        else:
#            code='exec('+repr(code)+')'
#            for line in code.splitlines():
#                self._child.sendline(line)
#                now_prompt=self._child.expect_exact([u">>> ",u"... "])
#                if len(self._child.before.splitlines())>1:    out+='\n'.join(self._child.before.splitlines()[1:])+'\n'
#                now_prompt=self._child.expect_exact([u">>> ",u"... "])
        code='exec('+repr(code)+')'
        for line in code.splitlines():
            self._child.sendline(line)
            now_prompt=self._child.expect_exact([u">>> ",u"... "])
            if len(self._child.before.splitlines())>1:    out+='\n'.join(self._child.before.splitlines()[1:])+'\n'
            now_prompt=self._child.expect_exact([u">>> ",u"... "])
        return out

if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=JythonKernel)
Exemple #19
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from ipykernel.kernelapp import IPKernelApp
from .kernel import RaxKernel
IPKernelApp.launch_instance(kernel_class=RaxKernel)
Exemple #20
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			self.send_response(self.iopub_socket, 'stream', stream_content)

		if interrupted:
			return {'status': 'abort', 'execution_count': self.execution_count}

		return {'status': 'ok', 'execution_count': self.execution_count, 'payload': [], 'user_expressions': {}}

	def do_execute_command(self, cmd, silent):
		interrupted = False
		if cmd.startswith('%'):
			args = shlex.split(cmd)
			cmd = args.pop(0)[1:]
			if hasattr(self, '_cmd_' + cmd):
				return getattr(self, '_cmd_' + cmd)(args, silent), interrupted

		output = ''
		try:
			output = self.msf_wrapper.run_command(cmd, timeout=self.timeout)
		except KeyboardInterrupt:
			self.msf_wrapper.child.sendintr()
			interrupted = True
			self.msf_wrapper._expect_prompt()
			output = self.msf_wrapper.child.before
		except pexpect.EOF:
			output = self.msf_wrapper.child.before + 'Restarting Metasploit'
			self._start_msfconsole()
		return output, interrupted

if __name__ == '__main__':
	IPKernelApp.launch_instance(kernel_class=MetasploitKernel)
Exemple #21
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from ipykernel.kernelapp import IPKernelApp
from . import PeroxidePexpectKernel

IPKernelApp.launch_instance(kernel_class=PeroxidePexpectKernel)
Exemple #22
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""" Launch MPKernelStmhal """
try:
    from ipykernel.kernelapp import IPKernelApp
except ImportError:
    from IPython.kernel.zmq.kernelapp import IPKernelApp

from .stmhal import MPKernelStmhal

# Launch the pyboard port
IPKernelApp.launch_instance(kernel_class=MPKernelStmhal)
Exemple #23
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    start += '(webspad::start {0} "localhost"))'.format(htport)

    # A couple of ways to start FriCAS
    # --------------------------------
    # Uncomment or edit as you like.
    # Default:
    ## pid = Popen(['fricas','-eval',prereq,'-eval',start])

    # Start the FriCAS process in a separate terminal.
    # That might be good for controlling FriCAS directly in case
    # the Jupyter interface hangs or a process runs too long.
    # Of course, the start-fricas-in-terminal way also works
    # with additional fricas options.
    pid = Popen(['gnome-terminal', '--title=jfricas', '--'] +
                ['fricas', '-eval', prereq, '-eval', start])

    # Start the FriCAS process without opening the HyperDoc window.
    ## pid = Popen(['fricas','-eval',prereq,'-eval',start] +
    ##             ['-noht])

    # Start the FriCAS process by calling only FRICASsys.
    # The following does currently not work.
    ## pid = Popen(['fricas','-nosman','-eval',prereq,'-eval',start])
    # but
    ## pid = Popen(['gnome-terminal', '--title=jfricas', '--'] +
    ##             ['fricas','-nosman','-eval',prereq,'-eval',start])
    # does.

    # Start the kernel.
    IPKernelApp.launch_instance(kernel_class=SPAD)
Exemple #24
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        sbresponse = self.target.CompleteCode(self.swift_language, None,
                                              code_to_cursor)
        prefix = sbresponse.GetPrefix()
        insertable_matches = []
        for i in range(sbresponse.GetNumMatches()):
            sbmatch = sbresponse.GetMatchAtIndex(i)
            insertable_match = prefix + sbmatch.GetInsertable()
            if insertable_match.startswith("_"):
                continue
            insertable_matches.append(insertable_match)
        return {
            'status': 'ok',
            'matches': insertable_matches,
            'cursor_start': cursor_pos - len(prefix),
            'cursor_end': cursor_pos,
        }


if __name__ == '__main__':
    # Jupyter sends us SIGINT when the user requests execution interruption.
    # Here, we block all threads from receiving the SIGINT, so that we can
    # handle it in a specific handler thread.
    if hasattr(signal, 'pthread_sigmask'):  # Not supported in Windows
        signal.pthread_sigmask(signal.SIG_BLOCK, [signal.SIGINT])

    from ipykernel.kernelapp import IPKernelApp
    # We pass the kernel name as a command-line arg, since Jupyter gives those
    # highest priority (in particular overriding any system-wide config).
    IPKernelApp.launch_instance(
        argv=sys.argv + ['--IPKernelApp.kernel_class=__main__.SwiftKernel'])
Exemple #25
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from ipykernel.kernelapp import IPKernelApp
from .kernel import NodeMcuKernel

IPKernelApp.launch_instance(kernel_class=NodeMcuKernel)
Exemple #26
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        elif silent or code.endswith(';'):
            self.repl += code

        else:
            output = self.eval(self.repl + code, self.get_deps())
            stream_content = {'name': 'stdout', 'text': output}
            self.send_response(self.iopub_socket, 'stream', stream_content)

        return {
            'status': 'ok',
            # The base class increments the execution count
            'execution_count': self.execution_count,
            'payload': [],
            'user_expressions': {},
        }

    def get_deps(self):
        return (' ').join(self.deps)

    def eval(self, code, deps):
        import subprocess

        output = subprocess.run(["re", deps, code], stdout=subprocess.PIPE)

        return output.stdout.decode("utf-8")


if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=IRustKernel)
Exemple #27
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from ipykernel.kernelapp import IPKernelApp
from .kernel import AnsibleKernel
IPKernelApp.launch_instance(kernel_class=AnsibleKernel)
Exemple #28
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                    'data': {
                        "text/plain": err,
                    },
                    'metadata': {},
                }
                self.send_response(self.iopub_socket, 'display_data',
                                   display_data)
            else:
                display_data = {
                    'data': {
                        "text/html": output,
                    },
                    'metadata': {},
                }
                self.send_response(self.iopub_socket, 'display_data',
                                   display_data)

            temp.close()
        return {
            'status': 'ok',
            # The base class increments the execution count
            'execution_count': self.execution_count,
            'payload': [],
            'user_expressions': {},
        }


if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=CbshKernel)
Exemple #29
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    def do_execute(self,
                   code,
                   silent,
                   store_history=True,
                   user_expressions=None,
                   allow_stdin=False):
        if not silent:
            codelines = code.split('\n')
            for codeline in codelines:
                execution_result = self.execute_code(codeline)
                if execution_result:
                    stream_content = {
                        'name': 'stdout',
                        'text': execution_result
                    }
                    self.send_response(self.iopub_socket, 'stream',
                                       stream_content)

        return {
            'status': 'ok',
            'execution_count': self.execution_count,
            'payload': [],
            'user_expressions': {},
        }


if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=ObjectScriptKernel)
Exemple #30
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from .idris2kernel import Idris2Kernel

if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=Idris2Kernel)
Exemple #31
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            p.write_contents()
        p.write_contents()

        if p.returncode != 0:
            self._write_to_stderr(
                "[SaC kernel] Executable exited with code {}".format(
                    p.returncode))
        else:
            if r["ret"] == 2:  # stmts
                self.stmts.append(code)
            elif r["ret"] == 3:  # funs
                self.funs.append(code)
            elif r["ret"] == 4:  # use/import/typedef
                self.imports.append(code)

        return {
            'status': 'ok',
            'execution_count': self.execution_count,
            'payload': [],
            'user_expressions': {}
        }

    def do_shutdown(self, restart):
        """Cleanup the created source code files and executables when shutting down the kernel"""
        self.cleanup_files()


if __name__ == "__main__":
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=SacKernel)
Exemple #32
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                response = {'name': 'stdout', 'text': hist.outs[-1]}
                self.send_response(self.iopub_socket, 'stream', response)

        if interrupted:
            return {'status': 'abort', 'execution_count': self.execution_count}

        rtn = 0 if len(hist) == 0 else hist.rtns[-1]
        if 0 < rtn:
            message = {'status': 'error', 'execution_count': self.execution_count,
                       'ename': '', 'evalue': str(rtn), 'traceback': []}
        else:
            message = {'status': 'ok', 'execution_count': self.execution_count,
                       'payload': [], 'user_expressions': {}}
        return message

    def  do_complete(self, code, pos):
        """Get completions."""
        shell = builtins.__xonsh_shell__
        comps, beg, end = shell.completer.find_and_complete(code, pos, shell.ctx)
        message = {'matches': comps, 'cursor_start': beg, 'cursor_end': end+1,
                   'metadata': {}, 'status': 'ok'}
        return message



if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    # must manually pass in args to avoid interfering w/ Jupyter arg parsing
    with main_context(argv=['--shell-type=readline']):
        IPKernelApp.launch_instance(kernel_class=XonshKernel)
Exemple #33
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from ipykernel.kernelapp import IPKernelApp
from .kernel import QuonKernel

IPKernelApp.launch_instance(kernel_class=QuonKernel)
Exemple #34
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from ipykernel.kernelapp import IPKernelApp
from . import QtpiShort

IPKernelApp.launch_instance(kernel_class=QtpiShort)
Exemple #35
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from ipykernel.kernelapp import IPKernelApp
from .kernel import CQLKernel
IPKernelApp.launch_instance(kernel_class=CQLKernel)
Exemple #36
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# Distributed under the terms of the Modified BSD License.
from sparkmagic.utils.constants import LANG_R
from sparkmagic.kernels.wrapperkernel.sparkkernelbase import SparkKernelBase


class SparkRKernel(SparkKernelBase):
    def __init__(self, **kwargs):
        implementation = 'SparkR'
        implementation_version = '1.0'
        language = LANG_R
        language_version = '0.1'
        language_info = {
            'name': 'sparkR',
            'mimetype': 'text/x-rsrc',
            'codemirror_mode': 'text/x-rsrc',
            'file_extension': '.r',
            'pygments_lexer': 'r'
        }

        session_language = LANG_R

        super(SparkRKernel,
              self).__init__(implementation, implementation_version, language,
                             language_version, language_info, session_language,
                             **kwargs)


if __name__ == '__main__':
    from ipykernel.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=SparkRKernel)
Exemple #37
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        try:
            with pipes(stdout=_PseudoStream(partial(self.Print, end="")),
                       stderr=_PseudoStream(partial(self.Error, end=""))):
                future = self._matlab.eval(code, nargout=0, async=True)
                future.result()
        except (SyntaxError, MatlabExecutionError, KeyboardInterrupt) as exc:
            stdout = exc.args[0]
            return ExceptionWrapper("Error", -1, stdout)

    def _execute_sync(self, code):
        out = StringIO()
        err = StringIO()
        if not isinstance(code, str):
            code = code.encode('utf8')
        try:
            self._matlab.eval(code, nargout=0, stdout=out, stderr=err)
        except (SyntaxError, MatlabExecutionError) as exc:
            stdout = exc.args[0]
            self.Error(stdout)
            return ExceptionWrapper("Error", -1, stdout)
        stdout = out.getvalue()
        self.Print(stdout)


if __name__ == '__main__':
    try:
        from ipykernel.kernelapp import IPKernelApp
    except ImportError:
        from IPython.kernel.zmq.kernelapp import IPKernelApp
    IPKernelApp.launch_instance(kernel_class=MatlabKernel)
Exemple #38
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from ipykernel.kernelapp import IPKernelApp
from .kernel import YottaDBKernel

IPKernelApp.launch_instance(kernel_class=YottaDBKernel)