class ExternalSystemShell(ExternalShellBase):
"""External Shell widget: execute Python script in a separate process"""
SHELL_CLASS = TerminalWidget
def __init__(self,
parent=None,
wdir=None,
path=[],
light_background=True,
menu_actions=None,
show_buttons_inside=True,
show_elapsed_time=True):
ExternalShellBase.__init__(self,
parent=parent,
fname=None,
wdir=wdir,
history_filename='.history',
light_background=light_background,
menu_actions=menu_actions,
show_buttons_inside=show_buttons_inside,
show_elapsed_time=show_elapsed_time)
# Additional python path list
self.path = path
# For compatibility with the other shells that can live in the external
# console
self.is_ipykernel = False
self.connection_file = None
def get_icon(self):
return get_icon('cmdprompt.png')
def create_process(self):
self.shell.clear()
self.process = QProcess(self)
self.process.setProcessChannelMode(QProcess.MergedChannels)
# PYTHONPATH (in case we use Python in this terminal, e.g. py2exe)
env = [
to_text_string(_path)
for _path in self.process.systemEnvironment()
]
add_pathlist_to_PYTHONPATH(env, self.path)
self.process.setEnvironment(env)
# Working directory
if self.wdir is not None:
self.process.setWorkingDirectory(self.wdir)
# Shell arguments
if os.name == 'nt':
p_args = ['/Q']
else:
p_args = ['-i']
if self.arguments:
p_args.extend(shell_split(self.arguments))
self.connect(self.process, SIGNAL("readyReadStandardOutput()"),
self.write_output)
self.connect(self.process,
SIGNAL("finished(int,QProcess::ExitStatus)"),
self.finished)
self.connect(self.kill_button, SIGNAL("clicked()"), self.process.kill)
if os.name == 'nt':
self.process.start('cmd.exe', p_args)
else:
# Using bash:
self.process.start('bash', p_args)
self.send_to_process('PS1="\\u@\\h:\\w> "\n')
running = self.process.waitForStarted()
self.set_running_state(running)
if not running:
QMessageBox.critical(self, _("Error"),
_("Process failed to start"))
else:
self.shell.setFocus()
self.emit(SIGNAL('started()'))
return self.process
#===============================================================================
# Input/Output
#===============================================================================
def transcode(self, qba):
if os.name == 'nt':
return to_text_string(CP850_CODEC.toUnicode(qba.data()))
else:
return ExternalShellBase.transcode(self, qba)
def send_to_process(self, text):
if not is_text_string(text):
text = to_text_string(text)
if text[:-1] in ["clear", "cls", "CLS"]:
self.shell.clear()
self.send_to_process(os.linesep)
return
if not text.endswith('\n'):
text += '\n'
if os.name == 'nt':
self.process.write(text.encode('cp850'))
else:
self.process.write(LOCALE_CODEC.fromUnicode(text))
self.process.waitForBytesWritten(-1)
def keyboard_interrupt(self):
# This does not work on Windows:
# (unfortunately there is no easy way to send a Ctrl+C to cmd.exe)
self.send_ctrl_to_process('c')
class ProfilerWidget(QWidget):
"""
Profiler widget
"""
DATAPATH = get_conf_path('profiler.results')
VERSION = '0.0.1'
def __init__(self, parent, max_entries=100):
QWidget.__init__(self, parent)
self.setWindowTitle("Profiler")
self.output = None
self.error_output = None
self._last_wdir = None
self._last_args = None
self._last_pythonpath = None
self.filecombo = PythonModulesComboBox(self)
self.start_button = create_toolbutton(self, icon=get_icon('run.png'),
text=_("Profile"),
tip=_("Run profiler"),
triggered=self.start, text_beside_icon=True)
self.stop_button = create_toolbutton(self,
icon=get_icon('terminate.png'),
text=_("Stop"),
tip=_(
"Stop current profiling"),
text_beside_icon=True)
self.connect(self.filecombo, SIGNAL('valid(bool)'),
self.start_button.setEnabled)
#self.connect(self.filecombo, SIGNAL('valid(bool)'), self.show_data)
# FIXME: The combobox emits this signal on almost any event
# triggering show_data() too early, too often.
browse_button = create_toolbutton(self, icon=get_icon('fileopen.png'),
tip=_('Select Python script'),
triggered=self.select_file)
self.datelabel = QLabel()
self.log_button = create_toolbutton(self, icon=get_icon('log.png'),
text=_("Output"),
text_beside_icon=True,
tip=_("Show program's output"),
triggered=self.show_log)
self.datatree = ProfilerDataTree(self)
self.collapse_button = create_toolbutton(self,
icon=get_icon('collapse.png'),
triggered=lambda dD=-1:
self.datatree.change_view(dD),
tip=_('Collapse one level up'))
self.expand_button = create_toolbutton(self,
icon=get_icon('expand.png'),
triggered=lambda dD=1:
self.datatree.change_view(dD),
tip=_('Expand one level down'))
hlayout1 = QHBoxLayout()
hlayout1.addWidget(self.filecombo)
hlayout1.addWidget(browse_button)
hlayout1.addWidget(self.start_button)
hlayout1.addWidget(self.stop_button)
hlayout2 = QHBoxLayout()
hlayout2.addWidget(self.collapse_button)
hlayout2.addWidget(self.expand_button)
hlayout2.addStretch()
hlayout2.addWidget(self.datelabel)
hlayout2.addStretch()
hlayout2.addWidget(self.log_button)
layout = QVBoxLayout()
layout.addLayout(hlayout1)
layout.addLayout(hlayout2)
layout.addWidget(self.datatree)
self.setLayout(layout)
self.process = None
self.set_running_state(False)
self.start_button.setEnabled(False)
if not is_profiler_installed():
# This should happen only on certain GNU/Linux distributions
# or when this a home-made Python build because the Python
# profilers are included in the Python standard library
for widget in (self.datatree, self.filecombo,
self.start_button, self.stop_button):
widget.setDisabled(True)
url = 'http://docs.python.org/library/profile.html'
text = '%s <a href=%s>%s</a>' % (_('Please install'), url,
_("the Python profiler modules"))
self.datelabel.setText(text)
else:
pass # self.show_data()
def analyze(self, filename, wdir=None, args=None, pythonpath=None):
if not is_profiler_installed():
return
self.kill_if_running()
#index, _data = self.get_data(filename)
index = None # FIXME: storing data is not implemented yet
if index is None:
self.filecombo.addItem(filename)
self.filecombo.setCurrentIndex(self.filecombo.count()-1)
else:
self.filecombo.setCurrentIndex(self.filecombo.findText(filename))
self.filecombo.selected()
if self.filecombo.is_valid():
if wdir is None:
wdir = osp.dirname(filename)
self.start(wdir, args, pythonpath)
def select_file(self):
self.emit(SIGNAL('redirect_stdio(bool)'), False)
filename, _selfilter = getopenfilename(self, _("Select Python script"),
getcwd(), _("Python scripts")+" (*.py ; *.pyw)")
self.emit(SIGNAL('redirect_stdio(bool)'), False)
if filename:
self.analyze(filename)
def show_log(self):
if self.output:
TextEditor(self.output, title=_("Profiler output"),
readonly=True, size=(700, 500)).exec_()
def show_errorlog(self):
if self.error_output:
TextEditor(self.error_output, title=_("Profiler output"),
readonly=True, size=(700, 500)).exec_()
def start(self, wdir=None, args=None, pythonpath=None):
filename = to_text_string(self.filecombo.currentText())
if wdir is None:
wdir = self._last_wdir
if wdir is None:
wdir = osp.basename(filename)
if args is None:
args = self._last_args
if args is None:
args = []
if pythonpath is None:
pythonpath = self._last_pythonpath
self._last_wdir = wdir
self._last_args = args
self._last_pythonpath = pythonpath
self.datelabel.setText(_('Profiling, please wait...'))
self.process = QProcess(self)
self.process.setProcessChannelMode(QProcess.SeparateChannels)
self.process.setWorkingDirectory(wdir)
self.connect(self.process, SIGNAL("readyReadStandardOutput()"),
self.read_output)
self.connect(self.process, SIGNAL("readyReadStandardError()"),
lambda: self.read_output(error=True))
self.connect(self.process,
SIGNAL("finished(int,QProcess::ExitStatus)"),
self.finished)
self.connect(self.stop_button, SIGNAL("clicked()"), self.process.kill)
if pythonpath is not None:
env = [to_text_string(_pth)
for _pth in self.process.systemEnvironment()]
baseshell.add_pathlist_to_PYTHONPATH(env, pythonpath)
self.process.setEnvironment(env)
self.output = ''
self.error_output = ''
p_args = ['-m', 'cProfile', '-o', self.DATAPATH]
if os.name == 'nt':
# On Windows, one has to replace backslashes by slashes to avoid
# confusion with escape characters (otherwise, for example, '\t'
# will be interpreted as a tabulation):
p_args.append(osp.normpath(filename).replace(os.sep, '/'))
else:
p_args.append(filename)
if args:
p_args.extend(shell_split(args))
executable = sys.executable
if executable.endswith("spyder.exe"):
# py2exe distribution
executable = "python.exe"
self.process.start(executable, p_args)
running = self.process.waitForStarted()
self.set_running_state(running)
if not running:
QMessageBox.critical(self, _("Error"),
_("Process failed to start"))
def set_running_state(self, state=True):
self.start_button.setEnabled(not state)
self.stop_button.setEnabled(state)
def read_output(self, error=False):
if error:
self.process.setReadChannel(QProcess.StandardError)
else:
self.process.setReadChannel(QProcess.StandardOutput)
qba = QByteArray()
while self.process.bytesAvailable():
if error:
qba += self.process.readAllStandardError()
else:
qba += self.process.readAllStandardOutput()
text = to_text_string( locale_codec.toUnicode(qba.data()) )
if error:
self.error_output += text
else:
self.output += text
def finished(self):
self.set_running_state(False)
self.show_errorlog() # If errors occurred, show them.
self.output = self.error_output + self.output
# FIXME: figure out if show_data should be called here or
# as a signal from the combobox
self.show_data(justanalyzed=True)
def kill_if_running(self):
if self.process is not None:
if self.process.state() == QProcess.Running:
self.process.kill()
self.process.waitForFinished()
def show_data(self, justanalyzed=False):
if not justanalyzed:
self.output = None
self.log_button.setEnabled(self.output is not None \
and len(self.output) > 0)
self.kill_if_running()
filename = to_text_string(self.filecombo.currentText())
if not filename:
return
self.datatree.load_data(self.DATAPATH)
self.datelabel.setText(_('Sorting data, please wait...'))
QApplication.processEvents()
self.datatree.show_tree()
text_style = "<span style=\'color: #444444\'><b>%s </b></span>"
date_text = text_style % time.strftime("%d %b %Y %H:%M",
time.localtime())
self.datelabel.setText(date_text)
class ExternalPythonShell(ExternalShellBase):
"""External Shell widget: execute Python script in a separate process"""
SHELL_CLASS = ExtPythonShellWidget
def __init__(self, parent=None, fname=None, wdir=None,
interact=False, debug=False, path=[], python_args='',
ipykernel=False, arguments='', stand_alone=None,
umr_enabled=True, umr_namelist=[], umr_verbose=True,
pythonstartup=None, pythonexecutable=None,
monitor_enabled=True, mpl_backend=None, ets_backend='qt4',
qt_api=None, pyqt_api=0,
ignore_sip_setapi_errors=False, merge_output_channels=False,
colorize_sys_stderr=False, autorefresh_timeout=3000,
autorefresh_state=True, light_background=True,
menu_actions=None, show_buttons_inside=True,
show_elapsed_time=True):
assert qt_api in (None, 'pyqt', 'pyside')
self.namespacebrowser = None # namespace browser widget!
self.dialog_manager = DialogManager()
self.stand_alone = stand_alone # stand alone settings (None: plugin)
self.interact = interact
self.is_ipykernel = ipykernel
self.pythonstartup = pythonstartup
self.pythonexecutable = pythonexecutable
self.monitor_enabled = monitor_enabled
self.mpl_backend = mpl_backend
self.ets_backend = ets_backend
self.qt_api = qt_api
self.pyqt_api = pyqt_api
self.ignore_sip_setapi_errors = ignore_sip_setapi_errors
self.merge_output_channels = merge_output_channels
self.colorize_sys_stderr = colorize_sys_stderr
self.umr_enabled = umr_enabled
self.umr_namelist = umr_namelist
self.umr_verbose = umr_verbose
self.autorefresh_timeout = autorefresh_timeout
self.autorefresh_state = autorefresh_state
self.namespacebrowser_button = None
self.cwd_button = None
self.env_button = None
self.syspath_button = None
self.terminate_button = None
self.notification_thread = None
ExternalShellBase.__init__(self, parent=parent, fname=fname, wdir=wdir,
history_filename='history.py',
light_background=light_background,
menu_actions=menu_actions,
show_buttons_inside=show_buttons_inside,
show_elapsed_time=show_elapsed_time)
if self.pythonexecutable is None:
self.pythonexecutable = get_python_executable()
self.python_args = None
if python_args:
assert is_text_string(python_args)
self.python_args = python_args
assert is_text_string(arguments)
self.arguments = arguments
self.connection_file = None
if self.is_ipykernel:
self.interact = False
# Running our custom startup script for IPython kernels:
# (see spyderlib/widgets/externalshell/start_ipython_kernel.py)
self.fname = get_module_source_path(
'spyderlib.widgets.externalshell', 'start_ipython_kernel.py')
self.shell.set_externalshell(self)
self.toggle_globals_explorer(False)
self.interact_action.setChecked(self.interact)
self.debug_action.setChecked(debug)
self.introspection_socket = None
self.is_interpreter = fname is None
if self.is_interpreter:
self.terminate_button.hide()
# Additional python path list
self.path = path
self.shell.path = path
def set_introspection_socket(self, introspection_socket):
self.introspection_socket = introspection_socket
if self.namespacebrowser is not None:
settings = self.namespacebrowser.get_view_settings()
communicate(introspection_socket,
'set_remote_view_settings()', settings=[settings])
def set_autorefresh_timeout(self, interval):
if self.introspection_socket is not None:
try:
communicate(self.introspection_socket,
"set_monitor_timeout(%d)" % interval)
except socket.error:
pass
def closeEvent(self, event):
self.quit_monitor()
ExternalShellBase.closeEvent(self, event)
def get_toolbar_buttons(self):
ExternalShellBase.get_toolbar_buttons(self)
if self.namespacebrowser_button is None \
and self.stand_alone is not None:
self.namespacebrowser_button = create_toolbutton(self,
text=_("Variables"), icon=get_icon('dictedit.png'),
tip=_("Show/hide global variables explorer"),
toggled=self.toggle_globals_explorer, text_beside_icon=True)
if self.terminate_button is None:
self.terminate_button = create_toolbutton(self,
text=_("Terminate"), icon=get_icon('stop.png'),
tip=_("Attempts to stop the process. The process\n"
"may not exit as a result of clicking this\n"
"button (it is given the chance to prompt\n"
"the user for any unsaved files, etc)."))
buttons = []
if self.namespacebrowser_button is not None:
buttons.append(self.namespacebrowser_button)
buttons += [self.run_button, self.terminate_button, self.kill_button,
self.options_button]
return buttons
def get_options_menu(self):
ExternalShellBase.get_options_menu(self)
self.interact_action = create_action(self, _("Interact"))
self.interact_action.setCheckable(True)
self.debug_action = create_action(self, _("Debug"))
self.debug_action.setCheckable(True)
self.args_action = create_action(self, _("Arguments..."),
triggered=self.get_arguments)
run_settings_menu = QMenu(_("Run settings"), self)
add_actions(run_settings_menu,
(self.interact_action, self.debug_action, self.args_action))
self.cwd_button = create_action(self, _("Working directory"),
icon=get_std_icon('DirOpenIcon'),
tip=_("Set current working directory"),
triggered=self.set_current_working_directory)
self.env_button = create_action(self, _("Environment variables"),
icon=get_icon('environ.png'),
triggered=self.show_env)
self.syspath_button = create_action(self,
_("Show sys.path contents"),
icon=get_icon('syspath.png'),
triggered=self.show_syspath)
actions = [run_settings_menu, self.show_time_action, None,
self.cwd_button, self.env_button, self.syspath_button]
if self.menu_actions is not None:
actions += [None]+self.menu_actions
return actions
def is_interpreter(self):
"""Return True if shellwidget is a Python interpreter"""
return self.is_interpreter
def get_shell_widget(self):
if self.stand_alone is None:
return self.shell
else:
self.namespacebrowser = NamespaceBrowser(self)
settings = self.stand_alone
self.namespacebrowser.set_shellwidget(self)
self.namespacebrowser.setup(**settings)
self.connect(self.namespacebrowser, SIGNAL('collapse()'),
lambda: self.toggle_globals_explorer(False))
# Shell splitter
self.splitter = splitter = QSplitter(Qt.Vertical, self)
self.connect(self.splitter, SIGNAL('splitterMoved(int, int)'),
self.splitter_moved)
splitter.addWidget(self.shell)
splitter.setCollapsible(0, False)
splitter.addWidget(self.namespacebrowser)
splitter.setStretchFactor(0, 1)
splitter.setStretchFactor(1, 0)
splitter.setHandleWidth(5)
splitter.setSizes([2, 1])
return splitter
def get_icon(self):
return get_icon('python.png')
def set_buttons_runnning_state(self, state):
ExternalShellBase.set_buttons_runnning_state(self, state)
self.interact_action.setEnabled(not state and not self.is_interpreter)
self.debug_action.setEnabled(not state and not self.is_interpreter)
self.args_action.setEnabled(not state and not self.is_interpreter)
if state:
if self.arguments:
argstr = _("Arguments: %s") % self.arguments
else:
argstr = _("No argument")
else:
argstr = _("Arguments...")
self.args_action.setText(argstr)
self.terminate_button.setVisible(not self.is_interpreter and state)
if not state:
self.toggle_globals_explorer(False)
for btn in (self.cwd_button, self.env_button, self.syspath_button):
btn.setEnabled(state and self.monitor_enabled)
if self.namespacebrowser_button is not None:
self.namespacebrowser_button.setEnabled(state)
def set_namespacebrowser(self, namespacebrowser):
"""
Set namespace browser *widget*
Note: this method is not used in stand alone mode
"""
self.namespacebrowser = namespacebrowser
self.configure_namespacebrowser()
def configure_namespacebrowser(self):
"""Connect the namespace browser to the notification thread"""
if self.notification_thread is not None:
self.connect(self.notification_thread,
SIGNAL('refresh_namespace_browser()'),
self.namespacebrowser.refresh_table)
signal = self.notification_thread.sig_process_remote_view
signal.connect(lambda data:
self.namespacebrowser.process_remote_view(data))
def create_process(self):
self.shell.clear()
self.process = QProcess(self)
if self.merge_output_channels:
self.process.setProcessChannelMode(QProcess.MergedChannels)
else:
self.process.setProcessChannelMode(QProcess.SeparateChannels)
self.connect(self.shell, SIGNAL("wait_for_ready_read()"),
lambda: self.process.waitForReadyRead(250))
# Working directory
if self.wdir is not None:
self.process.setWorkingDirectory(self.wdir)
#-------------------------Python specific-------------------------------
# Python arguments
p_args = ['-u']
if DEBUG >= 3:
p_args += ['-v']
p_args += get_python_args(self.fname, self.python_args,
self.interact_action.isChecked(),
self.debug_action.isChecked(),
self.arguments)
env = [to_text_string(_path)
for _path in self.process.systemEnvironment()]
if self.pythonstartup:
env.append('PYTHONSTARTUP=%s' % self.pythonstartup)
# Set standard input/output encoding for Python consoles
# (IPython handles it on its own)
# See http://stackoverflow.com/q/26312400/438386, specifically
# the comments of Martijn Pieters
if not self.is_ipykernel:
env.append('PYTHONIOENCODING=UTF-8')
# Monitor
if self.monitor_enabled:
env.append('SPYDER_SHELL_ID=%s' % id(self))
env.append('SPYDER_AR_TIMEOUT=%d' % self.autorefresh_timeout)
env.append('SPYDER_AR_STATE=%r' % self.autorefresh_state)
from spyderlib.widgets.externalshell import introspection
introspection_server = introspection.start_introspection_server()
introspection_server.register(self)
notification_server = introspection.start_notification_server()
self.notification_thread = notification_server.register(self)
self.connect(self.notification_thread, SIGNAL('pdb(QString,int)'),
lambda fname, lineno:
self.emit(SIGNAL('pdb(QString,int)'), fname, lineno))
self.connect(self.notification_thread,
SIGNAL('new_ipython_kernel(QString)'),
lambda args:
self.emit(SIGNAL('create_ipython_client(QString)'),
args))
self.connect(self.notification_thread,
SIGNAL('open_file(QString,int)'),
lambda fname, lineno:
self.emit(SIGNAL('open_file(QString,int)'),
fname, lineno))
if self.namespacebrowser is not None:
self.configure_namespacebrowser()
env.append('SPYDER_I_PORT=%d' % introspection_server.port)
env.append('SPYDER_N_PORT=%d' % notification_server.port)
# External modules options
env.append('ETS_TOOLKIT=%s' % self.ets_backend)
if self.mpl_backend:
env.append('MATPLOTLIB_BACKEND=%s' % self.mpl_backend)
if self.qt_api:
env.append('QT_API=%s' % self.qt_api)
env.append('COLORIZE_SYS_STDERR=%s' % self.colorize_sys_stderr)
# # Socket-based alternative (see input hook in sitecustomize.py):
# if self.install_qt_inputhook:
# from PyQt4.QtNetwork import QLocalServer
# self.local_server = QLocalServer()
# self.local_server.listen(str(id(self)))
if self.pyqt_api:
env.append('PYQT_API=%d' % self.pyqt_api)
env.append('IGNORE_SIP_SETAPI_ERRORS=%s'
% self.ignore_sip_setapi_errors)
# User Module Deleter
if self.is_interpreter:
env.append('UMR_ENABLED=%r' % self.umr_enabled)
env.append('UMR_NAMELIST=%s' % ','.join(self.umr_namelist))
env.append('UMR_VERBOSE=%r' % self.umr_verbose)
env.append('MATPLOTLIB_ION=True')
else:
if self.interact:
env.append('MATPLOTLIB_ION=True')
else:
env.append('MATPLOTLIB_ION=False')
# IPython kernel
env.append('IPYTHON_KERNEL=%r' % self.is_ipykernel)
# Add sitecustomize path to path list
pathlist = []
scpath = osp.dirname(osp.abspath(__file__))
pathlist.append(scpath)
# Adding Spyder path
pathlist += self.path
# Adding path list to PYTHONPATH environment variable
add_pathlist_to_PYTHONPATH(env, pathlist)
#-------------------------Python specific-------------------------------
self.connect(self.process, SIGNAL("readyReadStandardOutput()"),
self.write_output)
self.connect(self.process, SIGNAL("readyReadStandardError()"),
self.write_error)
self.connect(self.process, SIGNAL("finished(int,QProcess::ExitStatus)"),
self.finished)
self.connect(self, SIGNAL('finished()'), self.dialog_manager.close_all)
self.connect(self.terminate_button, SIGNAL("clicked()"),
self.process.terminate)
self.connect(self.kill_button, SIGNAL("clicked()"),
self.process.kill)
#-------------------------Python specific-------------------------------
# Fixes for our Mac app:
# 1. PYTHONPATH and PYTHONHOME are set while bootstrapping the app,
# but their values are messing sys.path for external interpreters
# (e.g. EPD) so we need to remove them from the environment.
# 2. Set PYTHONPATH again but without grabbing entries defined in the
# environment (Fixes Issue 1321)
# 3. Remove PYTHONOPTIMIZE from env so that we can have assert
# statements working with our interpreters (See Issue 1281)
if running_in_mac_app():
env.append('SPYDER_INTERPRETER=%s' % self.pythonexecutable)
if MAC_APP_NAME not in self.pythonexecutable:
env = [p for p in env if not (p.startswith('PYTHONPATH') or \
p.startswith('PYTHONHOME'))] # 1.
add_pathlist_to_PYTHONPATH(env, pathlist, drop_env=True) # 2.
env = [p for p in env if not p.startswith('PYTHONOPTIMIZE')] # 3.
self.process.setEnvironment(env)
self.process.start(self.pythonexecutable, p_args)
#-------------------------Python specific-------------------------------
running = self.process.waitForStarted(3000)
self.set_running_state(running)
if not running:
if self.is_ipykernel:
self.emit(SIGNAL("ipython_kernel_start_error(QString)"),
_("The kernel failed to start!! That's all we know... "
"Please close this console and open a new one."))
else:
QMessageBox.critical(self, _("Error"),
_("A Python console failed to start!"))
else:
self.shell.setFocus()
self.emit(SIGNAL('started()'))
return self.process
def finished(self, exit_code, exit_status):
"""Reimplement ExternalShellBase method"""
if self.is_ipykernel and exit_code == 1:
self.emit(SIGNAL("ipython_kernel_start_error(QString)"),
self.shell.get_text_with_eol())
ExternalShellBase.finished(self, exit_code, exit_status)
self.introspection_socket = None
#===============================================================================
# Input/Output
#===============================================================================
def write_error(self):
if os.name == 'nt':
#---This is apparently necessary only on Windows (not sure though):
# emptying standard output buffer before writing error output
self.process.setReadChannel(QProcess.StandardOutput)
if self.process.waitForReadyRead(1):
self.write_output()
self.shell.write_error(self.get_stderr())
QApplication.processEvents()
def send_to_process(self, text):
if not self.is_running():
return
if not is_text_string(text):
text = to_text_string(text)
if self.mpl_backend == 'Qt4Agg' and os.name == 'nt' and \
self.introspection_socket is not None:
communicate(self.introspection_socket,
"toggle_inputhook_flag(True)")
# # Socket-based alternative (see input hook in sitecustomize.py):
# while self.local_server.hasPendingConnections():
# self.local_server.nextPendingConnection().write('go!')
if any([text == cmd for cmd in ['%ls', '%pwd', '%scientific']]) or \
any([text.startswith(cmd) for cmd in ['%cd ', '%clear ']]):
text = 'evalsc(r"%s")\n' % text
if not text.endswith('\n'):
text += '\n'
self.process.write(to_binary_string(text, 'utf8'))
self.process.waitForBytesWritten(-1)
# Eventually write prompt faster (when hitting Enter continuously)
# -- necessary/working on Windows only:
if os.name == 'nt':
self.write_error()
def keyboard_interrupt(self):
if self.introspection_socket is not None:
communicate(self.introspection_socket, "thread.interrupt_main()")
def quit_monitor(self):
if self.introspection_socket is not None:
try:
write_packet(self.introspection_socket, "thread.exit()")
except socket.error:
pass
#===============================================================================
# Globals explorer
#===============================================================================
def toggle_globals_explorer(self, state):
if self.stand_alone is not None:
self.splitter.setSizes([1, 1 if state else 0])
self.namespacebrowser_button.setChecked(state)
if state and self.namespacebrowser is not None:
self.namespacebrowser.refresh_table()
def splitter_moved(self, pos, index):
self.namespacebrowser_button.setChecked( self.splitter.sizes()[1] )
#===============================================================================
# Misc.
#===============================================================================
def set_current_working_directory(self):
"""Set current working directory"""
cwd = self.shell.get_cwd()
self.emit(SIGNAL('redirect_stdio(bool)'), False)
directory = getexistingdirectory(self, _("Select directory"), cwd)
if directory:
self.shell.set_cwd(directory)
self.emit(SIGNAL('redirect_stdio(bool)'), True)
def show_env(self):
"""Show environment variables"""
get_func = self.shell.get_env
set_func = self.shell.set_env
self.dialog_manager.show(RemoteEnvDialog(get_func, set_func))
def show_syspath(self):
"""Show sys.path contents"""
editor = DictEditor()
editor.setup(self.shell.get_syspath(), title="sys.path", readonly=True,
width=600, icon='syspath.png')
self.dialog_manager.show(editor)
class ExternalSystemShell(ExternalShellBase):
"""External Shell widget: execute Python script in a separate process"""
SHELL_CLASS = TerminalWidget
def __init__(self, parent=None, wdir=None, path=[], light_background=True,
menu_actions=None, show_buttons_inside=True,
show_elapsed_time=True):
ExternalShellBase.__init__(self, parent=parent, fname=None, wdir=wdir,
history_filename='.history',
light_background=light_background,
menu_actions=menu_actions,
show_buttons_inside=show_buttons_inside,
show_elapsed_time=show_elapsed_time)
# Additional python path list
self.path = path
# For compatibility with the other shells that can live in the external
# console
self.is_ipykernel = False
self.connection_file = None
def get_icon(self):
return get_icon('cmdprompt.png')
def create_process(self):
self.shell.clear()
self.process = QProcess(self)
self.process.setProcessChannelMode(QProcess.MergedChannels)
# PYTHONPATH (in case we use Python in this terminal, e.g. py2exe)
env = [to_text_string(_path)
for _path in self.process.systemEnvironment()]
add_pathlist_to_PYTHONPATH(env, self.path)
self.process.setEnvironment(env)
# Working directory
if self.wdir is not None:
self.process.setWorkingDirectory(self.wdir)
# Shell arguments
if os.name == 'nt':
p_args = ['/Q']
else:
p_args = ['-i']
if self.arguments:
p_args.extend( shell_split(self.arguments) )
self.connect(self.process, SIGNAL("readyReadStandardOutput()"),
self.write_output)
self.connect(self.process, SIGNAL("finished(int,QProcess::ExitStatus)"),
self.finished)
self.connect(self.kill_button, SIGNAL("clicked()"),
self.process.kill)
if os.name == 'nt':
self.process.start('cmd.exe', p_args)
else:
# Using bash:
self.process.start('bash', p_args)
self.send_to_process('PS1="\\u@\\h:\\w> "\n')
running = self.process.waitForStarted()
self.set_running_state(running)
if not running:
QMessageBox.critical(self, _("Error"),
_("Process failed to start"))
else:
self.shell.setFocus()
self.emit(SIGNAL('started()'))
return self.process
#===============================================================================
# Input/Output
#===============================================================================
def transcode(self, qba):
if os.name == 'nt':
return to_text_string( CP850_CODEC.toUnicode(qba.data()) )
else:
return ExternalShellBase.transcode(self, qba)
def send_to_process(self, text):
if not is_text_string(text):
text = to_text_string(text)
if text[:-1] in ["clear", "cls", "CLS"]:
self.shell.clear()
self.send_to_process(os.linesep)
return
if not text.endswith('\n'):
text += '\n'
if os.name == 'nt':
self.process.write(text.encode('cp850'))
else:
self.process.write(LOCALE_CODEC.fromUnicode(text))
self.process.waitForBytesWritten(-1)
def keyboard_interrupt(self):
# This does not work on Windows:
# (unfortunately there is no easy way to send a Ctrl+C to cmd.exe)
self.send_ctrl_to_process('c')
# # The following code will soon be removed:
# # (last attempt to send a Ctrl+C on Windows)
# if os.name == 'nt':
# pid = int(self.process.pid())
# import ctypes, win32api, win32con
# class _PROCESS_INFORMATION(ctypes.Structure):
# _fields_ = [("hProcess", ctypes.c_int),
# ("hThread", ctypes.c_int),
# ("dwProcessID", ctypes.c_int),
# ("dwThreadID", ctypes.c_int)]
# x = ctypes.cast( ctypes.c_void_p(pid),
# ctypes.POINTER(_PROCESS_INFORMATION) )
# win32api.GenerateConsoleCtrlEvent(win32con.CTRL_C_EVENT,
# x.dwProcessID)
# else:
# self.send_ctrl_to_process('c')
class ProfilerWidget(QWidget):
"""
Profiler widget
"""
DATAPATH = get_conf_path('profiler.results')
VERSION = '0.0.1'
def __init__(self, parent, max_entries=100):
QWidget.__init__(self, parent)
self.setWindowTitle("Profiler")
self.output = None
self.error_output = None
self._last_wdir = None
self._last_args = None
self._last_pythonpath = None
self.filecombo = PythonModulesComboBox(self)
self.start_button = create_toolbutton(self,
icon=get_icon('run.png'),
text=_("Profile"),
tip=_("Run profiler"),
triggered=self.start,
text_beside_icon=True)
self.stop_button = create_toolbutton(self,
icon=get_icon('stop.png'),
text=_("Stop"),
tip=_("Stop current profiling"),
text_beside_icon=True)
self.connect(self.filecombo, SIGNAL('valid(bool)'),
self.start_button.setEnabled)
#self.connect(self.filecombo, SIGNAL('valid(bool)'), self.show_data)
# FIXME: The combobox emits this signal on almost any event
# triggering show_data() too early, too often.
browse_button = create_toolbutton(self,
icon=get_icon('fileopen.png'),
tip=_('Select Python script'),
triggered=self.select_file)
self.datelabel = QLabel()
self.log_button = create_toolbutton(self,
icon=get_icon('log.png'),
text=_("Output"),
text_beside_icon=True,
tip=_("Show program's output"),
triggered=self.show_log)
self.datatree = ProfilerDataTree(self)
self.collapse_button = create_toolbutton(
self,
icon=get_icon('collapse.png'),
triggered=lambda dD=-1: self.datatree.change_view(dD),
tip=_('Collapse one level up'))
self.expand_button = create_toolbutton(
self,
icon=get_icon('expand.png'),
triggered=lambda dD=1: self.datatree.change_view(dD),
tip=_('Expand one level down'))
hlayout1 = QHBoxLayout()
hlayout1.addWidget(self.filecombo)
hlayout1.addWidget(browse_button)
hlayout1.addWidget(self.start_button)
hlayout1.addWidget(self.stop_button)
hlayout2 = QHBoxLayout()
hlayout2.addWidget(self.collapse_button)
hlayout2.addWidget(self.expand_button)
hlayout2.addStretch()
hlayout2.addWidget(self.datelabel)
hlayout2.addStretch()
hlayout2.addWidget(self.log_button)
layout = QVBoxLayout()
layout.addLayout(hlayout1)
layout.addLayout(hlayout2)
layout.addWidget(self.datatree)
self.setLayout(layout)
self.process = None
self.set_running_state(False)
self.start_button.setEnabled(False)
if not is_profiler_installed():
# This should happen only on certain GNU/Linux distributions
# or when this a home-made Python build because the Python
# profilers are included in the Python standard library
for widget in (self.datatree, self.filecombo, self.start_button,
self.stop_button):
widget.setDisabled(True)
url = 'http://docs.python.org/library/profile.html'
text = '%s <a href=%s>%s</a>' % (_('Please install'), url,
_("the Python profiler modules"))
self.datelabel.setText(text)
else:
pass # self.show_data()
def analyze(self, filename, wdir=None, args=None, pythonpath=None):
if not is_profiler_installed():
return
self.kill_if_running()
#index, _data = self.get_data(filename)
index = None # FIXME: storing data is not implemented yet
if index is None:
self.filecombo.addItem(filename)
self.filecombo.setCurrentIndex(self.filecombo.count() - 1)
else:
self.filecombo.setCurrentIndex(self.filecombo.findText(filename))
self.filecombo.selected()
if self.filecombo.is_valid():
if wdir is None:
wdir = osp.dirname(filename)
self.start(wdir, args, pythonpath)
def select_file(self):
self.emit(SIGNAL('redirect_stdio(bool)'), False)
filename, _selfilter = getopenfilename(
self, _("Select Python script"), getcwd(),
_("Python scripts") + " (*.py ; *.pyw)")
self.emit(SIGNAL('redirect_stdio(bool)'), False)
if filename:
self.analyze(filename)
def show_log(self):
if self.output:
TextEditor(self.output,
title=_("Profiler output"),
readonly=True,
size=(700, 500)).exec_()
def show_errorlog(self):
if self.error_output:
TextEditor(self.error_output,
title=_("Profiler output"),
readonly=True,
size=(700, 500)).exec_()
def start(self, wdir=None, args=None, pythonpath=None):
filename = to_text_string(self.filecombo.currentText())
if wdir is None:
wdir = self._last_wdir
if wdir is None:
wdir = osp.basename(filename)
if args is None:
args = self._last_args
if args is None:
args = []
if pythonpath is None:
pythonpath = self._last_pythonpath
self._last_wdir = wdir
self._last_args = args
self._last_pythonpath = pythonpath
self.datelabel.setText(_('Profiling, please wait...'))
self.process = QProcess(self)
self.process.setProcessChannelMode(QProcess.SeparateChannels)
self.process.setWorkingDirectory(wdir)
self.connect(self.process, SIGNAL("readyReadStandardOutput()"),
self.read_output)
self.connect(self.process, SIGNAL("readyReadStandardError()"),
lambda: self.read_output(error=True))
self.connect(self.process,
SIGNAL("finished(int,QProcess::ExitStatus)"),
self.finished)
self.connect(self.stop_button, SIGNAL("clicked()"), self.process.kill)
if pythonpath is not None:
env = [
to_text_string(_pth)
for _pth in self.process.systemEnvironment()
]
baseshell.add_pathlist_to_PYTHONPATH(env, pythonpath)
self.process.setEnvironment(env)
self.output = ''
self.error_output = ''
p_args = ['-m', 'cProfile', '-o', self.DATAPATH]
if os.name == 'nt':
# On Windows, one has to replace backslashes by slashes to avoid
# confusion with escape characters (otherwise, for example, '\t'
# will be interpreted as a tabulation):
p_args.append(osp.normpath(filename).replace(os.sep, '/'))
else:
p_args.append(filename)
if args:
p_args.extend(shell_split(args))
executable = sys.executable
if executable.endswith("spyder.exe"):
# py2exe distribution
executable = "python.exe"
self.process.start(executable, p_args)
running = self.process.waitForStarted()
self.set_running_state(running)
if not running:
QMessageBox.critical(self, _("Error"),
_("Process failed to start"))
def set_running_state(self, state=True):
self.start_button.setEnabled(not state)
self.stop_button.setEnabled(state)
def read_output(self, error=False):
if error:
self.process.setReadChannel(QProcess.StandardError)
else:
self.process.setReadChannel(QProcess.StandardOutput)
qba = QByteArray()
while self.process.bytesAvailable():
if error:
qba += self.process.readAllStandardError()
else:
qba += self.process.readAllStandardOutput()
text = to_text_string(locale_codec.toUnicode(qba.data()))
if error:
self.error_output += text
else:
self.output += text
def finished(self):
self.set_running_state(False)
self.show_errorlog() # If errors occurred, show them.
self.output = self.error_output + self.output
# FIXME: figure out if show_data should be called here or
# as a signal from the combobox
self.show_data(justanalyzed=True)
def kill_if_running(self):
if self.process is not None:
if self.process.state() == QProcess.Running:
self.process.kill()
self.process.waitForFinished()
def show_data(self, justanalyzed=False):
if not justanalyzed:
self.output = None
self.log_button.setEnabled(self.output is not None \
and len(self.output) > 0)
self.kill_if_running()
filename = to_text_string(self.filecombo.currentText())
if not filename:
return
self.datatree.load_data(self.DATAPATH)
self.datelabel.setText(_('Sorting data, please wait...'))
QApplication.processEvents()
self.datatree.show_tree()
text_style = "<span style=\'color: #444444\'><b>%s </b></span>"
date_text = text_style % time.strftime("%d %b %Y %H:%M",
time.localtime())
self.datelabel.setText(date_text)
class ExternalPythonShell(ExternalShellBase):
"""External Shell widget: execute Python script in a separate process"""
SHELL_CLASS = ExtPythonShellWidget
def __init__(self, parent=None, fname=None, wdir=None,
interact=False, debug=False, path=[], python_args='',
ipykernel=False, arguments='', stand_alone=None,
umr_enabled=True, umr_namelist=[], umr_verbose=True,
pythonstartup=None, pythonexecutable=None,
monitor_enabled=True, mpl_backend=None, ets_backend='qt4',
qt_api=None, pyqt_api=0,
ignore_sip_setapi_errors=False, merge_output_channels=False,
colorize_sys_stderr=False, autorefresh_timeout=3000,
autorefresh_state=True, light_background=True,
menu_actions=None, show_buttons_inside=True,
show_elapsed_time=True):
assert qt_api in (None, 'pyqt', 'pyside')
self.namespacebrowser = None # namespace browser widget!
self.dialog_manager = DialogManager()
self.stand_alone = stand_alone # stand alone settings (None: plugin)
self.interact = interact
self.is_ipykernel = ipykernel
self.pythonstartup = pythonstartup
self.pythonexecutable = pythonexecutable
self.monitor_enabled = monitor_enabled
self.mpl_backend = mpl_backend
self.ets_backend = ets_backend
self.qt_api = qt_api
self.pyqt_api = pyqt_api
self.ignore_sip_setapi_errors = ignore_sip_setapi_errors
self.merge_output_channels = merge_output_channels
self.colorize_sys_stderr = colorize_sys_stderr
self.umr_enabled = umr_enabled
self.umr_namelist = umr_namelist
self.umr_verbose = umr_verbose
self.autorefresh_timeout = autorefresh_timeout
self.autorefresh_state = autorefresh_state
self.namespacebrowser_button = None
self.cwd_button = None
self.env_button = None
self.syspath_button = None
self.terminate_button = None
self.notification_thread = None
ExternalShellBase.__init__(self, parent=parent, fname=fname, wdir=wdir,
history_filename='history.py',
light_background=light_background,
menu_actions=menu_actions,
show_buttons_inside=show_buttons_inside,
show_elapsed_time=show_elapsed_time)
if self.pythonexecutable is None:
self.pythonexecutable = get_python_executable()
self.python_args = None
if python_args:
assert is_text_string(python_args)
self.python_args = python_args
assert is_text_string(arguments)
self.arguments = arguments
self.connection_file = None
if self.is_ipykernel:
self.interact = False
# Running our custom startup script for IPython kernels:
# (see spyderlib/widgets/externalshell/start_ipython_kernel.py)
self.fname = get_module_source_path(
'spyderlib.widgets.externalshell', 'start_ipython_kernel.py')
self.shell.set_externalshell(self)
self.toggle_globals_explorer(False)
self.interact_action.setChecked(self.interact)
self.debug_action.setChecked(debug)
self.introspection_socket = None
self.is_interpreter = fname is None
if self.is_interpreter:
self.terminate_button.hide()
# Additional python path list
self.path = path
self.shell.path = path
def set_introspection_socket(self, introspection_socket):
self.introspection_socket = introspection_socket
if self.namespacebrowser is not None:
settings = self.namespacebrowser.get_view_settings()
communicate(introspection_socket,
'set_remote_view_settings()', settings=[settings])
def set_autorefresh_timeout(self, interval):
if self.introspection_socket is not None:
try:
communicate(self.introspection_socket,
"set_monitor_timeout(%d)" % interval)
except socket.error:
pass
def closeEvent(self, event):
self.quit_monitor()
ExternalShellBase.closeEvent(self, event)
def get_toolbar_buttons(self):
ExternalShellBase.get_toolbar_buttons(self)
if self.namespacebrowser_button is None \
and self.stand_alone is not None:
self.namespacebrowser_button = create_toolbutton(self,
text=_("Variables"), icon=get_icon('dictedit.png'),
tip=_("Show/hide global variables explorer"),
toggled=self.toggle_globals_explorer, text_beside_icon=True)
if self.terminate_button is None:
self.terminate_button = create_toolbutton(self,
text=_("Terminate"), icon=get_icon('stop.png'),
tip=_("Attempts to stop the process. The process\n"
"may not exit as a result of clicking this\n"
"button (it is given the chance to prompt\n"
"the user for any unsaved files, etc)."))
buttons = []
if self.namespacebrowser_button is not None:
buttons.append(self.namespacebrowser_button)
buttons += [self.run_button, self.terminate_button, self.kill_button,
self.options_button]
return buttons
def get_options_menu(self):
ExternalShellBase.get_options_menu(self)
self.interact_action = create_action(self, _("Interact"))
self.interact_action.setCheckable(True)
self.debug_action = create_action(self, _("Debug"))
self.debug_action.setCheckable(True)
self.args_action = create_action(self, _("Arguments..."),
triggered=self.get_arguments)
run_settings_menu = QMenu(_("Run settings"), self)
add_actions(run_settings_menu,
(self.interact_action, self.debug_action, self.args_action))
self.cwd_button = create_action(self, _("Working directory"),
icon=get_std_icon('DirOpenIcon'),
tip=_("Set current working directory"),
triggered=self.set_current_working_directory)
self.env_button = create_action(self, _("Environment variables"),
icon=get_icon('environ.png'),
triggered=self.show_env)
self.syspath_button = create_action(self,
_("Show sys.path contents"),
icon=get_icon('syspath.png'),
triggered=self.show_syspath)
actions = [run_settings_menu, self.show_time_action, None,
self.cwd_button, self.env_button, self.syspath_button]
if self.menu_actions is not None:
actions += [None]+self.menu_actions
return actions
def is_interpreter(self):
"""Return True if shellwidget is a Python interpreter"""
return self.is_interpreter
def get_shell_widget(self):
if self.stand_alone is None:
return self.shell
else:
self.namespacebrowser = NamespaceBrowser(self)
settings = self.stand_alone
self.namespacebrowser.set_shellwidget(self)
self.namespacebrowser.setup(**settings)
self.connect(self.namespacebrowser, SIGNAL('collapse()'),
lambda: self.toggle_globals_explorer(False))
# Shell splitter
self.splitter = splitter = QSplitter(Qt.Vertical, self)
self.connect(self.splitter, SIGNAL('splitterMoved(int, int)'),
self.splitter_moved)
splitter.addWidget(self.shell)
splitter.setCollapsible(0, False)
splitter.addWidget(self.namespacebrowser)
splitter.setStretchFactor(0, 1)
splitter.setStretchFactor(1, 0)
splitter.setHandleWidth(5)
splitter.setSizes([2, 1])
return splitter
def get_icon(self):
return get_icon('python.png')
def set_buttons_runnning_state(self, state):
ExternalShellBase.set_buttons_runnning_state(self, state)
self.interact_action.setEnabled(not state and not self.is_interpreter)
self.debug_action.setEnabled(not state and not self.is_interpreter)
self.args_action.setEnabled(not state and not self.is_interpreter)
if state:
if self.arguments:
argstr = _("Arguments: %s") % self.arguments
else:
argstr = _("No argument")
else:
argstr = _("Arguments...")
self.args_action.setText(argstr)
self.terminate_button.setVisible(not self.is_interpreter and state)
if not state:
self.toggle_globals_explorer(False)
for btn in (self.cwd_button, self.env_button, self.syspath_button):
btn.setEnabled(state and self.monitor_enabled)
if self.namespacebrowser_button is not None:
self.namespacebrowser_button.setEnabled(state)
def set_namespacebrowser(self, namespacebrowser):
"""
Set namespace browser *widget*
Note: this method is not used in stand alone mode
"""
self.namespacebrowser = namespacebrowser
self.configure_namespacebrowser()
def configure_namespacebrowser(self):
"""Connect the namespace browser to the notification thread"""
if self.notification_thread is not None:
self.connect(self.notification_thread,
SIGNAL('refresh_namespace_browser()'),
self.namespacebrowser.refresh_table)
signal = self.notification_thread.sig_process_remote_view
signal.connect(lambda data:
self.namespacebrowser.process_remote_view(data))
def create_process(self):
self.shell.clear()
self.process = QProcess(self)
if self.merge_output_channels:
self.process.setProcessChannelMode(QProcess.MergedChannels)
else:
self.process.setProcessChannelMode(QProcess.SeparateChannels)
self.connect(self.shell, SIGNAL("wait_for_ready_read()"),
lambda: self.process.waitForReadyRead(250))
# Working directory
if self.wdir is not None:
self.process.setWorkingDirectory(self.wdir)
#-------------------------Python specific-------------------------------
# Python arguments
p_args = ['-u']
if DEBUG >= 3:
p_args += ['-v']
p_args += get_python_args(self.fname, self.python_args,
self.interact_action.isChecked(),
self.debug_action.isChecked(),
self.arguments)
env = [to_text_string(_path)
for _path in self.process.systemEnvironment()]
if self.pythonstartup:
env.append('PYTHONSTARTUP=%s' % self.pythonstartup)
# Set standard input/output encoding for Python consoles
# (IPython handles it on its own)
# See http://stackoverflow.com/q/26312400/438386, specifically
# the comments of Martijn Pieters
if not self.is_ipykernel:
env.append('PYTHONIOENCODING=UTF-8')
# Monitor
if self.monitor_enabled:
env.append('SPYDER_SHELL_ID=%s' % id(self))
env.append('SPYDER_AR_TIMEOUT=%d' % self.autorefresh_timeout)
env.append('SPYDER_AR_STATE=%r' % self.autorefresh_state)
from spyderlib.widgets.externalshell import introspection
introspection_server = introspection.start_introspection_server()
introspection_server.register(self)
notification_server = introspection.start_notification_server()
self.notification_thread = notification_server.register(self)
self.connect(self.notification_thread, SIGNAL('pdb(QString,int)'),
lambda fname, lineno:
self.emit(SIGNAL('pdb(QString,int)'), fname, lineno))
self.connect(self.notification_thread,
SIGNAL('new_ipython_kernel(QString)'),
lambda args:
self.emit(SIGNAL('create_ipython_client(QString)'),
args))
self.connect(self.notification_thread,
SIGNAL('open_file(QString,int)'),
lambda fname, lineno:
self.emit(SIGNAL('open_file(QString,int)'),
fname, lineno))
if self.namespacebrowser is not None:
self.configure_namespacebrowser()
env.append('SPYDER_I_PORT=%d' % introspection_server.port)
env.append('SPYDER_N_PORT=%d' % notification_server.port)
# External modules options
env.append('ETS_TOOLKIT=%s' % self.ets_backend)
if self.mpl_backend:
env.append('MATPLOTLIB_BACKEND=%s' % self.mpl_backend)
if self.qt_api:
env.append('QT_API=%s' % self.qt_api)
env.append('COLORIZE_SYS_STDERR=%s' % self.colorize_sys_stderr)
# # Socket-based alternative (see input hook in sitecustomize.py):
# if self.install_qt_inputhook:
# from PyQt4.QtNetwork import QLocalServer
# self.local_server = QLocalServer()
# self.local_server.listen(str(id(self)))
if self.pyqt_api:
env.append('PYQT_API=%d' % self.pyqt_api)
env.append('IGNORE_SIP_SETAPI_ERRORS=%s'
% self.ignore_sip_setapi_errors)
# User Module Deleter
if self.is_interpreter:
env.append('UMR_ENABLED=%r' % self.umr_enabled)
env.append('UMR_NAMELIST=%s' % ','.join(self.umr_namelist))
env.append('UMR_VERBOSE=%r' % self.umr_verbose)
env.append('MATPLOTLIB_ION=True')
else:
if self.interact:
env.append('MATPLOTLIB_ION=True')
else:
env.append('MATPLOTLIB_ION=False')
# IPython kernel
env.append('IPYTHON_KERNEL=%r' % self.is_ipykernel)
# Add sitecustomize path to path list
pathlist = []
scpath = osp.dirname(osp.abspath(__file__))
pathlist.append(scpath)
# Adding Spyder path
pathlist += self.path
# Adding path list to PYTHONPATH environment variable
add_pathlist_to_PYTHONPATH(env, pathlist)
#-------------------------Python specific-------------------------------
self.connect(self.process, SIGNAL("readyReadStandardOutput()"),
self.write_output)
self.connect(self.process, SIGNAL("readyReadStandardError()"),
self.write_error)
self.connect(self.process, SIGNAL("finished(int,QProcess::ExitStatus)"),
self.finished)
self.connect(self, SIGNAL('finished()'), self.dialog_manager.close_all)
self.connect(self.terminate_button, SIGNAL("clicked()"),
self.process.terminate)
self.connect(self.kill_button, SIGNAL("clicked()"),
self.process.kill)
#-------------------------Python specific-------------------------------
# Fixes for our Mac app:
# 1. PYTHONPATH and PYTHONHOME are set while bootstrapping the app,
# but their values are messing sys.path for external interpreters
# (e.g. EPD) so we need to remove them from the environment.
# 2. Set PYTHONPATH again but without grabbing entries defined in the
# environment (Fixes Issue 1321)
# 3. Remove PYTHONOPTIMIZE from env so that we can have assert
# statements working with our interpreters (See Issue 1281)
if running_in_mac_app():
env.append('SPYDER_INTERPRETER=%s' % self.pythonexecutable)
if MAC_APP_NAME not in self.pythonexecutable:
env = [p for p in env if not (p.startswith('PYTHONPATH') or \
p.startswith('PYTHONHOME'))] # 1.
add_pathlist_to_PYTHONPATH(env, pathlist, drop_env=True) # 2.
env = [p for p in env if not p.startswith('PYTHONOPTIMIZE')] # 3.
self.process.setEnvironment(env)
self.process.start(self.pythonexecutable, p_args)
#-------------------------Python specific-------------------------------
running = self.process.waitForStarted(3000)
self.set_running_state(running)
if not running:
if self.is_ipykernel:
self.emit(SIGNAL("ipython_kernel_start_error(QString)"),
_("The kernel failed to start!! That's all we know... "
"Please close this console and open a new one."))
else:
QMessageBox.critical(self, _("Error"),
_("A Python console failed to start!"))
else:
self.shell.setFocus()
self.emit(SIGNAL('started()'))
return self.process
def finished(self, exit_code, exit_status):
"""Reimplement ExternalShellBase method"""
if self.is_ipykernel and exit_code == 1:
self.emit(SIGNAL("ipython_kernel_start_error(QString)"),
self.shell.get_text_with_eol())
ExternalShellBase.finished(self, exit_code, exit_status)
self.introspection_socket = None
#===============================================================================
# Input/Output
#===============================================================================
def write_error(self):
if os.name == 'nt':
#---This is apparently necessary only on Windows (not sure though):
# emptying standard output buffer before writing error output
self.process.setReadChannel(QProcess.StandardOutput)
if self.process.waitForReadyRead(1):
self.write_output()
self.shell.write_error(self.get_stderr())
QApplication.processEvents()
def send_to_process(self, text):
if not self.is_running():
return
if not is_text_string(text):
text = to_text_string(text)
if self.mpl_backend == 'Qt4Agg' and os.name == 'nt' and \
self.introspection_socket is not None:
communicate(self.introspection_socket,
"toggle_inputhook_flag(True)")
# # Socket-based alternative (see input hook in sitecustomize.py):
# while self.local_server.hasPendingConnections():
# self.local_server.nextPendingConnection().write('go!')
if any([text == cmd for cmd in ['%ls', '%pwd', '%scientific']]) or \
any([text.startswith(cmd) for cmd in ['%cd ', '%clear ']]):
text = 'evalsc(r"%s")\n' % text
if not text.endswith('\n'):
text += '\n'
self.process.write(to_binary_string(text, 'utf8'))
self.process.waitForBytesWritten(-1)
# Eventually write prompt faster (when hitting Enter continuously)
# -- necessary/working on Windows only:
if os.name == 'nt':
self.write_error()
def keyboard_interrupt(self):
if self.introspection_socket is not None:
communicate(self.introspection_socket, "thread.interrupt_main()")
def quit_monitor(self):
if self.introspection_socket is not None:
try:
write_packet(self.introspection_socket, "thread.exit()")
except socket.error:
pass
#===============================================================================
# Globals explorer
#===============================================================================
def toggle_globals_explorer(self, state):
if self.stand_alone is not None:
self.splitter.setSizes([1, 1 if state else 0])
self.namespacebrowser_button.setChecked(state)
if state and self.namespacebrowser is not None:
self.namespacebrowser.refresh_table()
def splitter_moved(self, pos, index):
self.namespacebrowser_button.setChecked( self.splitter.sizes()[1] )
#===============================================================================
# Misc.
#===============================================================================
def set_current_working_directory(self):
"""Set current working directory"""
cwd = self.shell.get_cwd()
self.emit(SIGNAL('redirect_stdio(bool)'), False)
directory = getexistingdirectory(self, _("Select directory"), cwd)
if directory:
self.shell.set_cwd(directory)
self.emit(SIGNAL('redirect_stdio(bool)'), True)
def show_env(self):
"""Show environment variables"""
get_func = self.shell.get_env
set_func = self.shell.set_env
self.dialog_manager.show(RemoteEnvDialog(get_func, set_func))
def show_syspath(self):
"""Show sys.path contents"""
editor = DictEditor()
editor.setup(self.shell.get_syspath(), title="sys.path", readonly=True,
width=600, icon='syspath.png')
self.dialog_manager.show(editor)
class ExternalPythonShell(ExternalShellBase):
"""External Shell widget: execute Python script in a separate process"""
SHELL_CLASS = ExtPythonShellWidget
def __init__(self, parent=None, fname=None, wdir=None,
interact=False, debug=False, path=[], python_args='',
ipython_shell=False, ipython_kernel=False,
arguments='', stand_alone=None,
umd_enabled=True, umd_namelist=[], umd_verbose=True,
pythonstartup=None, pythonexecutable=None,
monitor_enabled=True, mpl_patch_enabled=True,
mpl_backend=None, ets_backend='qt4', qt_api=None, pyqt_api=0,
install_qt_inputhook=True, ignore_sip_setapi_errors=False,
merge_output_channels=False, colorize_sys_stderr=False,
autorefresh_timeout=3000, autorefresh_state=True,
light_background=True, menu_actions=None,
show_buttons_inside=True, show_elapsed_time=True):
assert qt_api in (None, 'pyqt', 'pyside')
self.namespacebrowser = None # namespace browser widget!
self.dialog_manager = DialogManager()
self.stand_alone = stand_alone # stand alone settings (None: plugin)
self.pythonstartup = pythonstartup
self.pythonexecutable = pythonexecutable
self.monitor_enabled = monitor_enabled
self.mpl_patch_enabled = mpl_patch_enabled
self.mpl_backend = mpl_backend
self.ets_backend = ets_backend
self.qt_api = qt_api
self.pyqt_api = pyqt_api
self.install_qt_inputhook = install_qt_inputhook
self.ignore_sip_setapi_errors = ignore_sip_setapi_errors
self.merge_output_channels = merge_output_channels
self.colorize_sys_stderr = colorize_sys_stderr
self.umd_enabled = umd_enabled
self.umd_namelist = umd_namelist
self.umd_verbose = umd_verbose
self.autorefresh_timeout = autorefresh_timeout
self.autorefresh_state = autorefresh_state
self.namespacebrowser_button = None
self.cwd_button = None
self.env_button = None
self.syspath_button = None
self.terminate_button = None
self.notification_thread = None
ExternalShellBase.__init__(self, parent, wdir,
history_filename='.history.py',
light_background=light_background,
menu_actions=menu_actions,
show_buttons_inside=show_buttons_inside,
show_elapsed_time=show_elapsed_time)
self.python_args = None
if python_args:
assert isinstance(python_args, basestring)
self.python_args = python_args
assert isinstance(arguments, basestring)
self.arguments = arguments
self.is_ipython_shell = ipython_shell
self.is_ipython_kernel = ipython_kernel
if self.is_ipython_shell or self.is_ipython_kernel:
interact = False
# Running our custom startup script for IPython sessions:
# (see spyderlib/widgets/externalshell/startup.py)
self.fname = get_module_source_path(
'spyderlib.widgets.externalshell', 'startup.py')
else:
self.fname = fname
self.shell.set_externalshell(self)
self.toggle_globals_explorer(False)
self.interact_action.setChecked(interact)
self.debug_action.setChecked(debug)
self.introspection_socket = None
self.is_interpreter = fname is None
if self.is_interpreter:
self.terminate_button.hide()
# Additional python path list
self.path = path
def set_introspection_socket(self, introspection_socket):
self.introspection_socket = introspection_socket
if self.namespacebrowser is not None:
settings = self.namespacebrowser.get_view_settings()
communicate(introspection_socket,
'set_remote_view_settings()', settings=[settings])
def set_autorefresh_timeout(self, interval):
if self.introspection_socket is not None:
try:
communicate(self.introspection_socket,
"set_monitor_timeout(%d)" % interval)
except socket.error:
pass
def closeEvent(self, event):
self.quit_monitor()
ExternalShellBase.closeEvent(self, event)
def get_toolbar_buttons(self):
ExternalShellBase.get_toolbar_buttons(self)
if self.namespacebrowser_button is None \
and self.stand_alone is not None:
self.namespacebrowser_button = create_toolbutton(self,
text=_("Variables"), icon=get_icon('dictedit.png'),
tip=_("Show/hide global variables explorer"),
toggled=self.toggle_globals_explorer, text_beside_icon=True)
if self.terminate_button is None:
self.terminate_button = create_toolbutton(self,
text=_("Terminate"), icon=get_icon('terminate.png'),
tip=_("""Attempts to terminate the process.
The process may not exit as a result of clicking this button
(it is given the chance to prompt the user for any unsaved files, etc)."""))
buttons = []
if self.namespacebrowser_button is not None:
buttons.append(self.namespacebrowser_button)
buttons += [self.run_button, self.options_button,
self.terminate_button, self.kill_button]
return buttons
def get_options_menu(self):
ExternalShellBase.get_options_menu(self)
self.interact_action = create_action(self, _("Interact"))
self.interact_action.setCheckable(True)
self.debug_action = create_action(self, _("Debug"))
self.debug_action.setCheckable(True)
self.args_action = create_action(self, _("Arguments..."),
triggered=self.get_arguments)
run_settings_menu = QMenu(_("Run settings"), self)
add_actions(run_settings_menu,
(self.interact_action, self.debug_action, self.args_action))
self.cwd_button = create_action(self, _("Working directory"),
icon=get_std_icon('DirOpenIcon'),
tip=_("Set current working directory"),
triggered=self.set_current_working_directory)
self.env_button = create_action(self, _("Environment variables"),
icon=get_icon('environ.png'),
triggered=self.show_env)
self.syspath_button = create_action(self,
_("Show sys.path contents"),
icon=get_icon('syspath.png'),
triggered=self.show_syspath)
actions = [run_settings_menu, self.show_time_action, None,
self.cwd_button, self.env_button, self.syspath_button]
if self.menu_actions is not None:
actions += [None]+self.menu_actions
return actions
def is_interpreter(self):
"""Return True if shellwidget is a Python/IPython interpreter"""
return self.is_interpreter
def get_shell_widget(self):
if self.stand_alone is None:
return self.shell
else:
self.namespacebrowser = NamespaceBrowser(self)
settings = self.stand_alone
self.namespacebrowser.set_shellwidget(self)
self.namespacebrowser.setup(**settings)
self.connect(self.namespacebrowser, SIGNAL('collapse()'),
lambda: self.toggle_globals_explorer(False))
# Shell splitter
self.splitter = splitter = QSplitter(Qt.Vertical, self)
self.connect(self.splitter, SIGNAL('splitterMoved(int, int)'),
self.splitter_moved)
splitter.addWidget(self.shell)
splitter.setCollapsible(0, False)
splitter.addWidget(self.namespacebrowser)
splitter.setStretchFactor(0, 1)
splitter.setStretchFactor(1, 0)
splitter.setHandleWidth(5)
splitter.setSizes([2, 1])
return splitter
def get_icon(self):
return get_icon('python.png')
def set_buttons_runnning_state(self, state):
ExternalShellBase.set_buttons_runnning_state(self, state)
self.interact_action.setEnabled(not state and not self.is_interpreter)
self.debug_action.setEnabled(not state and not self.is_interpreter)
self.args_action.setEnabled(not state and
(not self.is_interpreter or\
self.is_ipython_shell))
if state:
if self.arguments:
argstr = _("Arguments: %s") % self.arguments
else:
argstr = _("No argument")
else:
argstr = _("Arguments...")
self.args_action.setText(argstr)
self.terminate_button.setVisible(not self.is_interpreter and state)
if not state:
self.toggle_globals_explorer(False)
for btn in (self.cwd_button, self.env_button, self.syspath_button):
btn.setEnabled(state and self.monitor_enabled)
if self.namespacebrowser_button is not None:
self.namespacebrowser_button.setEnabled(state)
def set_namespacebrowser(self, namespacebrowser):
"""
Set namespace browser *widget*
Note: this method is not used in stand alone mode
"""
self.namespacebrowser = namespacebrowser
self.configure_namespacebrowser()
def configure_namespacebrowser(self):
"""Connect the namespace browser to the notification thread"""
if self.notification_thread is not None:
self.connect(self.notification_thread,
SIGNAL('refresh_namespace_browser()'),
self.namespacebrowser.refresh_table)
signal = self.notification_thread.sig_process_remote_view
signal.connect(self.namespacebrowser.process_remote_view)
def create_process(self):
self.shell.clear()
self.process = QProcess(self)
if self.merge_output_channels or self.is_ipython_shell:
self.process.setProcessChannelMode(QProcess.MergedChannels)
else:
self.process.setProcessChannelMode(QProcess.SeparateChannels)
self.connect(self.shell, SIGNAL("wait_for_ready_read()"),
lambda: self.process.waitForReadyRead(250))
# Working directory
if self.wdir is not None:
self.process.setWorkingDirectory(self.wdir)
#-------------------------Python specific-------------------------------
# Python arguments
p_args = ['-u'] + get_python_args(self.fname, self.python_args,
self.interact_action.isChecked(),
self.debug_action.isChecked(),
self.arguments)
env = [unicode(_path) for _path in self.process.systemEnvironment()]
if self.pythonstartup:
env.append('PYTHONSTARTUP=%s' % self.pythonstartup)
# Monitor
if self.monitor_enabled:
env.append('SPYDER_SHELL_ID=%s' % id(self))
env.append('SPYDER_AR_TIMEOUT=%d' % self.autorefresh_timeout)
env.append('SPYDER_AR_STATE=%r' % self.autorefresh_state)
from spyderlib.widgets.externalshell import introspection
introspection_server = introspection.start_introspection_server()
introspection_server.register(self)
notification_server = introspection.start_notification_server()
self.notification_thread = notification_server.register(self)
self.connect(self.notification_thread, SIGNAL('pdb(QString,int)'),
lambda fname, lineno:
self.emit(SIGNAL('pdb(QString,int)'), fname, lineno))
self.connect(self.notification_thread,
SIGNAL('new_ipython_kernel(QString)'),
lambda args:
self.emit(SIGNAL('create_ipython_frontend(QString)'),
args))
self.connect(self.notification_thread,
SIGNAL('open_file(QString,int)'),
lambda fname, lineno:
self.emit(SIGNAL('open_file(QString,int)'),
fname, lineno))
if self.namespacebrowser is not None:
self.configure_namespacebrowser()
env.append('SPYDER_I_PORT=%d' % introspection_server.port)
env.append('SPYDER_N_PORT=%d' % notification_server.port)
# External modules options
env.append('ETS_TOOLKIT=%s' % self.ets_backend)
env.append('MATPLOTLIB_PATCH=%r' % self.mpl_patch_enabled)
if self.mpl_backend:
env.append('MATPLOTLIB_BACKEND=%s' % self.mpl_backend)
if self.qt_api:
env.append('QT_API=%s' % self.qt_api)
env.append('INSTALL_QT_INPUTHOOK=%s' % self.install_qt_inputhook)
env.append('COLORIZE_SYS_STDERR=%s' % self.colorize_sys_stderr)
# # Socket-based alternative (see input hook in sitecustomize.py):
# if self.install_qt_inputhook:
# from PyQt4.QtNetwork import QLocalServer
# self.local_server = QLocalServer()
# self.local_server.listen(str(id(self)))
if self.pyqt_api:
env.append('PYQT_API=%d' % self.pyqt_api)
env.append('IGNORE_SIP_SETAPI_ERRORS=%s'
% self.ignore_sip_setapi_errors)
# User Module Deleter
if self.is_interpreter:
env.append('UMD_ENABLED=%r' % self.umd_enabled)
env.append('UMD_NAMELIST=%s' % ','.join(self.umd_namelist))
env.append('UMD_VERBOSE=%r' % self.umd_verbose)
# IPython related configuration
if self.is_ipython_shell:
env.append('IPYTHON=True')
# Do not call msvcrt.getch in IPython.genutils.page_more:
env.append('TERM=emacs')
elif self.is_ipython_kernel:
env.append('IPYTHON_KERNEL=True')
pathlist = []
# Fix encoding with custom "sitecustomize.py"
scpath = osp.dirname(osp.abspath(__file__))
pathlist.append(scpath)
# Adding Spyder path
pathlist += self.path
# Adding path list to PYTHONPATH environment variable
add_pathlist_to_PYTHONPATH(env, pathlist)
self.process.setEnvironment(env)
#-------------------------Python specific-------------------------------
self.connect(self.process, SIGNAL("readyReadStandardOutput()"),
self.write_output)
self.connect(self.process, SIGNAL("readyReadStandardError()"),
self.write_error)
self.connect(self.process, SIGNAL("finished(int,QProcess::ExitStatus)"),
self.finished)
self.connect(self, SIGNAL('finished()'), self.dialog_manager.close_all)
self.connect(self.terminate_button, SIGNAL("clicked()"),
self.process.terminate)
self.connect(self.kill_button, SIGNAL("clicked()"),
self.process.kill)
#-------------------------Python specific-------------------------------
executable = self.pythonexecutable
if executable is None:
executable = get_python_executable()
self.process.start(executable, p_args)
#-------------------------Python specific-------------------------------
running = self.process.waitForStarted()
self.set_running_state(running)
if not running:
QMessageBox.critical(self, _("Error"),
_("Process failed to start"))
else:
self.shell.setFocus()
self.emit(SIGNAL('started()'))
return self.process
#===============================================================================
# Input/Output
#===============================================================================
def write_error(self):
if os.name == 'nt':
#---This is apparently necessary only on Windows (not sure though):
# emptying standard output buffer before writing error output
self.process.setReadChannel(QProcess.StandardOutput)
if self.process.waitForReadyRead(1):
self.write_output()
self.shell.write_error(self.get_stderr())
QApplication.processEvents()
def send_to_process(self, text):
if not isinstance(text, basestring):
text = unicode(text)
if self.install_qt_inputhook and not self.is_ipython_shell:
# For now, the Spyder's input hook does not work with IPython:
# with IPython v0.10 or non-Windows platforms, this is not a
# problem. However, with IPython v0.11 on Windows, this will be
# fixed by patching IPython to force it to use our inputhook.
communicate(self.introspection_socket,
"toggle_inputhook_flag(True)")
# # Socket-based alternative (see input hook in sitecustomize.py):
# while self.local_server.hasPendingConnections():
# self.local_server.nextPendingConnection().write('go!')
if not self.is_ipython_shell and text.startswith(('%', '!')):
text = 'evalsc(r"%s")\n' % text
if not text.endswith('\n'):
text += '\n'
self.process.write(locale_codec.fromUnicode(text))
self.process.waitForBytesWritten(-1)
# Eventually write prompt faster (when hitting Enter continuously)
# -- necessary/working on Windows only:
if os.name == 'nt':
self.write_error()
def keyboard_interrupt(self):
if self.introspection_socket is not None:
communicate(self.introspection_socket, "thread.interrupt_main()")
def quit_monitor(self):
if self.introspection_socket is not None:
try:
write_packet(self.introspection_socket, "thread.exit()")
except socket.error:
pass
#===============================================================================
# Globals explorer
#===============================================================================
def toggle_globals_explorer(self, state):
if self.stand_alone is not None:
self.splitter.setSizes([1, 1 if state else 0])
self.namespacebrowser_button.setChecked(state)
if state and self.namespacebrowser is not None:
self.namespacebrowser.refresh_table()
def splitter_moved(self, pos, index):
self.namespacebrowser_button.setChecked( self.splitter.sizes()[1] )
#===============================================================================
# Misc.
#===============================================================================
def set_current_working_directory(self):
"""Set current working directory"""
cwd = self.shell.get_cwd()
self.emit(SIGNAL('redirect_stdio(bool)'), False)
directory = getexistingdirectory(self, _("Select directory"), cwd)
if directory:
self.shell.set_cwd(directory)
self.emit(SIGNAL('redirect_stdio(bool)'), True)
def show_env(self):
"""Show environment variables"""
get_func = self.shell.get_env
set_func = self.shell.set_env
self.dialog_manager.show(RemoteEnvDialog(get_func, set_func))
def show_syspath(self):
"""Show sys.path contents"""
editor = DictEditor()
editor.setup(self.shell.get_syspath(), title="sys.path", readonly=True,
width=600, icon='syspath.png')
self.dialog_manager.show(editor)