bindings/interface/SBEventDocstrings.i - llvm-project/lldb - Git at Google

 %feature("docstring",
 "API clients can register to receive events.

 For example, check out the following output: ::

     Try wait for event...
     Event description: 0x103d0bb70 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = running}
     Event data flavor: Process::ProcessEventData
     Process state: running

     Try wait for event...
     Event description: 0x103a700a0 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = stopped}
     Event data flavor: Process::ProcessEventData
     Process state: stopped

     Try wait for event...
     Event description: 0x103d0d4a0 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = exited}
     Event data flavor: Process::ProcessEventData
     Process state: exited

     Try wait for event...
     timeout occurred waiting for event...

 from test/python_api/event/TestEventspy: ::

     def do_listen_for_and_print_event(self):
         '''Create a listener and use SBEvent API to print the events received.'''
         exe = os.path.join(os.getcwd(), 'a.out')

         # Create a target by the debugger.
         target = self.dbg.CreateTarget(exe)
         self.assertTrue(target, VALID_TARGET)

         # Now create a breakpoint on main.c by name 'c'.
         breakpoint = target.BreakpointCreateByName('c', 'a.out')

         # Now launch the process, and do not stop at the entry point.
         process = target.LaunchSimple(None, None, os.getcwd())
         self.assertTrue(process.GetState() == lldb.eStateStopped,
                         PROCESS_STOPPED)

         # Get a handle on the process's broadcaster.
         broadcaster = process.GetBroadcaster()

         # Create an empty event object.
         event = lldb.SBEvent()

         # Create a listener object and register with the broadcaster.
         listener = lldb.SBListener('my listener')
         rc = broadcaster.AddListener(listener, lldb.SBProcess.eBroadcastBitStateChanged)
         self.assertTrue(rc, 'AddListener successfully retruns')

         traceOn = self.TraceOn()
         if traceOn:
             lldbutil.print_stacktraces(process)

         # Create MyListeningThread class to wait for any kind of event.
         import threading
         class MyListeningThread(threading.Thread):
             def run(self):
                 count = 0
                 # Let's only try at most 4 times to retrieve any kind of event.
                 # After that, the thread exits.
                 while not count > 3:
                     if traceOn:
                         print('Try wait for event...')
                     if listener.WaitForEventForBroadcasterWithType(5,
                                                                    broadcaster,
                                                                    lldb.SBProcess.eBroadcastBitStateChanged,
                                                                    event):
                         if traceOn:
                             desc = lldbutil.get_description(event))
                             print('Event description:', desc)
                             print('Event data flavor:', event.GetDataFlavor())
                             print('Process state:', lldbutil.state_type_to_str(process.GetState()))
                             print()
                     else:
                         if traceOn:
                             print 'timeout occurred waiting for event...'
                     count = count + 1
                 return

         # Let's start the listening thread to retrieve the events.
         my_thread = MyListeningThread()
         my_thread.start()

         # Use Python API to continue the process.  The listening thread should be
         # able to receive the state changed events.
         process.Continue()

         # Use Python API to kill the process.  The listening thread should be
         # able to receive the state changed event, too.
         process.Kill()

         # Wait until the 'MyListeningThread' terminates.
         my_thread.join()"
 ) lldb::SBEvent;

 %feature("autodoc",
 "__init__(self, int type, str data) -> SBEvent (make an event that contains a C string)"
 ) lldb::SBEvent::SBEvent;
	%feature("docstring",
	"API clients can register to receive events.

	For example, check out the following output: ::

	Try wait for event...
	Event description: 0x103d0bb70 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = running}
	Event data flavor: Process::ProcessEventData
	Process state: running

	Try wait for event...
	Event description: 0x103a700a0 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = stopped}
	Event data flavor: Process::ProcessEventData
	Process state: stopped

	Try wait for event...
	Event description: 0x103d0d4a0 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = exited}
	Event data flavor: Process::ProcessEventData
	Process state: exited

	Try wait for event...
	timeout occurred waiting for event...

	from test/python_api/event/TestEventspy: ::

	def do_listen_for_and_print_event(self):
	'''Create a listener and use SBEvent API to print the events received.'''
	exe = os.path.join(os.getcwd(), 'a.out')

	# Create a target by the debugger.
	target = self.dbg.CreateTarget(exe)
	self.assertTrue(target, VALID_TARGET)

	# Now create a breakpoint on main.c by name 'c'.
	breakpoint = target.BreakpointCreateByName('c', 'a.out')

	# Now launch the process, and do not stop at the entry point.
	process = target.LaunchSimple(None, None, os.getcwd())
	self.assertTrue(process.GetState() == lldb.eStateStopped,
	PROCESS_STOPPED)

	# Get a handle on the process's broadcaster.
	broadcaster = process.GetBroadcaster()

	# Create an empty event object.
	event = lldb.SBEvent()

	# Create a listener object and register with the broadcaster.
	listener = lldb.SBListener('my listener')
	rc = broadcaster.AddListener(listener, lldb.SBProcess.eBroadcastBitStateChanged)
	self.assertTrue(rc, 'AddListener successfully retruns')

	traceOn = self.TraceOn()
	if traceOn:
	lldbutil.print_stacktraces(process)

	# Create MyListeningThread class to wait for any kind of event.
	import threading
	class MyListeningThread(threading.Thread):
	def run(self):
	count = 0
	# Let's only try at most 4 times to retrieve any kind of event.
	# After that, the thread exits.
	while not count > 3:
	if traceOn:
	print('Try wait for event...')
	if listener.WaitForEventForBroadcasterWithType(5,
	broadcaster,
	lldb.SBProcess.eBroadcastBitStateChanged,
	event):
	if traceOn:
	desc = lldbutil.get_description(event))
	print('Event description:', desc)
	print('Event data flavor:', event.GetDataFlavor())
	print('Process state:', lldbutil.state_type_to_str(process.GetState()))
	print()
	else:
	if traceOn:
	print 'timeout occurred waiting for event...'
	count = count + 1
	return

	# Let's start the listening thread to retrieve the events.
	my_thread = MyListeningThread()
	my_thread.start()

	# Use Python API to continue the process. The listening thread should be
	# able to receive the state changed events.
	process.Continue()

	# Use Python API to kill the process. The listening thread should be
	# able to receive the state changed event, too.
	process.Kill()

	# Wait until the 'MyListeningThread' terminates.
	my_thread.join()"
	) lldb::SBEvent;

	%feature("autodoc",
	"__init__(self, int type, str data) -> SBEvent (make an event that contains a C string)"
	) lldb::SBEvent::SBEvent;