Lib/lib-stdwin/mainloop.py - platform/external/python/cpython3 - Gitiles

 # Standard main loop for *all* STDWIN applications.
 # This requires that applications:
 # - register their windows on creation and unregister them when closed
 # - have a 'dispatch' function as a window member


 import stdwin, stdwinq
 from stdwinevents import *


 # List of windows known to the main loop.
 #
 windows = []


 # Last window that ever received an event
 #
 last_window = None


 # Function to register a window.
 #
 def register(win):
 	# First test the dispatch function by passing it a null event --
 	# this catches registration of unconforming windows.
 	win.dispatch((WE_NULL, win, None))
 	if win not in windows:
 		windows.append(win)


 # Function to unregister a window.
 # It is not an error to unregister an already unregistered window
 # (this is useful for cleanup actions).
 #
 def unregister(win):
 	global last_window
 	if win == last_window:
 		last_window = None
 	if win in windows:
 		windows.remove(win) # Not in 0.9.1
 		# 0.9.1 solution:
 		#for i in range(len(windows)):
 		#	if windows[i] = win:
 		#		del windows[i]
 		#		break


 # Interfaces used by WindowSched.
 #
 def countwindows():
 	return len(windows)
 #
 def anywindow():
 	if windows:
 		return windows[0]
 	else:
 		return None


 # NEW: register any number of file descriptors
 #
 fdlist = []
 select_args = None
 select_handlers = None
 #
 def registerfd(fd, mode, handler):
 	if mode not in ('r', 'w', 'x'):
 		raise ValueError, 'mode must be r, w or x'
 	if type(fd) <> type(0):
 		fd = fd.fileno() # If this fails it's not a proper select arg
 	for i in range(len(fdlist)):
 		if fdlist[i][:2] == (fd, mode):
 			raise ValueError, \
 				'(fd, mode) combination already registered'
 	fdlist.append((fd, mode, handler))
 	make_select_args()
 #
 def unregisterfd(fd, *args):
 	if type(fd) <> type(0):
 		fd = fd.fileno() # If this fails it's not a proper select arg
 	args = (fd,) + args
 	n = len(args)
 	for i in range(len(fdlist)):
 		if fdlist[i][:n] == args:
 			del fdlist[i]
 	make_select_args()
 #
 def make_select_args():
 	global select_args, select_handlers
 	rlist, wlist, xlist = [], [], []
 	rhandlers, whandlers, xhandlers = {}, {}, {}
 	for fd, mode, handler in fdlist:
 		if mode == 'r':
 			rlist.append(fd)
 			rhandlers[`fd`] = handler
 		if mode == 'w':
 			wlist.append(fd)
 			whandlers[`fd`] = handler
 		if mode == 'x':
 			xlist.append(fd)
 			xhandlers[`fd`] = handler
 	if rlist or wlist or xlist:
 		select_args = rlist, wlist, xlist
 		select_handlers = rhandlers, whandlers, xhandlers
 	else:
 		select_args = None
 		select_handlers = None
 #
 def do_select():
 	import select
 	reply = apply(select.select, select_args)
 	for mode in 0, 1, 2:
 		list = reply[mode]
 		for fd in list:
 			handler = select_handlers[mode][`fd`]
 			handler(fd, 'rwx'[mode])


 # Event processing main loop.
 # Return when there are no windows left, or when an unhandled
 # exception occurs.  (It is safe to restart the main loop after
 # an unsuccessful exit.)
 # Python's stdwin.getevent() turns WE_COMMAND/WC_CANCEL events
 # into KeyboardInterrupt exceptions; these are turned back in events.
 #
 recursion_level = 0 # Hack to make it reentrant
 def mainloop():
 	global recursion_level
 	recursion_level = recursion_level + 1
 	try:
 		stdwin_select_handler() # Process events already in queue
 		while 1:
 			if windows and not fdlist:
 				while windows and not fdlist:
 					try:
 						event = stdwinq.getevent()
 					except KeyboardInterrupt:
 						event = (WE_COMMAND, \
 							 None, WC_CANCEL)
 					dispatch(event)
 			elif windows and fdlist:
 				fd = stdwin.fileno()
 				if recursion_level == 1:
 				    registerfd(fd, 'r', stdwin_select_handler)
 				try:
 					while windows:
 						do_select()
 						stdwin_select_handler()
 				finally:
 					if recursion_level == 1:
 						unregisterfd(fd)
 			elif fdlist:
 				while fdlist and not windows:
 					do_select()
 			else:
 				break
 	finally:
 		recursion_level = recursion_level - 1


 # Check for events without ever blocking
 #
 def check():
 	stdwin_select_handler()
 	# XXX Should check for socket stuff as well


 # Handle stdwin events until none are left
 #
 def stdwin_select_handler(*args):
 	while 1:
 		try:
 			event = stdwinq.pollevent()
 		except KeyboardInterrupt:
 			event = (WE_COMMAND, None, WC_CANCEL)
 		if event is None:
 			break
 		dispatch(event)


 # Run a modal dialog loop for a window.  The dialog window must have
 # been registered first.  This prohibits most events (except size/draw
 # events) to other windows.  The modal dialog loop ends when the
 # dialog window unregisters itself.
 #
 passthrough = WE_SIZE, WE_DRAW
 beeping = WE_MOUSE_DOWN, WE_COMMAND, WE_CHAR, WE_KEY, WE_CLOSE, WE_MENU
 #
 def modaldialog(window):
 	if window not in windows:
 		raise ValueError, 'modaldialog window not registered'
 	while window in windows:
 		try:
 			event = stdwinq.getevent()
 		except KeyboardInterrupt:
 			event = WE_COMMAND, None, WC_CANCEL
 		etype, ewindow, edetail = event
 		if etype not in passthrough and ewindow <> window:
 			if etype in beeping:
 				stdwin.fleep()
 			continue
 		dispatch(event)


 # Dispatch a single event.
 # Events for the no window in particular are sent to the active window
 # or to the last window that received an event (these hacks are for the
 # WE_LOST_SEL event, which is directed to no particular window).
 # Windows not in the windows list don't get their events:
 # events for such windows are silently ignored.
 #
 def dispatch(event):
 	global last_window
 	if event[1] == None:
 		active = stdwin.getactive()
 		if active: last_window = active
 	else:
 		last_window = event[1]
 	if last_window in windows:
 		last_window.dispatch(event)


 # Dialog base class
 #
 class Dialog:
 	#
 	def __init__(self, title):
 		self.window = stdwin.open(title)
 		self.window.dispatch = self.dispatch
 		register(self.window)
 	#
 	def close(self):
 		unregister(self.window)
 		del self.window.dispatch
 		self.window.close()
 	#
 	def dispatch(self, event):
 		etype, ewindow, edetail = event
 		if etype == WE_CLOSE:
 			self.close()


 # Standard modal dialogs
 # XXX implemented using stdwin dialogs for now
 #
 def askstr(prompt, default):
 	return stdwin.askstr(prompt, default)
 #
 def askync(prompt, yesorno):
 	return stdwin.askync(prompt, yesorno)
 #
 def askfile(prompt, default, new):
 	return stdwin.askfile(prompt, default, new)
 #
 def message(msg):
 	stdwin.message(msg)
	# Standard main loop for all STDWIN applications.
	# This requires that applications:
	# - register their windows on creation and unregister them when closed
	# - have a 'dispatch' function as a window member


	import stdwin, stdwinq
	from stdwinevents import *


	# List of windows known to the main loop.
	#
	windows = []


	# Last window that ever received an event
	#
	last_window = None


	# Function to register a window.
	#
	def register(win):
	# First test the dispatch function by passing it a null event --
	# this catches registration of unconforming windows.
	win.dispatch((WE_NULL, win, None))
	if win not in windows:
	windows.append(win)


	# Function to unregister a window.
	# It is not an error to unregister an already unregistered window
	# (this is useful for cleanup actions).
	#
	def unregister(win):
	global last_window
	if win == last_window:
	last_window = None
	if win in windows:
	windows.remove(win) # Not in 0.9.1
	# 0.9.1 solution:
	#for i in range(len(windows)):
	# if windows[i] = win:
	# del windows[i]
	# break


	# Interfaces used by WindowSched.
	#
	def countwindows():
	return len(windows)
	#
	def anywindow():
	if windows:
	return windows[0]
	else:
	return None


	# NEW: register any number of file descriptors
	#
	fdlist = []
	select_args = None
	select_handlers = None
	#
	def registerfd(fd, mode, handler):
	if mode not in ('r', 'w', 'x'):
	raise ValueError, 'mode must be r, w or x'
	if type(fd) <> type(0):
	fd = fd.fileno() # If this fails it's not a proper select arg
	for i in range(len(fdlist)):
	if fdlist[i][:2] == (fd, mode):
	raise ValueError, \
	'(fd, mode) combination already registered'
	fdlist.append((fd, mode, handler))
	make_select_args()
	#
	def unregisterfd(fd, *args):
	if type(fd) <> type(0):
	fd = fd.fileno() # If this fails it's not a proper select arg
	args = (fd,) + args
	n = len(args)
	for i in range(len(fdlist)):
	if fdlist[i][:n] == args:
	del fdlist[i]
	make_select_args()
	#
	def make_select_args():
	global select_args, select_handlers
	rlist, wlist, xlist = [], [], []
	rhandlers, whandlers, xhandlers = {}, {}, {}
	for fd, mode, handler in fdlist:
	if mode == 'r':
	rlist.append(fd)
	rhandlers[`fd`] = handler
	if mode == 'w':
	wlist.append(fd)
	whandlers[`fd`] = handler
	if mode == 'x':
	xlist.append(fd)
	xhandlers[`fd`] = handler
	if rlist or wlist or xlist:
	select_args = rlist, wlist, xlist
	select_handlers = rhandlers, whandlers, xhandlers
	else:
	select_args = None
	select_handlers = None
	#
	def do_select():
	import select
	reply = apply(select.select, select_args)
	for mode in 0, 1, 2:
	list = reply[mode]
	for fd in list:
	handler = select_handlers[mode][`fd`]
	handler(fd, 'rwx'[mode])


	# Event processing main loop.
	# Return when there are no windows left, or when an unhandled
	# exception occurs. (It is safe to restart the main loop after
	# an unsuccessful exit.)
	# Python's stdwin.getevent() turns WE_COMMAND/WC_CANCEL events
	# into KeyboardInterrupt exceptions; these are turned back in events.
	#
	recursion_level = 0 # Hack to make it reentrant
	def mainloop():
	global recursion_level
	recursion_level = recursion_level + 1
	try:
	stdwin_select_handler() # Process events already in queue
	while 1:
	if windows and not fdlist:
	while windows and not fdlist:
	try:
	event = stdwinq.getevent()
	except KeyboardInterrupt:
	event = (WE_COMMAND, \
	None, WC_CANCEL)
	dispatch(event)
	elif windows and fdlist:
	fd = stdwin.fileno()
	if recursion_level == 1:
	registerfd(fd, 'r', stdwin_select_handler)
	try:
	while windows:
	do_select()
	stdwin_select_handler()
	finally:
	if recursion_level == 1:
	unregisterfd(fd)
	elif fdlist:
	while fdlist and not windows:
	do_select()
	else:
	break
	finally:
	recursion_level = recursion_level - 1


	# Check for events without ever blocking
	#
	def check():
	stdwin_select_handler()
	# XXX Should check for socket stuff as well


	# Handle stdwin events until none are left
	#
	def stdwin_select_handler(*args):
	while 1:
	try:
	event = stdwinq.pollevent()
	except KeyboardInterrupt:
	event = (WE_COMMAND, None, WC_CANCEL)
	if event is None:
	break
	dispatch(event)


	# Run a modal dialog loop for a window. The dialog window must have
	# been registered first. This prohibits most events (except size/draw
	# events) to other windows. The modal dialog loop ends when the
	# dialog window unregisters itself.
	#
	passthrough = WE_SIZE, WE_DRAW
	beeping = WE_MOUSE_DOWN, WE_COMMAND, WE_CHAR, WE_KEY, WE_CLOSE, WE_MENU
	#
	def modaldialog(window):
	if window not in windows:
	raise ValueError, 'modaldialog window not registered'
	while window in windows:
	try:
	event = stdwinq.getevent()
	except KeyboardInterrupt:
	event = WE_COMMAND, None, WC_CANCEL
	etype, ewindow, edetail = event
	if etype not in passthrough and ewindow <> window:
	if etype in beeping:
	stdwin.fleep()
	continue
	dispatch(event)


	# Dispatch a single event.
	# Events for the no window in particular are sent to the active window
	# or to the last window that received an event (these hacks are for the
	# WE_LOST_SEL event, which is directed to no particular window).
	# Windows not in the windows list don't get their events:
	# events for such windows are silently ignored.
	#
	def dispatch(event):
	global last_window
	if event[1] == None:
	active = stdwin.getactive()
	if active: last_window = active
	else:
	last_window = event[1]
	if last_window in windows:
	last_window.dispatch(event)


	# Dialog base class
	#
	class Dialog:
	#
	def __init__(self, title):
	self.window = stdwin.open(title)
	self.window.dispatch = self.dispatch
	register(self.window)
	#
	def close(self):
	unregister(self.window)
	del self.window.dispatch
	self.window.close()
	#
	def dispatch(self, event):
	etype, ewindow, edetail = event
	if etype == WE_CLOSE:
	self.close()


	# Standard modal dialogs
	# XXX implemented using stdwin dialogs for now
	#
	def askstr(prompt, default):
	return stdwin.askstr(prompt, default)
	#
	def askync(prompt, yesorno):
	return stdwin.askync(prompt, yesorno)
	#
	def askfile(prompt, default, new):
	return stdwin.askfile(prompt, default, new)
	#
	def message(msg):
	stdwin.message(msg)