# 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)