""" An auto-completion window for IDLE, used by the autocomplete extension """ import platform from tkinter import * from tkinter.ttk import Scrollbar from idlelib.autocomplete import FILES, ATTRS from idlelib.multicall import MC_SHIFT HIDE_VIRTUAL_EVENT_NAME = "<>" HIDE_FOCUS_OUT_SEQUENCE = "" HIDE_SEQUENCES = (HIDE_FOCUS_OUT_SEQUENCE, "") KEYPRESS_VIRTUAL_EVENT_NAME = "<>" # We need to bind event beyond so that the function will be called # before the default specific IDLE function KEYPRESS_SEQUENCES = ("", "", "", "", "", "", "", "", "", "", "") KEYRELEASE_VIRTUAL_EVENT_NAME = "<>" KEYRELEASE_SEQUENCE = "" LISTUPDATE_SEQUENCE = "" WINCONFIG_SEQUENCE = "" DOUBLECLICK_SEQUENCE = "" class AutoCompleteWindow: def __init__(self, widget, tags): # The widget (Text) on which we place the AutoCompleteWindow self.widget = widget # Tags to mark inserted text with self.tags = tags # The widgets we create self.autocompletewindow = self.listbox = self.scrollbar = None # The default foreground and background of a selection. Saved because # they are changed to the regular colors of list items when the # completion start is not a prefix of the selected completion self.origselforeground = self.origselbackground = None # The list of completions self.completions = None # A list with more completions, or None self.morecompletions = None # The completion mode, either autocomplete.ATTRS or .FILES. self.mode = None # The current completion start, on the text box (a string) self.start = None # The index of the start of the completion self.startindex = None # The last typed start, used so that when the selection changes, # the new start will be as close as possible to the last typed one. self.lasttypedstart = None # Do we have an indication that the user wants the completion window # (for example, he clicked the list) self.userwantswindow = None # event ids self.hideid = self.keypressid = self.listupdateid = \ self.winconfigid = self.keyreleaseid = self.doubleclickid = None # Flag set if last keypress was a tab self.lastkey_was_tab = False # Flag set to avoid recursive callback invocations. self.is_configuring = False def _change_start(self, newstart): min_len = min(len(self.start), len(newstart)) i = 0 while i < min_len and self.start[i] == newstart[i]: i += 1 if i < len(self.start): self.widget.delete("%s+%dc" % (self.startindex, i), "%s+%dc" % (self.startindex, len(self.start))) if i < len(newstart): self.widget.insert("%s+%dc" % (self.startindex, i), newstart[i:], self.tags) self.start = newstart def _binary_search(self, s): """Find the first index in self.completions where completions[i] is greater or equal to s, or the last index if there is no such. """ i = 0; j = len(self.completions) while j > i: m = (i + j) // 2 if self.completions[m] >= s: j = m else: i = m + 1 return min(i, len(self.completions)-1) def _complete_string(self, s): """Assuming that s is the prefix of a string in self.completions, return the longest string which is a prefix of all the strings which s is a prefix of them. If s is not a prefix of a string, return s. """ first = self._binary_search(s) if self.completions[first][:len(s)] != s: # There is not even one completion which s is a prefix of. return s # Find the end of the range of completions where s is a prefix of. i = first + 1 j = len(self.completions) while j > i: m = (i + j) // 2 if self.completions[m][:len(s)] != s: j = m else: i = m + 1 last = i-1 if first == last: # only one possible completion return self.completions[first] # We should return the maximum prefix of first and last first_comp = self.completions[first] last_comp = self.completions[last] min_len = min(len(first_comp), len(last_comp)) i = len(s) while i < min_len and first_comp[i] == last_comp[i]: i += 1 return first_comp[:i] def _selection_changed(self): """Call when the selection of the Listbox has changed. Updates the Listbox display and calls _change_start. """ cursel = int(self.listbox.curselection()[0]) self.listbox.see(cursel) lts = self.lasttypedstart selstart = self.completions[cursel] if self._binary_search(lts) == cursel: newstart = lts else: min_len = min(len(lts), len(selstart)) i = 0 while i < min_len and lts[i] == selstart[i]: i += 1 newstart = selstart[:i] self._change_start(newstart) if self.completions[cursel][:len(self.start)] == self.start: # start is a prefix of the selected completion self.listbox.configure(selectbackground=self.origselbackground, selectforeground=self.origselforeground) else: self.listbox.configure(selectbackground=self.listbox.cget("bg"), selectforeground=self.listbox.cget("fg")) # If there are more completions, show them, and call me again. if self.morecompletions: self.completions = self.morecompletions self.morecompletions = None self.listbox.delete(0, END) for item in self.completions: self.listbox.insert(END, item) self.listbox.select_set(self._binary_search(self.start)) self._selection_changed() def show_window(self, comp_lists, index, complete, mode, userWantsWin): """Show the autocomplete list, bind events. If complete is True, complete the text, and if there is exactly one matching completion, don't open a list. """ # Handle the start we already have self.completions, self.morecompletions = comp_lists self.mode = mode self.startindex = self.widget.index(index) self.start = self.widget.get(self.startindex, "insert") if complete: completed = self._complete_string(self.start) start = self.start self._change_start(completed) i = self._binary_search(completed) if self.completions[i] == completed and \ (i == len(self.completions)-1 or self.completions[i+1][:len(completed)] != completed): # There is exactly one matching completion return completed == start self.userwantswindow = userWantsWin self.lasttypedstart = self.start # Put widgets in place self.autocompletewindow = acw = Toplevel(self.widget) # Put it in a position so that it is not seen. acw.wm_geometry("+10000+10000") # Make it float acw.wm_overrideredirect(1) try: # This command is only needed and available on Tk >= 8.4.0 for OSX # Without it, call tips intrude on the typing process by grabbing # the focus. acw.tk.call("::tk::unsupported::MacWindowStyle", "style", acw._w, "help", "noActivates") except TclError: pass self.scrollbar = scrollbar = Scrollbar(acw, orient=VERTICAL) self.listbox = listbox = Listbox(acw, yscrollcommand=scrollbar.set, exportselection=False) for item in self.completions: listbox.insert(END, item) self.origselforeground = listbox.cget("selectforeground") self.origselbackground = listbox.cget("selectbackground") scrollbar.config(command=listbox.yview) scrollbar.pack(side=RIGHT, fill=Y) listbox.pack(side=LEFT, fill=BOTH, expand=True) acw.lift() # work around bug in Tk 8.5.18+ (issue #24570) # Initialize the listbox selection self.listbox.select_set(self._binary_search(self.start)) self._selection_changed() # bind events self.hideaid = acw.bind(HIDE_VIRTUAL_EVENT_NAME, self.hide_event) self.hidewid = self.widget.bind(HIDE_VIRTUAL_EVENT_NAME, self.hide_event) acw.event_add(HIDE_VIRTUAL_EVENT_NAME, HIDE_FOCUS_OUT_SEQUENCE) for seq in HIDE_SEQUENCES: self.widget.event_add(HIDE_VIRTUAL_EVENT_NAME, seq) self.keypressid = self.widget.bind(KEYPRESS_VIRTUAL_EVENT_NAME, self.keypress_event) for seq in KEYPRESS_SEQUENCES: self.widget.event_add(KEYPRESS_VIRTUAL_EVENT_NAME, seq) self.keyreleaseid = self.widget.bind(KEYRELEASE_VIRTUAL_EVENT_NAME, self.keyrelease_event) self.widget.event_add(KEYRELEASE_VIRTUAL_EVENT_NAME,KEYRELEASE_SEQUENCE) self.listupdateid = listbox.bind(LISTUPDATE_SEQUENCE, self.listselect_event) self.is_configuring = False self.winconfigid = acw.bind(WINCONFIG_SEQUENCE, self.winconfig_event) self.doubleclickid = listbox.bind(DOUBLECLICK_SEQUENCE, self.doubleclick_event) return None def winconfig_event(self, event): if self.is_configuring: # Avoid running on recursive callback invocations. return self.is_configuring = True if not self.is_active(): return # Since the event may occur after the completion window is gone, # catch potential TclError exceptions when accessing acw. See: bpo-41611. try: # Position the completion list window text = self.widget text.see(self.startindex) x, y, cx, cy = text.bbox(self.startindex) acw = self.autocompletewindow if platform.system().startswith('Windows'): # On Windows an update() call is needed for the completion # list window to be created, so that we can fetch its width # and height. However, this is not needed on other platforms # (tested on Ubuntu and macOS) but at one point began # causing freezes on macOS. See issues 37849 and 41611. acw.update() acw_width, acw_height = acw.winfo_width(), acw.winfo_height() text_width, text_height = text.winfo_width(), text.winfo_height() new_x = text.winfo_rootx() + min(x, max(0, text_width - acw_width)) new_y = text.winfo_rooty() + y if (text_height - (y + cy) >= acw_height # enough height below or y < acw_height): # not enough height above # place acw below current line new_y += cy else: # place acw above current line new_y -= acw_height acw.wm_geometry("+%d+%d" % (new_x, new_y)) acw.update_idletasks() except TclError: pass if platform.system().startswith('Windows'): # See issue 15786. When on Windows platform, Tk will misbehave # to call winconfig_event multiple times, we need to prevent this, # otherwise mouse button double click will not be able to used. try: acw.unbind(WINCONFIG_SEQUENCE, self.winconfigid) except TclError: pass self.winconfigid = None self.is_configuring = False def _hide_event_check(self): if not self.autocompletewindow: return try: if not self.autocompletewindow.focus_get(): self.hide_window() except KeyError: # See issue 734176, when user click on menu, acw.focus_get() # will get KeyError. self.hide_window() def hide_event(self, event): # Hide autocomplete list if it exists and does not have focus or # mouse click on widget / text area. if self.is_active(): if event.type == EventType.FocusOut: # On Windows platform, it will need to delay the check for # acw.focus_get() when click on acw, otherwise it will return # None and close the window self.widget.after(1, self._hide_event_check) elif event.type == EventType.ButtonPress: # ButtonPress event only bind to self.widget self.hide_window() def listselect_event(self, event): if self.is_active(): self.userwantswindow = True cursel = int(self.listbox.curselection()[0]) self._change_start(self.completions[cursel]) def doubleclick_event(self, event): # Put the selected completion in the text, and close the list cursel = int(self.listbox.curselection()[0]) self._change_start(self.completions[cursel]) self.hide_window() def keypress_event(self, event): if not self.is_active(): return None keysym = event.keysym if hasattr(event, "mc_state"): state = event.mc_state else: state = 0 if keysym != "Tab": self.lastkey_was_tab = False if (len(keysym) == 1 or keysym in ("underscore", "BackSpace") or (self.mode == FILES and keysym in ("period", "minus"))) \ and not (state & ~MC_SHIFT): # Normal editing of text if len(keysym) == 1: self._change_start(self.start + keysym) elif keysym == "underscore": self._change_start(self.start + '_') elif keysym == "period": self._change_start(self.start + '.') elif keysym == "minus": self._change_start(self.start + '-') else: # keysym == "BackSpace" if len(self.start) == 0: self.hide_window() return None self._change_start(self.start[:-1]) self.lasttypedstart = self.start self.listbox.select_clear(0, int(self.listbox.curselection()[0])) self.listbox.select_set(self._binary_search(self.start)) self._selection_changed() return "break" elif keysym == "Return": self.complete() self.hide_window() return 'break' elif (self.mode == ATTRS and keysym in ("period", "space", "parenleft", "parenright", "bracketleft", "bracketright")) or \ (self.mode == FILES and keysym in ("slash", "backslash", "quotedbl", "apostrophe")) \ and not (state & ~MC_SHIFT): # If start is a prefix of the selection, but is not '' when # completing file names, put the whole # selected completion. Anyway, close the list. cursel = int(self.listbox.curselection()[0]) if self.completions[cursel][:len(self.start)] == self.start \ and (self.mode == ATTRS or self.start): self._change_start(self.completions[cursel]) self.hide_window() return None elif keysym in ("Home", "End", "Prior", "Next", "Up", "Down") and \ not state: # Move the selection in the listbox self.userwantswindow = True cursel = int(self.listbox.curselection()[0]) if keysym == "Home": newsel = 0 elif keysym == "End": newsel = len(self.completions)-1 elif keysym in ("Prior", "Next"): jump = self.listbox.nearest(self.listbox.winfo_height()) - \ self.listbox.nearest(0) if keysym == "Prior": newsel = max(0, cursel-jump) else: assert keysym == "Next" newsel = min(len(self.completions)-1, cursel+jump) elif keysym == "Up": newsel = max(0, cursel-1) else: assert keysym == "Down" newsel = min(len(self.completions)-1, cursel+1) self.listbox.select_clear(cursel) self.listbox.select_set(newsel) self._selection_changed() self._change_start(self.completions[newsel]) return "break" elif (keysym == "Tab" and not state): if self.lastkey_was_tab: # two tabs in a row; insert current selection and close acw cursel = int(self.listbox.curselection()[0]) self._change_start(self.completions[cursel]) self.hide_window() return "break" else: # first tab; let AutoComplete handle the completion self.userwantswindow = True self.lastkey_was_tab = True return None elif any(s in keysym for s in ("Shift", "Control", "Alt", "Meta", "Command", "Option")): # A modifier key, so ignore return None elif event.char and event.char >= ' ': # Regular character with a non-length-1 keycode self._change_start(self.start + event.char) self.lasttypedstart = self.start self.listbox.select_clear(0, int(self.listbox.curselection()[0])) self.listbox.select_set(self._binary_search(self.start)) self._selection_changed() return "break" else: # Unknown event, close the window and let it through. self.hide_window() return None def keyrelease_event(self, event): if not self.is_active(): return if self.widget.index("insert") != \ self.widget.index("%s+%dc" % (self.startindex, len(self.start))): # If we didn't catch an event which moved the insert, close window self.hide_window() def is_active(self): return self.autocompletewindow is not None def complete(self): self._change_start(self._complete_string(self.start)) # The selection doesn't change. def hide_window(self): if not self.is_active(): return # unbind events self.autocompletewindow.event_delete(HIDE_VIRTUAL_EVENT_NAME, HIDE_FOCUS_OUT_SEQUENCE) for seq in HIDE_SEQUENCES: self.widget.event_delete(HIDE_VIRTUAL_EVENT_NAME, seq) self.autocompletewindow.unbind(HIDE_VIRTUAL_EVENT_NAME, self.hideaid) self.widget.unbind(HIDE_VIRTUAL_EVENT_NAME, self.hidewid) self.hideaid = None self.hidewid = None for seq in KEYPRESS_SEQUENCES: self.widget.event_delete(KEYPRESS_VIRTUAL_EVENT_NAME, seq) self.widget.unbind(KEYPRESS_VIRTUAL_EVENT_NAME, self.keypressid) self.keypressid = None self.widget.event_delete(KEYRELEASE_VIRTUAL_EVENT_NAME, KEYRELEASE_SEQUENCE) self.widget.unbind(KEYRELEASE_VIRTUAL_EVENT_NAME, self.keyreleaseid) self.keyreleaseid = None self.listbox.unbind(LISTUPDATE_SEQUENCE, self.listupdateid) self.listupdateid = None if self.winconfigid: self.autocompletewindow.unbind(WINCONFIG_SEQUENCE, self.winconfigid) self.winconfigid = None # Re-focusOn frame.text (See issue #15786) self.widget.focus_set() # destroy widgets self.scrollbar.destroy() self.scrollbar = None self.listbox.destroy() self.listbox = None self.autocompletewindow.destroy() self.autocompletewindow = None if __name__ == '__main__': from unittest import main main('idlelib.idle_test.test_autocomplete_w', verbosity=2, exit=False) # TODO: autocomplete/w htest here