merge kees cook's directional-navigation branch

This commit is contained in:
Chris Jones 2008-12-20 00:34:32 +00:00
commit 9721ee5d12
3 changed files with 237 additions and 15 deletions

View File

@ -114,6 +114,10 @@ Defaults = {
'new_tab' : '<Ctrl><Shift>T',
'go_next' : ('<Ctrl><Shift>N','<Ctrl>Tab'),
'go_prev' : ('<Ctrl><Shift>P','<Ctrl><Shift>Tab'),
'go_up' : '<Alt>Up',
'go_down' : '<Alt>Down',
'go_left' : '<Alt>Left',
'go_right' : '<Alt>Right',
'split_horiz' : '<Ctrl><Shift>O',
'split_vert' : '<Ctrl><Shift>E',
'close_term' : '<Ctrl><Shift>W',

View File

@ -823,7 +823,201 @@ class Terminator:
return True
return False
def go_to (self, term, selector):
current = self.term_list.index (term)
target = selector (term)
if not target is None:
term = self.term_list[target]
##we need to set the current page of each notebook
self._set_current_notebook_page_recursive(term)
term._vte.grab_focus ()
def _select_direction (self, term, matcher):
current = self.term_list.index (term)
current_geo = term.get_geometry ()
best_index = None
best_geo = None
for i in range(0,len(self.term_list)):
if i == current:
continue
possible = self.term_list[i]
possible_geo = possible.get_geometry ()
#import pprint
#print "I am %d" % (current)
#pprint.pprint(current_geo)
#print "I saw %d" % (i)
#pprint.pprint(possible_geo)
if matcher (current_geo, possible_geo, best_geo):
best_index = i
best_geo = possible_geo
#if best_index is None:
# print "nothing best"
#else:
# print "sending %d" % (best_index)
return best_index
def _match_up (self, current_geo, possible_geo, best_geo):
'''We want to find terminals that are fully above the top
border, but closest in the y direction, breaking ties via
the closest cursor x position.'''
#print "matching up..."
# top edge of the current terminal
edge = current_geo['origin_y']
# botoom edge of the possible target
new_edge = possible_geo['origin_y']+possible_geo['span_y']
if new_edge < edge:
#print "new_edge < edge"
if best_geo is None:
#print "first thing left"
return True
best_edge = best_geo['origin_y']+best_geo['span_y']
if new_edge > best_edge:
#print "closer y"
return True
if new_edge == best_edge:
#print "same y"
cursor = current_geo['origin_x'] + current_geo['cursor_x']
new_cursor = possible_geo['origin_x'] + possible_geo['cursor_x']
best_cursor = best_geo['origin_x'] + best_geo['cursor_x']
if abs(new_cursor - cursor) < abs(best_cursor - cursor):
#print "closer x"
return True
#print "fail"
return False
def _match_down (self, current_geo, possible_geo, best_geo):
'''We want to find terminals that are fully below the bottom
border, but closest in the y direction, breaking ties via
the closest cursor x position.'''
#print "matching down..."
# bottom edge of the current terminal
edge = current_geo['origin_y']+current_geo['span_y']
# top edge of the possible target
new_edge = possible_geo['origin_y']
#print "edge: %d new_edge: %d" % (edge, new_edge)
if new_edge > edge:
#print "new_edge > edge"
if best_geo is None:
#print "first thing right"
return True
best_edge = best_geo['origin_y']
#print "best_edge: %d" % (best_edge)
if new_edge < best_edge:
#print "closer y"
return True
if new_edge == best_edge:
#print "same y"
cursor = current_geo['origin_x'] + current_geo['cursor_x']
new_cursor = possible_geo['origin_x'] + possible_geo['cursor_x']
best_cursor = best_geo['origin_x'] + best_geo['cursor_x']
if abs(new_cursor - cursor) < abs(best_cursor - cursor):
#print "closer x"
return True
#print "fail"
return False
def _match_left (self, current_geo, possible_geo, best_geo):
'''We want to find terminals that are fully to the left of
the left-side border, but closest in the x direction, breaking
ties via the closest cursor y position.'''
#print "matching left..."
# left-side edge of the current terminal
edge = current_geo['origin_x']
# right-side edge of the possible target
new_edge = possible_geo['origin_x']+possible_geo['span_x']
if new_edge < edge:
#print "new_edge(%d) < edge(%d)" % (new_edge, edge)
if best_geo is None:
#print "first thing left"
return True
best_edge = best_geo['origin_x']+best_geo['span_x']
if new_edge > best_edge:
#print "closer x (new_edge(%d) > best_edge(%d))" % (new_edge, best_edge)
return True
if new_edge == best_edge:
#print "same x"
cursor = current_geo['origin_y'] + current_geo['cursor_y']
new_cursor = possible_geo['origin_y'] + possible_geo['cursor_y']
best_cursor = best_geo['origin_y'] + best_geo['cursor_y']
if abs(new_cursor - cursor) < abs(best_cursor - cursor):
#print "closer y"
return True
#print "fail"
return False
def _match_right (self, current_geo, possible_geo, best_geo):
'''We want to find terminals that are fully to the right of
the right-side border, but closest in the x direction, breaking
ties via the closest cursor y position.'''
#print "matching right..."
# right-side edge of the current terminal
edge = current_geo['origin_x']+current_geo['span_x']
# left-side edge of the possible target
new_edge = possible_geo['origin_x']
#print "edge: %d new_edge: %d" % (edge, new_edge)
if new_edge > edge:
#print "new_edge > edge"
if best_geo is None:
#print "first thing right"
return True
best_edge = best_geo['origin_x']
#print "best_edge: %d" % (best_edge)
if new_edge < best_edge:
#print "closer x"
return True
if new_edge == best_edge:
#print "same x"
cursor = current_geo['origin_y'] + current_geo['cursor_y']
new_cursor = possible_geo['origin_y'] + possible_geo['cursor_y']
best_cursor = best_geo['origin_y'] + best_geo['cursor_y']
if abs(new_cursor - cursor) < abs(best_cursor - cursor):
#print "closer y"
return True
#print "fail"
return False
def _select_up (self, term):
return self._select_direction (term, self._match_up)
def _select_down (self, term):
return self._select_direction (term, self._match_down)
def _select_left (self, term):
return self._select_direction (term, self._match_left)
def _select_right (self, term):
return self._select_direction (term, self._match_right)
def go_next (self, term):
self.go_to (term, self._select_next)
def go_prev (self, term):
self.go_to (term, self._select_prev)
def go_up (self, term):
self.go_to (term, self._select_up)
def go_down (self, term):
self.go_to (term, self._select_down)
def go_left (self, term):
self.go_to (term, self._select_left)
def go_right (self, term):
self.go_to (term, self._select_right)
def _select_next (self, term):
current = self.term_list.index (term)
next = None
if self.conf.cycle_term_tab:
@ -839,17 +1033,11 @@ class Terminator:
next = 0
else:
next = current + 1
return next
nextterm = self.term_list[next]
##we need to set the current page of each notebook
self._set_current_notebook_page_recursive(nextterm)
nextterm._vte.grab_focus ()
def go_prev (self, term):
def _select_prev (self, term):
current = self.term_list.index (term)
previous = None
if self.conf.cycle_term_tab:
notebookpage = self.get_first_notebook_page(term)
if notebookpage:
@ -863,12 +1051,7 @@ class Terminator:
previous = len (self.term_list) - 1
else:
previous = current - 1
#self.window.set_title(self.term_list[previous]._vte.get_window_title())
previousterm = self.term_list[previous]
##we need to set the current page of each notebook
self._set_current_notebook_page_recursive(previousterm)
previousterm._vte.grab_focus ()
return previous
def _set_current_notebook_page_recursive(self, widget):
page = self.get_first_notebook_page(widget)

View File

@ -747,6 +747,18 @@ text/plain
def key_go_prev(self):
self.terminator.go_prev (self)
def key_go_up(self):
self.terminator.go_up (self)
def key_go_down(self):
self.terminator.go_down (self)
def key_go_left(self):
self.terminator.go_left (self)
def key_go_right(self):
self.terminator.go_right (self)
def key_split_horiz(self):
self.terminator.splitaxis (self, False)
@ -872,6 +884,29 @@ text/plain
startrow = max(0, endrow - self.conf.scrollback_lines)
return(startrow, endrow)
def get_geometry (self):
'''Returns Gdk.Window.get_position(), pixel-based cursor position,
and Gdk.Window.get_geometry()'''
reply = dict()
x, y = self._vte.window.get_origin ()
reply.setdefault('origin_x',x)
reply.setdefault('origin_y',y)
column, row = self._vte.get_cursor_position ()
cursor_x = column * self._vte.get_char_width ()
cursor_y = row * self._vte.get_char_height ()
reply.setdefault('cursor_x', cursor_x)
reply.setdefault('cursor_y', cursor_y)
geometry = self._vte.window.get_geometry()
reply.setdefault('offset_x', geometry[0])
reply.setdefault('offset_y', geometry[1])
reply.setdefault('span_x', geometry[2])
reply.setdefault('span_y', geometry[3])
reply.setdefault('depth', geometry[4])
return reply
def create_popup_menu (self, widget, event = None):
menu = gtk.Menu ()
url = None