def get_control_widgets( self ):
self.t = GraphUpdater( self.cfg, self.updater, self.theme,
self.info_bar, self.xdot )
self.t.start()
return self.xdot.get()
def get_control_widgets(self):
self.t = GraphUpdater(self.cfg, self.updater, self.theme,
self.info_bar, self.xdot)
self.t.start()
return self.xdot.get()
class ControlGraph(object):
"""
Dependency graph suite control interface.
"""
def __init__(self, cfg, updater, theme, dot_size, info_bar,
get_right_click_menu, log_colors, insert_task_popup):
# NOTE: this view has separate family Group and Ungroup buttons
# instead of a single Group/Ungroup toggle button, unlike the
# other views the graph view can display intermediate states
# between fully grouped and fully ungrouped (well, so can the
# tree view, but in that case the toggle button determines
# whether it displays a flat list or a proper tree view).
self.cfg = cfg
self.updater = updater
self.theme = theme
self.info_bar = info_bar
self.get_right_click_menu = get_right_click_menu
self.log_colors = log_colors
self.insert_task_popup = insert_task_popup
self.gcapture_windows = []
self.xdot = xdot_widgets()
self.xdot.widget.connect( 'clicked', self.on_url_clicked )
self.xdot.widget.connect_after( 'motion-notify-event', self.on_motion_notify )
self.last_url = None
def get_control_widgets( self ):
self.t = GraphUpdater( self.cfg, self.updater, self.theme,
self.info_bar, self.xdot )
self.t.start()
return self.xdot.get()
def toggle_graph_disconnect( self, w, update_button ):
if w.get_active():
self.t.graph_disconnect = True
self._set_tooltip( w, "Click to reconnect" )
update_button.set_sensitive(True)
else:
self.t.graph_disconnect = False
self._set_tooltip( w, "Click to disconnect" )
update_button.set_sensitive(False)
return True
def graph_update( self, w ):
self.t.action_required = True
def on_url_clicked( self, widget, url, event ):
if event.button != 3:
return False
m = re.match( 'base:(.*)', url )
if m:
# base graph node
task_id = m.groups()[0]
self.right_click_menu( event, task_id, type='base graph task' )
return
self.right_click_menu( event, url, type='live task' )
def on_motion_notify( self, widget, event ):
"""Add a new tooltip when the cursor moves in the graph."""
url = self.xdot.widget.get_url( event.x, event.y )
if url == self.last_url:
return False
self.last_url = url
if not hasattr(self.xdot.widget, "set_tooltip_text"):
# Unfortunately, the older gtk.Tooltips doesn't work well here.
# gtk.Widget.set_tooltip_text was introduced at PyGTK 2.12
return False
if url is None:
self.xdot.widget.set_tooltip_text(None)
return False
url = unicode(url.url)
m = re.match( 'base:(.*)', url )
if m:
#print 'BASE GRAPH'
task_id = m.groups()[0]
#warning_dialog(
# task_id + "\n"
# "This task is part of the base graph, taken from the\n"
# "suite config file (suite.rc) dependencies section, \n"
# "but it does not currently exist in the running suite." ).warn()
self.xdot.widget.set_tooltip_text(self.t.get_summary(task_id))
return False
# URL is task ID
#print 'LIVE TASK'
self.xdot.widget.set_tooltip_text(self.t.get_summary(url))
return False
def stop(self):
self.t.quit = True
def right_click_menu( self, event, task_id, type='live task' ):
name, point_string = cylc.TaskID.split( task_id )
menu = gtk.Menu()
menu_root = gtk.MenuItem( task_id )
menu_root.set_submenu( menu )
timezoom_item_direct = gtk.MenuItem( 'Focus on ' + point_string )
timezoom_item_direct.connect(
'activate', self.focused_timezoom_direct, point_string)
# TODO - pre cylc-6 could focus on a range of points (was hours-based).
#timezoom_item = gtk.MenuItem( 'Focus on Range' )
#timezoom_item.connect( 'activate', self.focused_timezoom_popup, task_id )
timezoom_reset_item = gtk.MenuItem( 'Focus Reset' )
timezoom_reset_item.connect( 'activate', self.focused_timezoom_direct, None )
group_item = gtk.ImageMenuItem( 'Group' )
img = gtk.image_new_from_stock( 'group', gtk.ICON_SIZE_MENU )
group_item.set_image(img)
group_item.set_sensitive( not self.t.have_leaves_and_feet or name not in self.t.feet )
group_item.connect( 'activate', self.grouping, name, True )
ungroup_item = gtk.ImageMenuItem( 'UnGroup' )
img = gtk.image_new_from_stock( 'ungroup', gtk.ICON_SIZE_MENU )
ungroup_item.set_image(img)
ungroup_item.set_sensitive( not self.t.have_leaves_and_feet or name not in self.t.leaves )
ungroup_item.connect( 'activate', self.grouping, name, False )
ungroup_rec_item = gtk.ImageMenuItem( 'Recursive UnGroup' )
img = gtk.image_new_from_stock( 'ungroup', gtk.ICON_SIZE_MENU )
ungroup_rec_item.set_image(img)
ungroup_rec_item.set_sensitive( not self.t.have_leaves_and_feet or name not in self.t.leaves )
ungroup_rec_item.connect( 'activate', self.grouping, name, False, True )
title_item = gtk.MenuItem( 'Task: ' + task_id.replace("_", "__") )
title_item.set_sensitive(False)
menu.append( title_item )
menu.append( gtk.SeparatorMenuItem() )
if type is not 'live task':
insert_item = gtk.ImageMenuItem( 'Insert ...' )
img = gtk.image_new_from_stock( gtk.STOCK_DIALOG_INFO, gtk.ICON_SIZE_MENU )
insert_item.set_image(img)
menu.append( insert_item )
insert_item.connect(
'button-press-event',
lambda *a: self.insert_task_popup(
is_fam=(name in self.t.descendants),
name=name, point_string=point_string
)
)
menu.append( gtk.SeparatorMenuItem() )
menu.append( timezoom_item_direct )
#menu.append( timezoom_item )
menu.append( timezoom_reset_item )
menu.append( gtk.SeparatorMenuItem() )
menu.append( group_item )
menu.append( ungroup_item )
menu.append( ungroup_rec_item )
if type == 'live task':
is_fam = (name in self.t.descendants)
default_menu = self.get_right_click_menu( task_id, hide_task=True,
task_is_family=is_fam )
for item in default_menu.get_children():
default_menu.remove( item )
menu.append( item )
menu.show_all()
menu.popup( None, None, None, event.button, event.time )
# TODO - popup menus are not automatically destroyed and can be
# reused if saved; however, we need to reconstruct or at least
# alter ours dynamically => should destroy after each use to
# prevent a memory leak? But I'm not sure how to do this as yet.)
return True
def grouping( self, w, name, group, rec=False ):
self.t.ungroup_recursive = rec
self.t.group_all = False
self.t.ungroup_all = False
if group:
self.t.group = [name]
self.t.ungroup = []
else:
self.t.ungroup = [name]
self.t.group = []
self.t.action_required = True
self.t.best_fit = True
def rearrange( self, col, n ):
cols = self.ttreeview.get_columns()
for i_n in range(len(cols)):
if i_n == n:
cols[i_n].set_sort_indicator(True)
else:
cols[i_n].set_sort_indicator(False)
# col is cols[n]
if col.get_sort_order() == gtk.SORT_ASCENDING:
col.set_sort_order(gtk.SORT_DESCENDING)
else:
col.set_sort_order(gtk.SORT_ASCENDING)
self.ttreestore.set_sort_column_id(n, col.get_sort_order())
def get_menuitems( self ):
"""Return the menu items specific to this view."""
items = []
graph_range_item = gtk.MenuItem( 'Time Range Focus ...' )
items.append( graph_range_item )
graph_range_item.connect( 'activate', self.graph_timezoom_popup )
crop_item = gtk.CheckMenuItem( 'Toggle _Crop Base Graph' )
items.append( crop_item )
crop_item.set_active( self.t.crop )
crop_item.connect( 'activate', self.toggle_crop )
menu_filter_item = gtk.ImageMenuItem( 'Task _Filtering ...' )
img = gtk.image_new_from_stock( gtk.STOCK_CLEAR, gtk.ICON_SIZE_MENU )
menu_filter_item.set_image(img)
items.append( menu_filter_item )
menu_filter_item.connect( 'activate', self.filter_popup )
self.menu_group_item = gtk.ImageMenuItem( '_Group All Families' )
img = gtk.image_new_from_stock( 'group', gtk.ICON_SIZE_MENU )
self.menu_group_item.set_image(img)
items.append( self.menu_group_item )
self.menu_group_item.connect( 'activate', self.group_all, True )
self.menu_ungroup_item = gtk.ImageMenuItem( '_UnGroup All Families' )
img = gtk.image_new_from_stock( 'ungroup', gtk.ICON_SIZE_MENU )
self.menu_ungroup_item.set_image(img)
items.append( self.menu_ungroup_item )
self.menu_ungroup_item.connect( 'activate', self.group_all, False )
menu_left_to_right_item = gtk.CheckMenuItem(
'_Left-to-right Graphing' )
items.append( menu_left_to_right_item )
menu_left_to_right_item.set_active( self.t.orientation == "LR" )
menu_left_to_right_item.connect( 'activate',
self.toggle_left_to_right_mode )
self.menu_subgraphs_item = gtk.CheckMenuItem(
'_Organise by Cycle Point' )
items.append( self.menu_subgraphs_item )
self.menu_subgraphs_item.set_active( self.t.subgraphs_on )
self.menu_subgraphs_item.connect(
'activate',
self.toggle_cycle_point_subgraphs
)
igsui_item = gtk.CheckMenuItem( '_Ignore Suicide Triggers' )
items.append( igsui_item )
igsui_item.set_active( self.t.ignore_suicide )
igsui_item.connect( 'activate', self.toggle_ignore_suicide_triggers )
return items
def _set_tooltip( self, widget, tip_text ):
tip = gtk.Tooltips()
tip.enable()
tip.set_tip( widget, tip_text )
def get_toolitems( self ):
"""Return the tool bar items specific to this view."""
items = []
for child in self.xdot.vbox.get_children():
if isinstance(child, gtk.HButtonBox):
self.xdot.vbox.remove(child)
self.group_toolbutton = gtk.ToolButton()
g_image = gtk.image_new_from_stock( 'group', gtk.ICON_SIZE_SMALL_TOOLBAR )
self.group_toolbutton.set_icon_widget( g_image )
self.group_toolbutton.set_label( "Group" )
self.group_toolbutton.connect( 'clicked', self.group_all, True )
self._set_tooltip( self.group_toolbutton, "Graph View - Click to group all task families" )
items.append( self.group_toolbutton )
self.ungroup_toolbutton = gtk.ToolButton()
g_image = gtk.image_new_from_stock( 'ungroup', gtk.ICON_SIZE_SMALL_TOOLBAR )
self.ungroup_toolbutton.set_icon_widget( g_image )
self.ungroup_toolbutton.set_label( "Ungroup" )
self.ungroup_toolbutton.connect( 'clicked', self.group_all, False )
self._set_tooltip( self.ungroup_toolbutton, "Graph View - Click to ungroup all task families" )
items.append( self.ungroup_toolbutton )
self.subgraphs_button = gtk.ToggleToolButton()
image = gtk.image_new_from_stock( gtk.STOCK_LEAVE_FULLSCREEN,
gtk.ICON_SIZE_SMALL_TOOLBAR )
self.subgraphs_button.set_icon_widget( image )
self.subgraphs_button.connect(
'clicked', self.toggle_cycle_point_subgraphs )
self.subgraphs_button.set_label( None )
self._set_tooltip(
self.subgraphs_button,
"Graph View - Click to organise by cycle point"
)
items.append( self.subgraphs_button )
zoomin_button = gtk.ToolButton( gtk.STOCK_ZOOM_IN )
zoomin_button.connect( 'clicked', self.xdot.widget.on_zoom_in )
zoomin_button.set_label( None )
self._set_tooltip( zoomin_button, "Graph View - Zoom In" )
items.append( zoomin_button )
zoomout_button = gtk.ToolButton( gtk.STOCK_ZOOM_OUT )
zoomout_button.connect( 'clicked', self.xdot.widget.on_zoom_out )
zoomout_button.set_label( None )
self._set_tooltip( zoomout_button, "Graph View - Zoom Out" )
items.append( zoomout_button )
zoomfit_button = gtk.ToolButton( gtk.STOCK_ZOOM_FIT )
zoomfit_button.connect('clicked', self.xdot.widget.on_zoom_fit)
zoomfit_button.set_label( None )
self._set_tooltip( zoomfit_button, "Graph View - Best Fit" )
items.append( zoomfit_button )
zoom100_button = gtk.ToolButton( gtk.STOCK_ZOOM_100 )
zoom100_button.connect('clicked', self.xdot.widget.on_zoom_100)
zoom100_button.set_label( None )
self._set_tooltip( zoom100_button, "Graph View - Normal Size" )
items.append( zoom100_button )
connect_button = gtk.ToggleToolButton()
image = gtk.image_new_from_stock( gtk.STOCK_DISCONNECT,
gtk.ICON_SIZE_SMALL_TOOLBAR )
connect_button.set_icon_widget( image )
connect_button.set_label( "Disconnect" )
self._set_tooltip( connect_button, "Graph View - Click to disconnect" )
items.append( connect_button )
update_button = gtk.ToolButton( gtk.STOCK_REFRESH )
update_button.connect( 'clicked', self.graph_update )
update_button.set_label( None )
update_button.set_sensitive( False )
self._set_tooltip( update_button, "Graph View - Update graph" )
items.append( update_button )
connect_button.connect( 'clicked', self.toggle_graph_disconnect, update_button )
return items
def group_all( self, w, group ):
if group:
self.t.group_all = True
self.t.ungroup_all = False
if "graph" in self.cfg.ungrouped_views:
self.cfg.ungrouped_views.remove("graph")
else:
self.t.ungroup_all = True
self.t.group_all = False
if "graph" not in self.cfg.ungrouped_views:
self.cfg.ungrouped_views.append("graph")
self.t.action_required = True
self.t.best_fit = True
def toggle_crop( self, w ):
self.t.crop = not self.t.crop
self.t.action_required = True
def toggle_cycle_point_subgraphs( self, toggle_item ):
subgraphs_on = toggle_item.get_active()
if subgraphs_on == self.t.subgraphs_on:
return
self.t.subgraphs_on = subgraphs_on
if isinstance( toggle_item, gtk.ToggleToolButton ):
self.menu_subgraphs_item.set_active( self.t.subgraphs_on )
else:
self.subgraphs_button.set_active( self.t.subgraphs_on )
self.t.action_required = True
def toggle_left_to_right_mode( self, w ):
"""Change the graph to left-to-right or top-to-bottom."""
if self.t.orientation == "TB": # Top -> bottom ordering
self.t.orientation = "LR" # Left -> right ordering
elif self.t.orientation == "LR":
self.t.orientation = "TB"
self.t.action_required = True
def toggle_ignore_suicide_triggers( self, w ):
self.t.ignore_suicide = not self.t.ignore_suicide
self.t.action_required = True
def filter_popup( self, w ):
window = gtk.Window()
window.modify_bg( gtk.STATE_NORMAL,
gtk.gdk.color_parse( self.log_colors.get_color()))
window.set_border_width(5)
window.set_title( "Task Filtering")
parent_window = self.xdot.widget.get_toplevel()
if isinstance(parent_window, gtk.Window):
window.set_transient_for( parent_window )
window.set_type_hint( gtk.gdk.WINDOW_TYPE_HINT_DIALOG )
vbox = gtk.VBox()
# TODO - error checking on date range given
box = gtk.HBox()
label = gtk.Label( 'Exclude (regex)' )
box.pack_start( label, True )
exclude_entry = gtk.Entry()
box.pack_start (exclude_entry, True)
vbox.pack_start( box )
box = gtk.HBox()
label = gtk.Label( 'Include (regex)' )
box.pack_start( label, True )
include_entry = gtk.Entry()
box.pack_start (include_entry, True)
vbox.pack_start( box )
filterbox = gtk.HBox()
# to initially filter out 'succeeded' and 'waiting' tasks
#filter_states = [ 'waiting', 'succeeded' ]
for st in task_state.legal:
b = gtk.CheckButton( task_state.labels[st] )
filterbox.pack_start(b)
#if st in filter_states:
# b.set_active(False)
#else:
b.set_active(True)
vbox.pack_start( filterbox )
cancel_button = gtk.Button( "_Close" )
cancel_button.connect("clicked", lambda x: window.destroy() )
reset_button = gtk.Button( "_Reset (No Filtering)" )
reset_button.connect("clicked", self.filter_reset )
apply_button = gtk.Button( "_Apply" )
apply_button.connect("clicked", self.filter,
exclude_entry, include_entry, filterbox)
hbox = gtk.HBox()
hbox.pack_start( apply_button, False )
hbox.pack_start( reset_button, False )
hbox.pack_end( cancel_button, False )
#hbox.pack_end( help_button, False )
vbox.pack_start( hbox )
window.add( vbox )
window.show_all()
def filter_reset( self, w):
self.t.filter_include = None
self.t.filter_exclude = None
self.t.state_filter = None
self.t.action_required = True
def filter( self, w, excl_e, incl_e, fbox ):
filters = {}
filters["excl"] = excl_e.get_text()
filters["incl"] = incl_e.get_text()
for filt_name, filt in filters.items():
if not filt:
filters[filt_name] = None
continue
try:
re.compile( filt )
except re.error as exc:
warning_dialog(
'Bad filter regex: %s: error: %s' % (filt, exc)).warn()
filters[filt_name] = None
self.t.filter_include = filters["incl"]
self.t.filter_exclude = filters["excl"]
fstates = []
for b in fbox.get_children():
if not b.get_active():
# sub '_' from button label keyboard mnemonics
fstates.append( re.sub('_', '', b.get_label()))
if len(fstates) > 0:
self.t.state_filter = fstates
else:
self.t.state_filter = None
self.t.action_required = True
# def focused_timezoom_popup( self, w, id ):
# window = gtk.Window()
# window.modify_bg( gtk.STATE_NORMAL,
# gtk.gdk.color_parse( self.log_colors.get_color()))
# window.set_border_width(5)
# window.set_title( "Cycle Point Zoom")
# parent_window = self.xdot.widget.get_toplevel()
# if isinstance(parent_window, gtk.Window):
# window.set_transient_for( parent_window )
# window.set_type_hint( gtk.gdk.WINDOW_TYPE_HINT_DIALOG )
# vbox = gtk.VBox()
#
# name, point_string = cylc.TaskID.split( id )
# # TODO - do we need to check that oldest_point_string is defined yet?
#
# #diff_pre = ctime - self.t.oldest_ctime.hours
# #diff_post = self.t.newest_ctime - ctime.hours
# # ...
# #start_entry.set_text(str(diff_pre))
# #stop_entry.set_text(str(diff_post))
#
# # TODO - error checking on date range given
# box = gtk.HBox()
# label = gtk.Label( 'Pre (hours)' )
# box.pack_start( label, True )
# start_entry = gtk.Entry()
# box.pack_start (start_entry, True)
# vbox.pack_start( box )
#
# box = gtk.HBox()
# label = gtk.Label( 'Post (hours)' )
# box.pack_start( label, True )
# stop_entry = gtk.Entry()
# box.pack_start (stop_entry, True)
# vbox.pack_start( box )
#
# cancel_button = gtk.Button( "_Close" )
# cancel_button.connect("clicked", lambda x: window.destroy() )
#
# reset_button = gtk.Button( "_Reset (No Zoom)" )
# reset_button.connect("clicked", self.focused_timezoom_direct, None )
#
# apply_button = gtk.Button( "_Apply" )
# apply_button.connect("clicked", self.focused_timezoom,
# point_string, start_entry, stop_entry )
#
# hbox = gtk.HBox()
# hbox.pack_start( apply_button, False )
# hbox.pack_start( reset_button, False )
# hbox.pack_end( cancel_button, False )
# #hbox.pack_end( help_button, False )
# vbox.pack_start( hbox )
#
# window.add( vbox )
# window.show_all()
def focused_timezoom_direct( self, w, point_string ):
self.t.focus_start_point_string = point_string
self.t.focus_stop_point_string = point_string
self.t.action_required = True
self.t.best_fit = True
def graph_timezoom_popup( self, w ):
window = gtk.Window()
window.modify_bg( gtk.STATE_NORMAL,
gtk.gdk.color_parse( self.log_colors.get_color()))
window.set_border_width(5)
window.set_title( "Time Zoom")
parent_window = self.xdot.widget.get_toplevel()
if isinstance(parent_window, gtk.Window):
window.set_transient_for( parent_window )
window.set_type_hint( gtk.gdk.WINDOW_TYPE_HINT_DIALOG )
vbox = gtk.VBox()
# TODO - error checking on date range given
box = gtk.HBox()
label = gtk.Label( 'Start CYCLE' )
box.pack_start( label, True )
start_entry = gtk.Entry()
start_entry.set_max_length(14)
if self.t.oldest_point_string:
start_entry.set_text(self.t.oldest_point_string)
box.pack_start (start_entry, True)
vbox.pack_start( box )
box = gtk.HBox()
label = gtk.Label( 'Stop CYCLE' )
box.pack_start( label, True )
stop_entry = gtk.Entry()
stop_entry.set_max_length(14)
if self.t.newest_point_string:
stop_entry.set_text(self.t.newest_point_string)
box.pack_start (stop_entry, True)
vbox.pack_start( box )
cancel_button = gtk.Button( "_Close" )
cancel_button.connect("clicked", lambda x: window.destroy() )
reset_button = gtk.Button( "_Reset (No Zoom)" )
reset_button.connect("clicked", self.focused_timezoom_direct, None )
apply_button = gtk.Button( "_Apply" )
apply_button.connect("clicked", self.graph_timezoom,
start_entry, stop_entry )
hbox = gtk.HBox()
hbox.pack_start( apply_button, False )
hbox.pack_start( reset_button, False )
hbox.pack_end( cancel_button, False )
#hbox.pack_end( help_button, False )
vbox.pack_start( hbox )
window.add( vbox )
window.show_all()
def graph_timezoom(self, w, start_e, stop_e):
self.t.focus_start_point_string = start_e.get_text()
self.t.focus_stop_point_string = stop_e.get_text()
self.t.best_fit = True
self.t.action_required = True
class ControlGraph(object):
"""
Dependency graph suite control interface.
"""
def __init__(self, cfg, updater, theme, dot_size, info_bar,
get_right_click_menu, log_colors, insert_task_popup):
# NOTE: this view has separate family Group and Ungroup buttons
# instead of a single Group/Ungroup toggle button, unlike the
# other views the graph view can display intermediate states
# between fully grouped and fully ungrouped (well, so can the
# tree view, but in that case the toggle button determines
# whether it displays a flat list or a proper tree view).
self.cfg = cfg
self.updater = updater
self.theme = theme
self.info_bar = info_bar
self.get_right_click_menu = get_right_click_menu
self.log_colors = log_colors
self.insert_task_popup = insert_task_popup
self.gcapture_windows = []
self.xdot = xdot_widgets()
self.xdot.widget.connect('clicked', self.on_url_clicked)
self.xdot.widget.connect_after('motion-notify-event',
self.on_motion_notify)
self.last_url = None
def get_control_widgets(self):
self.t = GraphUpdater(self.cfg, self.updater, self.theme,
self.info_bar, self.xdot)
self.t.start()
return self.xdot.get()
def toggle_graph_disconnect(self, w, update_button):
if w.get_active():
self.t.graph_disconnect = True
self._set_tooltip(w, "Click to reconnect")
update_button.set_sensitive(True)
else:
self.t.graph_disconnect = False
self._set_tooltip(w, "Click to disconnect")
update_button.set_sensitive(False)
return True
def graph_update(self, w):
self.t.action_required = True
def on_url_clicked(self, widget, url, event):
if event.button != 3:
return False
m = re.match('base:(.*)', url)
if m:
# base graph node
task_id = m.groups()[0]
self.right_click_menu(event, task_id, type='base graph task')
return
self.right_click_menu(event, url, type='live task')
def on_motion_notify(self, widget, event):
"""Add a new tooltip when the cursor moves in the graph."""
url = self.xdot.widget.get_url(event.x, event.y)
if url == self.last_url:
return False
self.last_url = url
if not hasattr(self.xdot.widget, "set_tooltip_text"):
# Unfortunately, the older gtk.Tooltips doesn't work well here.
# gtk.Widget.set_tooltip_text was introduced at PyGTK 2.12
return False
if url is None:
self.xdot.widget.set_tooltip_text(None)
return False
url = unicode(url.url)
m = re.match('base:(.*)', url)
if m:
#print 'BASE GRAPH'
task_id = m.groups()[0]
#warning_dialog(
# task_id + "\n"
# "This task is part of the base graph, taken from the\n"
# "suite config file (suite.rc) dependencies section, \n"
# "but it does not currently exist in the running suite." ).warn()
self.xdot.widget.set_tooltip_text(self.t.get_summary(task_id))
return False
# URL is task ID
#print 'LIVE TASK'
self.xdot.widget.set_tooltip_text(self.t.get_summary(url))
return False
def stop(self):
self.t.quit = True
def right_click_menu(self, event, task_id, type='live task'):
name, point_string = cylc.TaskID.split(task_id)
menu = gtk.Menu()
menu_root = gtk.MenuItem(task_id)
menu_root.set_submenu(menu)
timezoom_item_direct = gtk.MenuItem('Focus on ' + point_string)
timezoom_item_direct.connect('activate', self.focused_timezoom_direct,
point_string)
# TODO - pre cylc-6 could focus on a range of points (was hours-based).
#timezoom_item = gtk.MenuItem( 'Focus on Range' )
#timezoom_item.connect( 'activate', self.focused_timezoom_popup, task_id )
timezoom_reset_item = gtk.MenuItem('Focus Reset')
timezoom_reset_item.connect('activate', self.focused_timezoom_direct,
None)
group_item = gtk.ImageMenuItem('Group')
img = gtk.image_new_from_stock('group', gtk.ICON_SIZE_MENU)
group_item.set_image(img)
group_item.set_sensitive(not self.t.have_leaves_and_feet
or name not in self.t.feet)
group_item.connect('activate', self.grouping, name, True)
ungroup_item = gtk.ImageMenuItem('UnGroup')
img = gtk.image_new_from_stock('ungroup', gtk.ICON_SIZE_MENU)
ungroup_item.set_image(img)
ungroup_item.set_sensitive(not self.t.have_leaves_and_feet
or name not in self.t.leaves)
ungroup_item.connect('activate', self.grouping, name, False)
ungroup_rec_item = gtk.ImageMenuItem('Recursive UnGroup')
img = gtk.image_new_from_stock('ungroup', gtk.ICON_SIZE_MENU)
ungroup_rec_item.set_image(img)
ungroup_rec_item.set_sensitive(not self.t.have_leaves_and_feet
or name not in self.t.leaves)
ungroup_rec_item.connect('activate', self.grouping, name, False, True)
title_item = gtk.MenuItem('Task: ' + task_id.replace("_", "__"))
title_item.set_sensitive(False)
menu.append(title_item)
menu.append(gtk.SeparatorMenuItem())
if type is not 'live task':
insert_item = gtk.ImageMenuItem('Insert ...')
img = gtk.image_new_from_stock(gtk.STOCK_DIALOG_INFO,
gtk.ICON_SIZE_MENU)
insert_item.set_image(img)
menu.append(insert_item)
insert_item.connect(
'button-press-event', lambda *a: self.insert_task_popup(
is_fam=(name in self.t.descendants),
name=name,
point_string=point_string))
menu.append(gtk.SeparatorMenuItem())
menu.append(timezoom_item_direct)
#menu.append( timezoom_item )
menu.append(timezoom_reset_item)
menu.append(gtk.SeparatorMenuItem())
menu.append(group_item)
menu.append(ungroup_item)
menu.append(ungroup_rec_item)
if type == 'live task':
is_fam = (name in self.t.descendants)
default_menu = self.get_right_click_menu(task_id,
hide_task=True,
task_is_family=is_fam)
for item in default_menu.get_children():
default_menu.remove(item)
menu.append(item)
menu.show_all()
menu.popup(None, None, None, event.button, event.time)
# TODO - popup menus are not automatically destroyed and can be
# reused if saved; however, we need to reconstruct or at least
# alter ours dynamically => should destroy after each use to
# prevent a memory leak? But I'm not sure how to do this as yet.)
return True
def grouping(self, w, name, group, rec=False):
self.t.ungroup_recursive = rec
self.t.group_all = False
self.t.ungroup_all = False
if group:
self.t.group = [name]
self.t.ungroup = []
else:
self.t.ungroup = [name]
self.t.group = []
self.t.action_required = True
self.t.best_fit = True
def rearrange(self, col, n):
cols = self.ttreeview.get_columns()
for i_n in range(len(cols)):
if i_n == n:
cols[i_n].set_sort_indicator(True)
else:
cols[i_n].set_sort_indicator(False)
# col is cols[n]
if col.get_sort_order() == gtk.SORT_ASCENDING:
col.set_sort_order(gtk.SORT_DESCENDING)
else:
col.set_sort_order(gtk.SORT_ASCENDING)
self.ttreestore.set_sort_column_id(n, col.get_sort_order())
def get_menuitems(self):
"""Return the menu items specific to this view."""
items = []
graph_range_item = gtk.MenuItem('Time Range Focus ...')
items.append(graph_range_item)
graph_range_item.connect('activate', self.graph_timezoom_popup)
crop_item = gtk.CheckMenuItem('Toggle _Crop Base Graph')
items.append(crop_item)
crop_item.set_active(self.t.crop)
crop_item.connect('activate', self.toggle_crop)
menu_filter_item = gtk.ImageMenuItem('Task _Filtering ...')
img = gtk.image_new_from_stock(gtk.STOCK_CLEAR, gtk.ICON_SIZE_MENU)
menu_filter_item.set_image(img)
items.append(menu_filter_item)
menu_filter_item.connect('activate', self.filter_popup)
self.menu_group_item = gtk.ImageMenuItem('_Group All Families')
img = gtk.image_new_from_stock('group', gtk.ICON_SIZE_MENU)
self.menu_group_item.set_image(img)
items.append(self.menu_group_item)
self.menu_group_item.connect('activate', self.group_all, True)
self.menu_ungroup_item = gtk.ImageMenuItem('_UnGroup All Families')
img = gtk.image_new_from_stock('ungroup', gtk.ICON_SIZE_MENU)
self.menu_ungroup_item.set_image(img)
items.append(self.menu_ungroup_item)
self.menu_ungroup_item.connect('activate', self.group_all, False)
menu_left_to_right_item = gtk.CheckMenuItem('_Left-to-right Graphing')
items.append(menu_left_to_right_item)
menu_left_to_right_item.set_active(self.t.orientation == "LR")
menu_left_to_right_item.connect('activate',
self.toggle_left_to_right_mode)
self.menu_subgraphs_item = gtk.CheckMenuItem(
'_Organise by Cycle Point')
items.append(self.menu_subgraphs_item)
self.menu_subgraphs_item.set_active(self.t.subgraphs_on)
self.menu_subgraphs_item.connect('activate',
self.toggle_cycle_point_subgraphs)
igsui_item = gtk.CheckMenuItem('_Ignore Suicide Triggers')
items.append(igsui_item)
igsui_item.set_active(self.t.ignore_suicide)
igsui_item.connect('activate', self.toggle_ignore_suicide_triggers)
return items
def _set_tooltip(self, widget, tip_text):
tip = gtk.Tooltips()
tip.enable()
tip.set_tip(widget, tip_text)
def get_toolitems(self):
"""Return the tool bar items specific to this view."""
items = []
for child in self.xdot.vbox.get_children():
if isinstance(child, gtk.HButtonBox):
self.xdot.vbox.remove(child)
self.group_toolbutton = gtk.ToolButton()
g_image = gtk.image_new_from_stock('group',
gtk.ICON_SIZE_SMALL_TOOLBAR)
self.group_toolbutton.set_icon_widget(g_image)
self.group_toolbutton.set_label("Group")
self.group_toolbutton.connect('clicked', self.group_all, True)
self._set_tooltip(self.group_toolbutton,
"Graph View - Click to group all task families")
items.append(self.group_toolbutton)
self.ungroup_toolbutton = gtk.ToolButton()
g_image = gtk.image_new_from_stock('ungroup',
gtk.ICON_SIZE_SMALL_TOOLBAR)
self.ungroup_toolbutton.set_icon_widget(g_image)
self.ungroup_toolbutton.set_label("Ungroup")
self.ungroup_toolbutton.connect('clicked', self.group_all, False)
self._set_tooltip(self.ungroup_toolbutton,
"Graph View - Click to ungroup all task families")
items.append(self.ungroup_toolbutton)
self.subgraphs_button = gtk.ToggleToolButton()
image = gtk.image_new_from_stock(gtk.STOCK_LEAVE_FULLSCREEN,
gtk.ICON_SIZE_SMALL_TOOLBAR)
self.subgraphs_button.set_icon_widget(image)
self.subgraphs_button.connect('clicked',
self.toggle_cycle_point_subgraphs)
self.subgraphs_button.set_label(None)
self._set_tooltip(self.subgraphs_button,
"Graph View - Click to organise by cycle point")
items.append(self.subgraphs_button)
zoomin_button = gtk.ToolButton(gtk.STOCK_ZOOM_IN)
zoomin_button.connect('clicked', self.xdot.widget.on_zoom_in)
zoomin_button.set_label(None)
self._set_tooltip(zoomin_button, "Graph View - Zoom In")
items.append(zoomin_button)
zoomout_button = gtk.ToolButton(gtk.STOCK_ZOOM_OUT)
zoomout_button.connect('clicked', self.xdot.widget.on_zoom_out)
zoomout_button.set_label(None)
self._set_tooltip(zoomout_button, "Graph View - Zoom Out")
items.append(zoomout_button)
zoomfit_button = gtk.ToolButton(gtk.STOCK_ZOOM_FIT)
zoomfit_button.connect('clicked', self.xdot.widget.on_zoom_fit)
zoomfit_button.set_label(None)
self._set_tooltip(zoomfit_button, "Graph View - Best Fit")
items.append(zoomfit_button)
zoom100_button = gtk.ToolButton(gtk.STOCK_ZOOM_100)
zoom100_button.connect('clicked', self.xdot.widget.on_zoom_100)
zoom100_button.set_label(None)
self._set_tooltip(zoom100_button, "Graph View - Normal Size")
items.append(zoom100_button)
connect_button = gtk.ToggleToolButton()
image = gtk.image_new_from_stock(gtk.STOCK_DISCONNECT,
gtk.ICON_SIZE_SMALL_TOOLBAR)
connect_button.set_icon_widget(image)
connect_button.set_label("Disconnect")
self._set_tooltip(connect_button, "Graph View - Click to disconnect")
items.append(connect_button)
update_button = gtk.ToolButton(gtk.STOCK_REFRESH)
update_button.connect('clicked', self.graph_update)
update_button.set_label(None)
update_button.set_sensitive(False)
self._set_tooltip(update_button, "Graph View - Update graph")
items.append(update_button)
connect_button.connect('clicked', self.toggle_graph_disconnect,
update_button)
return items
def group_all(self, w, group):
if group:
self.t.group_all = True
self.t.ungroup_all = False
if "graph" in self.cfg.ungrouped_views:
self.cfg.ungrouped_views.remove("graph")
else:
self.t.ungroup_all = True
self.t.group_all = False
if "graph" not in self.cfg.ungrouped_views:
self.cfg.ungrouped_views.append("graph")
self.t.action_required = True
self.t.best_fit = True
def toggle_crop(self, w):
self.t.crop = not self.t.crop
self.t.action_required = True
def toggle_cycle_point_subgraphs(self, toggle_item):
subgraphs_on = toggle_item.get_active()
if subgraphs_on == self.t.subgraphs_on:
return
self.t.subgraphs_on = subgraphs_on
if isinstance(toggle_item, gtk.ToggleToolButton):
self.menu_subgraphs_item.set_active(self.t.subgraphs_on)
else:
self.subgraphs_button.set_active(self.t.subgraphs_on)
self.t.action_required = True
def toggle_left_to_right_mode(self, w):
"""Change the graph to left-to-right or top-to-bottom."""
if self.t.orientation == "TB": # Top -> bottom ordering
self.t.orientation = "LR" # Left -> right ordering
elif self.t.orientation == "LR":
self.t.orientation = "TB"
self.t.action_required = True
def toggle_ignore_suicide_triggers(self, w):
self.t.ignore_suicide = not self.t.ignore_suicide
self.t.action_required = True
def filter_popup(self, w):
window = gtk.Window()
window.modify_bg(gtk.STATE_NORMAL,
gtk.gdk.color_parse(self.log_colors.get_color()))
window.set_border_width(5)
window.set_title("Task Filtering")
parent_window = self.xdot.widget.get_toplevel()
if isinstance(parent_window, gtk.Window):
window.set_transient_for(parent_window)
window.set_type_hint(gtk.gdk.WINDOW_TYPE_HINT_DIALOG)
vbox = gtk.VBox()
# TODO - error checking on date range given
box = gtk.HBox()
label = gtk.Label('Exclude (regex)')
box.pack_start(label, True)
exclude_entry = gtk.Entry()
box.pack_start(exclude_entry, True)
vbox.pack_start(box)
box = gtk.HBox()
label = gtk.Label('Include (regex)')
box.pack_start(label, True)
include_entry = gtk.Entry()
box.pack_start(include_entry, True)
vbox.pack_start(box)
filterbox = gtk.HBox()
# to initially filter out 'succeeded' and 'waiting' tasks
#filter_states = [ 'waiting', 'succeeded' ]
for st in task_state.legal:
b = gtk.CheckButton(task_state.labels[st])
filterbox.pack_start(b)
#if st in filter_states:
# b.set_active(False)
#else:
b.set_active(True)
vbox.pack_start(filterbox)
cancel_button = gtk.Button("_Close")
cancel_button.connect("clicked", lambda x: window.destroy())
reset_button = gtk.Button("_Reset (No Filtering)")
reset_button.connect("clicked", self.filter_reset)
apply_button = gtk.Button("_Apply")
apply_button.connect("clicked", self.filter, exclude_entry,
include_entry, filterbox)
hbox = gtk.HBox()
hbox.pack_start(apply_button, False)
hbox.pack_start(reset_button, False)
hbox.pack_end(cancel_button, False)
#hbox.pack_end( help_button, False )
vbox.pack_start(hbox)
window.add(vbox)
window.show_all()
def filter_reset(self, w):
self.t.filter_include = None
self.t.filter_exclude = None
self.t.state_filter = None
self.t.action_required = True
def filter(self, w, excl_e, incl_e, fbox):
filters = {}
filters["excl"] = excl_e.get_text()
filters["incl"] = incl_e.get_text()
for filt_name, filt in filters.items():
if not filt:
filters[filt_name] = None
continue
try:
re.compile(filt)
except re.error as exc:
warning_dialog('Bad filter regex: %s: error: %s' %
(filt, exc)).warn()
filters[filt_name] = None
self.t.filter_include = filters["incl"]
self.t.filter_exclude = filters["excl"]
fstates = []
for b in fbox.get_children():
if not b.get_active():
# sub '_' from button label keyboard mnemonics
fstates.append(re.sub('_', '', b.get_label()))
if len(fstates) > 0:
self.t.state_filter = fstates
else:
self.t.state_filter = None
self.t.action_required = True
# def focused_timezoom_popup( self, w, id ):
# window = gtk.Window()
# window.modify_bg( gtk.STATE_NORMAL,
# gtk.gdk.color_parse( self.log_colors.get_color()))
# window.set_border_width(5)
# window.set_title( "Cycle Point Zoom")
# parent_window = self.xdot.widget.get_toplevel()
# if isinstance(parent_window, gtk.Window):
# window.set_transient_for( parent_window )
# window.set_type_hint( gtk.gdk.WINDOW_TYPE_HINT_DIALOG )
# vbox = gtk.VBox()
#
# name, point_string = cylc.TaskID.split( id )
# # TODO - do we need to check that oldest_point_string is defined yet?
#
# #diff_pre = ctime - self.t.oldest_ctime.hours
# #diff_post = self.t.newest_ctime - ctime.hours
# # ...
# #start_entry.set_text(str(diff_pre))
# #stop_entry.set_text(str(diff_post))
#
# # TODO - error checking on date range given
# box = gtk.HBox()
# label = gtk.Label( 'Pre (hours)' )
# box.pack_start( label, True )
# start_entry = gtk.Entry()
# box.pack_start (start_entry, True)
# vbox.pack_start( box )
#
# box = gtk.HBox()
# label = gtk.Label( 'Post (hours)' )
# box.pack_start( label, True )
# stop_entry = gtk.Entry()
# box.pack_start (stop_entry, True)
# vbox.pack_start( box )
#
# cancel_button = gtk.Button( "_Close" )
# cancel_button.connect("clicked", lambda x: window.destroy() )
#
# reset_button = gtk.Button( "_Reset (No Zoom)" )
# reset_button.connect("clicked", self.focused_timezoom_direct, None )
#
# apply_button = gtk.Button( "_Apply" )
# apply_button.connect("clicked", self.focused_timezoom,
# point_string, start_entry, stop_entry )
#
# hbox = gtk.HBox()
# hbox.pack_start( apply_button, False )
# hbox.pack_start( reset_button, False )
# hbox.pack_end( cancel_button, False )
# #hbox.pack_end( help_button, False )
# vbox.pack_start( hbox )
#
# window.add( vbox )
# window.show_all()
def focused_timezoom_direct(self, w, point_string):
self.t.focus_start_point_string = point_string
self.t.focus_stop_point_string = point_string
self.t.action_required = True
self.t.best_fit = True
def graph_timezoom_popup(self, w):
window = gtk.Window()
window.modify_bg(gtk.STATE_NORMAL,
gtk.gdk.color_parse(self.log_colors.get_color()))
window.set_border_width(5)
window.set_title("Time Zoom")
parent_window = self.xdot.widget.get_toplevel()
if isinstance(parent_window, gtk.Window):
window.set_transient_for(parent_window)
window.set_type_hint(gtk.gdk.WINDOW_TYPE_HINT_DIALOG)
vbox = gtk.VBox()
# TODO - error checking on date range given
box = gtk.HBox()
label = gtk.Label('Start CYCLE')
box.pack_start(label, True)
start_entry = gtk.Entry()
start_entry.set_max_length(14)
if self.t.oldest_point_string:
start_entry.set_text(self.t.oldest_point_string)
box.pack_start(start_entry, True)
vbox.pack_start(box)
box = gtk.HBox()
label = gtk.Label('Stop CYCLE')
box.pack_start(label, True)
stop_entry = gtk.Entry()
stop_entry.set_max_length(14)
if self.t.newest_point_string:
stop_entry.set_text(self.t.newest_point_string)
box.pack_start(stop_entry, True)
vbox.pack_start(box)
cancel_button = gtk.Button("_Close")
cancel_button.connect("clicked", lambda x: window.destroy())
reset_button = gtk.Button("_Reset (No Zoom)")
reset_button.connect("clicked", self.focused_timezoom_direct, None)
apply_button = gtk.Button("_Apply")
apply_button.connect("clicked", self.graph_timezoom, start_entry,
stop_entry)
hbox = gtk.HBox()
hbox.pack_start(apply_button, False)
hbox.pack_start(reset_button, False)
hbox.pack_end(cancel_button, False)
#hbox.pack_end( help_button, False )
vbox.pack_start(hbox)
window.add(vbox)
window.show_all()
def graph_timezoom(self, w, start_e, stop_e):
self.t.focus_start_point_string = start_e.get_text()
self.t.focus_stop_point_string = stop_e.get_text()
self.t.best_fit = True
self.t.action_required = True
