/usr/lib/python2.7/dist-packages/guiqwt/events.py is in python-guiqwt 3.0.2-1ubuntu1.
This file is owned by root:root, with mode 0o644.
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#
# Copyright © 2009-2010 CEA
# Pierre Raybaut
# Licensed under the terms of the CECILL License
# (see guiqwt/__init__.py for details)
# pylint: disable-msg=W0622,R0903
# W0622: complains about filter being a builtin
# R0903: complains about too few public methods which is the purpose here
"""
guiqwt.events
-------------
The `event` module handles event management (states, event filter, ...).
"""
from __future__ import print_function
import weakref
from guidata.qt.QtCore import QEvent, Qt, QObject, QPointF, Signal
from guidata.qt.QtGui import QKeySequence
CursorShape = type(Qt.ArrowCursor)
from guiqwt.config import CONF
from guiqwt.debug import evt_type_to_str, buttons_to_str
# Sélection d'événements ---------
class EventMatch(object):
"""A callable returning true if it matches an event"""
def __call__(self, event):
raise NotImplementedError
def get_event_types(self):
"""Returns a set of event types handled by this
EventMatch.
This is used to quickly optimize events not handled
by any event matchers
"""
return frozenset()
class KeyEventMatch(EventMatch):
"""
A callable returning True if it matches a key event
keys: list of keys or couples (key, modifier)
"""
def __init__(self, keys):
super(KeyEventMatch, self).__init__()
key_list, mod_list = [], []
for item in keys:
if isinstance(item, (tuple, list)):
k, m = item
else:
k = item
# Avoid bad arguments: modifier instead of key
assert k not in (Qt.ControlModifier, Qt.ShiftModifier,
Qt.AltModifier, Qt.NoModifier)
m = Qt.NoModifier
key_list.append(k)
mod_list.append(m)
self.keys = key_list
self.mods = mod_list
def get_event_types(self):
return frozenset((QEvent.KeyPress,))
def __call__(self, event):
if event.type() == QEvent.KeyPress:
my_key = event.key()
my_mod = event.modifiers()
if my_key in self.keys:
mod = self.mods[self.keys.index(my_key)]
if mod == Qt.NoModifier or my_mod & mod:
return True
return False
class StandardKeyMatch(EventMatch):
"""
A callable returning True if it matches a key event
keysequence: QKeySequence.StandardKey integer
"""
def __init__(self, keysequence):
super(StandardKeyMatch, self).__init__()
assert isinstance(keysequence, int)
self.keyseq = keysequence
def get_event_types(self):
return frozenset((QEvent.KeyPress,))
def __call__(self, event):
return event.type() == QEvent.KeyPress and event.matches(self.keyseq)
class MouseEventMatch(EventMatch):
"""Base class for matching mouse events"""
def __init__(self, evt_type, btn, modifiers = Qt.NoModifier):
super(MouseEventMatch, self).__init__()
assert isinstance(modifiers, (int, Qt.KeyboardModifiers))
self.evt_type = evt_type
self.button = btn
self.modifiers = modifiers
def get_event_types(self):
return frozenset((self.evt_type,))
def __call__(self, event):
if event.type() == self.evt_type:
if event.button() == self.button:
if self.modifiers != Qt.NoModifier:
if (event.modifiers() & self.modifiers) == self.modifiers:
return True
elif event.modifiers()==Qt.NoModifier:
return True
return False
def __repr__(self):
return "<MouseMatch: %s/ %08x:%s>" % (evt_type_to_str(self.evt_type),
self.modifiers,
buttons_to_str(self.button))
class MouseMoveMatch(MouseEventMatch):
def __call__(self, event):
if event.type() == self.evt_type:
if ((self.button != Qt.NoButton and
(event.buttons() & self.button == self.button)) or
event.buttons() == Qt.NoButton):
if self.modifiers != Qt.NoModifier:
if (event.modifiers() & self.modifiers) == self.modifiers:
return True
elif event.modifiers() == Qt.NoModifier:
return True
return False
# Machine d'état ----------
class StatefulEventFilter(QObject):
"""Gestion d'une machine d'état pour les événements
d'un canvas
"""
def __init__(self, parent):
super(StatefulEventFilter, self).__init__()
self.states = { 0 : {} } # 0 : cursor 1: panning, 2: zooming
self.cursors = {}
self.state = 0
self.max_state = 0
self.events = {}
self.plot = parent
self.all_event_types = frozenset()
def eventFilter(self, _obj, event):
"""Le callback 'eventfilter' pour Qt"""
if not hasattr(self, "all_event_types"):
print(repr(self), self)
if event.type() not in self.all_event_types:
return False
state = self.states[self.state]
# from pprint import pprint
# print self.state
# pprint(state.keys())
for match, (call_list, next_state) in list(state.items()):
if match(event):
self.set_state(next_state, event)
for call in call_list:
call(self, event) # might change state
return False
def set_state(self, state, event):
"""Change l'état courant.
Peut être appelé par les handlers pour annuler un
changement d'état"""
assert state in self.states
if state == self.state:
return
self.state = state
cursor = self.get_cursor(event)
if cursor is not None:
self.plot.canvas().setCursor(cursor)
def new_state(self):
"""Création (réservation) d'un nouveau numéro d'état"""
self.max_state += 1
self.states[self.max_state] = {}
return self.max_state
def add_event(self, state, match, call, next_state=None):
"""Ajoute une transition sur la machine d'état
si next_state est fourni, il doit correspondre à un état existant
sinon un nouvel état d'arrivée est créé
"""
assert isinstance(state, int)
assert isinstance(match, EventMatch)
self.all_event_types = self.all_event_types.union(match.get_event_types())
entry = self.states[state].setdefault(match, [ [], None ])
entry[0].append(call)
if entry[1] is None:
if next_state is None:
next_state = self.new_state()
else:
pass
else:
if next_state is not None:
assert next_state == entry[1]
else:
next_state = entry[1]
entry[1] = next_state
return next_state
# gestion du curseur
def set_cursor(self, cursor, *states):
"""Associe un curseur à un ou plusieurs états"""
assert isinstance(cursor, CursorShape)
for s in states:
self.cursors[s] = cursor
def get_cursor(self, _event):
"""Récupère le curseur associé à un état / événement donné"""
# on passe event pour eventuellement pouvoir choisir
# le curseur en fonction des touches de modification
cursor = self.cursors.get(self.state, None)
if cursor is None:
# no cursor specified : should keep previous one
return None
return cursor
# Fonction utilitaires
def mouse_press(self, btn, modifiers=Qt.NoModifier):
"""Création d'un filtre pour l'événement MousePress"""
return self.events.setdefault(("mousepress", btn, modifiers),
MouseEventMatch(QEvent.MouseButtonPress,
btn, modifiers))
def mouse_move(self, btn, modifiers=Qt.NoModifier):
"""Création d'un filtre pour l'événement MouseMove"""
return self.events.setdefault(("mousemove", btn, modifiers),
MouseMoveMatch(QEvent.MouseMove,
btn, modifiers))
def mouse_release(self, btn, modifiers=Qt.NoModifier):
"""Création d'un filtre pour l'événement MouseRelease"""
return self.events.setdefault(("mouserelease", btn, modifiers),
MouseEventMatch(QEvent.MouseButtonRelease,
btn, modifiers))
def nothing(self, filter, event):
"""A nothing filter, provided to help removing duplicate handlers"""
pass
class DragHandler(QObject):
"""Classe de base pour les gestionnaires d'événements du type
click - drag - release
"""
cursor = None
def __init__(self, filter, btn, mods=Qt.NoModifier, start_state=0):
super(DragHandler, self).__init__()
self.state0 = filter.add_event(start_state,
filter.mouse_press(btn, mods),
self.start_tracking)
self.state1 = filter.add_event(self.state0,
filter.mouse_move(btn, mods),
self.start_moving)
filter.add_event(self.state1, filter.mouse_move(btn, mods),
self.move, self.state1)
filter.add_event(self.state0, filter.mouse_release(btn, mods),
self.stop_notmoving, start_state)
filter.add_event(self.state1, filter.mouse_release(btn, mods),
self.stop_moving, start_state)
if self.cursor is not None:
filter.set_cursor(self.cursor, self.state0, self.state1)
self.start = None # first mouse position
self.last = None # mouse position seen during last event
self.parent_tracking = None
def get_move_state(self, filter, pos):
rct = filter.plot.contentsRect()
dx = (pos.x(), self.last.x(), self.start.x(), rct.width())
dy = (pos.y(), self.last.y(), self.start.y(), rct.height())
self.last = QPointF(pos)
return dx, dy
def start_tracking(self, _filter, event):
self.start = self.last = QPointF(event.pos())
def start_moving(self, filter, event):
return self.move(filter, event)
def stop_tracking(self, _filter, _event):
pass
#filter.plot.canvas().setMouseTracking(self.parent_tracking)
def stop_notmoving(self, filter, event):
self.stop_tracking(filter, event)
def stop_moving(self, filter, event):
self.stop_tracking(filter, event)
def move(self, filter, event):
raise NotImplementedError()
class ClickHandler(QObject):
"""Classe de base pour les gestionnaires d'événements du type
click - release
"""
#: Signal emitted by ClickHandler on mouse click
SIG_CLICK_EVENT = Signal("PyQt_PyObject", "QEvent")
def __init__(self, filter, btn, mods=Qt.NoModifier, start_state=0):
super(ClickHandler, self).__init__()
self.state0 = filter.add_event(start_state,
filter.mouse_press(btn, mods),
filter.nothing)
filter.add_event(self.state0, filter.mouse_release(btn, mods),
self.click, start_state)
def click(self, filter, event):
self.SIG_CLICK_EVENT.emit(filter, event)
class PanHandler(DragHandler):
cursor = Qt.ClosedHandCursor
def move(self, filter, event):
x_state, y_state = self.get_move_state(filter, event.pos())
filter.plot.do_pan_view(x_state, y_state)
class ZoomHandler(DragHandler):
cursor = Qt.SizeAllCursor
def move(self, filter, event):
x_state, y_state = self.get_move_state(filter, event.pos())
filter.plot.do_zoom_view(x_state, y_state)
class MenuHandler(ClickHandler):
def click(self, filter, event):
menu = filter.plot.get_context_menu()
if menu:
menu.popup(event.globalPos())
class QtDragHandler(DragHandler):
#: Signal emitted by QtDragHandler when starting tracking
SIG_START_TRACKING = Signal("PyQt_PyObject", "QEvent")
#: Signal emitted by QtDragHandler when stopping tracking and not moving
SIG_STOP_NOT_MOVING = Signal("PyQt_PyObject", "QEvent")
#: Signal emitted by QtDragHandler when stopping tracking and moving
SIG_STOP_MOVING = Signal("PyQt_PyObject", "QEvent")
#: Signal emitted by QtDragHandler when moving
SIG_MOVE = Signal("PyQt_PyObject", "QEvent")
def start_tracking(self, filter, event):
DragHandler.start_tracking(self, filter, event)
self.SIG_START_TRACKING.emit(filter, event)
def stop_notmoving(self, filter, event):
self.SIG_STOP_NOT_MOVING.emit(filter, event)
def stop_moving(self, filter, event):
self.SIG_STOP_MOVING.emit(filter, event)
def move(self, filter, event):
self.SIG_MOVE.emit(filter, event)
class AutoZoomHandler(ClickHandler):
def click(self, filter, _event):
filter.plot.do_autoscale()
class MoveHandler(object):
def __init__(self, filter, btn=Qt.NoButton, mods=Qt.NoModifier, start_state=0):
filter.add_event(start_state, filter.mouse_move(btn, mods),
self.move, start_state)
def move(self, filter, event):
filter.plot.do_move_marker(event)
class UndoMoveObject(object):
def __init__(self, obj, pos1, pos2):
self.obj = obj
from guiqwt.baseplot import canvas_to_axes
self.coords1 = canvas_to_axes(obj, pos1)
self.coords2 = canvas_to_axes(obj, pos2)
def is_valid(self):
return self.obj.plot() is not None
def compute_positions(self):
from guiqwt.baseplot import axes_to_canvas
pos1 = QPointF(*axes_to_canvas(self.obj, *self.coords1))
pos2 = QPointF(*axes_to_canvas(self.obj, *self.coords2))
return pos1, pos2
def undo(self):
pos1, pos2 = self.compute_positions()
self.obj.plot().unselect_all()
self.obj.move_local_shape(pos1, pos2)
def redo(self):
pos1, pos2 = self.compute_positions()
self.obj.plot().unselect_all()
self.obj.move_local_shape(pos2, pos1)
class UndoMovePoint(UndoMoveObject):
def __init__(self, obj, pos1, pos2, handle, ctrl):
super(UndoMovePoint, self).__init__(obj, pos1, pos2)
self.handle = handle
self.ctrl = ctrl
def undo(self):
pos1, pos2 = self.compute_positions()
self.obj.move_local_point_to(self.handle, pos1, self.ctrl)
def redo(self):
pos1, pos2 = self.compute_positions()
self.obj.move_local_point_to(self.handle, pos2, self.ctrl)
class ObjectHandler(object):
def __init__(self, filter, btn, mods=Qt.NoModifier, start_state=0,
multiselection=False):
self.multiselection = multiselection
self.start_state = start_state
self.state0 = filter.add_event(start_state,
filter.mouse_press(btn, mods),
self.start_tracking)
filter.add_event(self.state0, filter.mouse_move(btn, mods),
self.move, self.state0)
filter.add_event(self.state0, filter.mouse_release(btn, mods),
self.stop_tracking, start_state)
filter.add_event(start_state, StandardKeyMatch(QKeySequence.Undo),
self.undo, start_state)
filter.add_event(start_state, StandardKeyMatch(QKeySequence.Redo),
self.redo, start_state)
self.handle = None # first mouse position
self.inside = False
self._active = None # mouse position seen during last event
self.last_pos = None
self.unselection_pending = None
self.undo_stack = [None]
self.undo_index = 0
self.first_pos = None
self.undo_action = None
@property
def active(self):
if self._active is not None:
return self._active()
@active.setter
def active(self, value):
if value is None:
self._active = None
else:
self._active = weakref.ref(value)
def add_undo_move_action(self, undo_action):
self.undo_stack = self.undo_stack[:self.undo_index+1]
self.undo_stack.append(undo_action)
self.undo_index = len(self.undo_stack) - 1
def undo(self, filter, event):
action = self.undo_stack[self.undo_index]
if action is not None:
if action.is_valid():
action.undo()
filter.plot.replot()
else:
self.undo_stack.remove(action)
self.undo_index -= 1
def redo(self, filter, event):
if self.undo_index < len(self.undo_stack) - 1:
action = self.undo_stack[self.undo_index + 1]
if action.is_valid():
action.redo()
filter.plot.replot()
self.undo_index += 1
else:
self.undo_stack.remove(action)
def start_tracking(self, filter, event):
plot = filter.plot
self.inside = False
self.active = None
self.handle = None
self.first_pos = pos = event.pos()
self.last_pos = QPointF(pos)
selected = plot.get_active_item()
distance = CONF.get("plot", "selection/distance", 6)
(nearest, nearest_dist, nearest_handle,
nearest_inside) = plot.get_nearest_object(pos, distance)
if nearest is not None:
# Is the nearest object the real deal?
if not nearest.can_select() or nearest_dist >= distance:
# Looking for the nearest object in z containing cursor position
(nearest, nearest_dist, nearest_handle,
nearest_inside) = plot.get_nearest_object_in_z(pos)
# This will unselect active item only if it's not moved afterwards:
self.unselection_pending = selected is nearest
if selected and not self.multiselection:
# An item is selected
self.active = selected
(dist, self.handle, self.inside,
other_object) = self.active.hit_test(pos)
if other_object is not None:
# e.g. LegendBoxItem: 'other_object' is the selected curve
plot.set_active_item(other_object)
return
if dist >= distance and not self.inside:
# The following allows to move together selected items by
# clicking inside any of them (instead of active item only)
other_selitems = [_it for _it in plot.get_selected_items()
if _it is not self.active and _it.can_move()]
for selitem in other_selitems:
dist, handle, inside, _other = selitem.hit_test(pos)
if dist < distance or inside:
self.inside = inside
break
else:
self.__unselect_objects(filter)
filter.set_state(self.start_state, event)
return
else:
# No item is selected
self.active = nearest
self.handle = nearest_handle
self.inside = nearest_inside
dist = nearest_dist
if nearest is not None:
plot.set_active_item(nearest)
if not nearest.selected:
if not self.multiselection:
plot.unselect_all()
plot.select_item(nearest)
# Eventually move or resize selected object:
self.__move_or_resize_object(dist, distance, event, filter)
plot.replot()
def __unselect_objects(self, filter):
"""Unselect selected object*s*"""
plot = filter.plot
plot.unselect_all()
plot.replot()
def __move_or_resize_object(self, dist, distance, event, filter):
if dist < distance and self.handle is not None \
and (self.active.can_resize() or self.active.can_rotate()):
# Resize / move handle
self.inside = False
return
if self.inside and self.active.can_move():
# Move object
return
# can't move, can't resize
filter.set_state(self.start_state, event)
if self.unselection_pending:
self.__unselect_objects(filter)
def move(self, filter, event):
if self.active is None:
return
self.unselection_pending = False
if self.inside:
self.active.move_local_shape(self.last_pos, event.pos())
self.undo_action = UndoMoveObject(self.active, event.pos(),
self.first_pos)
else:
ctrl = event.modifiers() & Qt.ControlModifier == Qt.ControlModifier
self.active.move_local_point_to(self.handle, event.pos(), ctrl)
self.undo_action = UndoMovePoint(self.active, self.first_pos,
event.pos(), self.handle, ctrl)
self.last_pos = QPointF(event.pos())
filter.plot.replot()
def stop_tracking(self, filter, event):
self.add_undo_move_action(self.undo_action)
if self.unselection_pending:
self.__unselect_objects(filter)
self.handle = None
self.active = None
class RectangularSelectionHandler(DragHandler):
#: Signal emitted by RectangularSelectionHandler when ending selection
SIG_END_RECT = Signal("PyQt_PyObject", "QPointF", "QPointF")
def __init__(self, filter, btn, mods=Qt.NoModifier, start_state=0):
super(RectangularSelectionHandler, self).__init__(filter, btn, mods,
start_state)
self.avoid_null_shape = False
def set_shape(self, shape, h0, h1,
setup_shape_cb=None, avoid_null_shape=False):
self.shape = shape
self.shape_h0 = h0
self.shape_h1 = h1
self.setup_shape_cb = setup_shape_cb
self.avoid_null_shape = avoid_null_shape
def start_tracking(self, filter, event):
self.start = self.last = QPointF(event.pos())
def start_moving(self, filter, event):
self.shape.attach(filter.plot)
self.shape.setZ(filter.plot.get_max_z()+1)
if self.avoid_null_shape:
self.start -= QPointF(1, 1)
self.shape.move_local_point_to(self.shape_h0, self.start)
self.shape.move_local_point_to(self.shape_h1, event.pos())
self.start_moving_action(filter, event)
if self.setup_shape_cb is not None:
self.setup_shape_cb(self.shape)
self.shape.show()
filter.plot.replot()
def start_moving_action(self, filter, event):
"""Les classes derivees peuvent surcharger cette methode"""
pass
def move(self, filter, event):
self.shape.move_local_point_to(self.shape_h1, event.pos())
self.move_action(filter, event)
filter.plot.replot()
def move_action(self, filter, event):
"""Les classes derivees peuvent surcharger cette methode"""
pass
def stop_moving(self, filter, event):
self.shape.detach()
self.stop_moving_action(filter, event)
filter.plot.replot()
def stop_moving_action(self, filter, event):
"""Les classes derivees peuvent surcharger cette methode"""
self.SIG_END_RECT.emit(filter, self.start, event.pos())
class ZoomRectHandler(RectangularSelectionHandler):
def stop_moving_action(self, filter, event):
filter.plot.do_zoom_rect_view(self.start, event.pos())
def setup_standard_tool_filter(filter, start_state):
"""Création des filtres standard (pan/zoom) sur boutons milieu/droit"""
# Bouton du milieu
PanHandler(filter, Qt.MidButton, start_state=start_state)
AutoZoomHandler(filter, Qt.MidButton, start_state=start_state)
# Bouton droit
ZoomHandler(filter, Qt.RightButton, start_state=start_state)
MenuHandler(filter, Qt.RightButton, start_state=start_state)
# Autres (touches, move)
MoveHandler(filter, start_state=start_state)
MoveHandler(filter, start_state=start_state, mods=Qt.ShiftModifier)
MoveHandler(filter, start_state=start_state, mods=Qt.AltModifier)
return start_state
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