qabstracttransition.cpp source code [qtbase/src/corelib/statemachine/qabstracttransition.cpp]

1	/****************************************************************************
2	**
3	** Copyright (C) 2016 The Qt Company Ltd.
4	** Contact: https://www.qt.io/licensing/
5	**
6	** This file is part of the QtCore module of the Qt Toolkit.
7	**
8	** $QT_BEGIN_LICENSE:LGPL$
9	** Commercial License Usage
10	** Licensees holding valid commercial Qt licenses may use this file in
11	** accordance with the commercial license agreement provided with the
12	** Software or, alternatively, in accordance with the terms contained in
13	** a written agreement between you and The Qt Company. For licensing terms
14	** and conditions see https://www.qt.io/terms-conditions. For further
15	** information use the contact form at https://www.qt.io/contact-us.
16	**
17	** GNU Lesser General Public License Usage
18	** Alternatively, this file may be used under the terms of the GNU Lesser
19	** General Public License version 3 as published by the Free Software
20	** Foundation and appearing in the file LICENSE.LGPL3 included in the
21	** packaging of this file. Please review the following information to
22	** ensure the GNU Lesser General Public License version 3 requirements
23	** will be met: https://www.gnu.org/licenses/lgpl-3.0.html.
24	**
25	** GNU General Public License Usage
26	** Alternatively, this file may be used under the terms of the GNU
27	** General Public License version 2.0 or (at your option) the GNU General
28	** Public license version 3 or any later version approved by the KDE Free
29	** Qt Foundation. The licenses are as published by the Free Software
30	** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3
31	** included in the packaging of this file. Please review the following
32	** information to ensure the GNU General Public License requirements will
33	** be met: https://www.gnu.org/licenses/gpl-2.0.html and
34	** https://www.gnu.org/licenses/gpl-3.0.html.
35	**
36	** $QT_END_LICENSE$
37	**
38	****************************************************************************/
39
40	#include "qabstracttransition.h"
41	#include "qabstracttransition_p.h"
42	#include "qabstractstate.h"
43	#include "qhistorystate.h"
44	#include "qstate.h"
45	#include "qstatemachine.h"
46
47	QT_BEGIN_NAMESPACE
48
49	/!*
50	\class QAbstractTransition
51	\inmodule QtCore
52
53	\brief The QAbstractTransition class is the base class of transitions between QAbstractState objects.
54
55	\since 4.6
56	\ingroup statemachine
57
58	The QAbstractTransition class is the abstract base class of transitions
59	between states (QAbstractState objects) of a
60	QStateMachine. QAbstractTransition is part of \l{The State Machine
61	Framework}.
62
63	The sourceState() function returns the source of the transition. The
64	targetStates() function returns the targets of the transition. The machine()
65	function returns the state machine that the transition is part of.
66
67	The triggered() signal is emitted when the transition has been triggered.
68
69	Transitions can cause animations to be played. Use the addAnimation()
70	function to add an animation to the transition.
71
72	\section1 Subclassing
73
74	The eventTest() function is called by the state machine to determine whether
75	an event should trigger the transition. In your reimplementation you
76	typically check the event type and cast the event object to the proper type,
77	and check that one or more properties of the event meet your criteria.
78
79	The onTransition() function is called when the transition is triggered;
80	reimplement this function to perform custom processing for the transition.
81	*/
82
83	/!*
84	\property QAbstractTransition::sourceState
85
86	\brief the source state (parent) of this transition
87	*/
88
89	/!*
90	\property QAbstractTransition::targetState
91
92	\brief the target state of this transition
93
94	If a transition has no target state, the transition may still be
95	triggered, but this will not cause the state machine's configuration to
96	change (i.e. the current state will not be exited and re-entered).
97	*/
98
99	/!*
100	\property QAbstractTransition::targetStates
101
102	\brief the target states of this transition
103
104	If multiple states are specified, all must be descendants of the same
105	parallel group state.
106	*/
107
108	/!*
109	\property QAbstractTransition::transitionType
110
111	\brief indicates whether this transition is an internal transition, or an external transition.
112
113	Internal and external transitions behave the same, except for the case of a transition whose
114	source state is a compound state and whose target(s) is a descendant of the source. In such a
115	case, an internal transition will not exit and re-enter its source state, while an external one
116	will.
117
118	By default, the type is an external transition.
119	*/
120
121	/!*
122	\enum QAbstractTransition::TransitionType
123
124	This enum specifies the kind of transition. By default, the type is an external transition.
125
126	\value ExternalTransition Any state that is the source state of a transition (which is not a
127	target-less transition) is left, and re-entered when necessary.
128	\value InternalTransition If the target state of a transition is a sub-state of a compound state,
129	and that compound state is the source state, an internal transition will
130	not leave the source state.
131
132	\sa QAbstractTransition::transitionType
133	*/
134
135	QAbstractTransitionPrivate::QAbstractTransitionPrivate()
136	: transitionType(QAbstractTransition::ExternalTransition)
137	{
138	}
139
140	QStateMachine QAbstractTransitionPrivate::machine() const*
141	{
142	if (QState *source = sourceState())
143	return source->machine();
144	Q_Q(const QAbstractTransition);
145	if (QHistoryState parent = qobject_cast<QHistoryState >(object: q->parent()))
146	return parent->machine();
147	return nullptr;
148	}
149
150	bool QAbstractTransitionPrivate::callEventTest(QEvent *e)
151	{
152	Q_Q(QAbstractTransition);
153	return q->eventTest(event: e);
154	}
155
156	void QAbstractTransitionPrivate::callOnTransition(QEvent *e)
157	{
158	Q_Q(QAbstractTransition);
159	q->onTransition(event: e);
160	}
161
162	QState QAbstractTransitionPrivate::sourceState() const*
163	{
164	return qobject_cast<QState*>(object: parent);
165	}
166
167	void QAbstractTransitionPrivate::emitTriggered()
168	{
169	Q_Q(QAbstractTransition);
170	emit q->triggered(QAbstractTransition::QPrivateSignal ());
171	}
172
173	/!*
174	Constructs a new QAbstractTransition object with the given \a sourceState.
175	*/
176	QAbstractTransition::QAbstractTransition(QState *sourceState)
177	: QObject (*new QAbstractTransitionPrivate, sourceState)
178	{
179	}
180
181	/!*
182	\internal
183	*/
184	QAbstractTransition::QAbstractTransition(QAbstractTransitionPrivate &dd,
185	QState *parent)
186	: QObject (dd, parent)
187	{
188	}
189
190	/!*
191	Destroys this transition.
192	*/
193	QAbstractTransition::~QAbstractTransition()
194	{
195	}
196
197	/!*
198	Returns the source state of this transition, or \nullptr if this
199	transition has no source state.
200	*/
201	QState QAbstractTransition::sourceState() const*
202	{
203	Q_D(const QAbstractTransition);
204	return d->sourceState();
205	}
206
207	/!*
208	Returns the target state of this transition, or \nullptr if the
209	transition has no target.
210	*/
211	QAbstractState QAbstractTransition::targetState() const*
212	{
213	Q_D(const QAbstractTransition);
214	if (d->targetStates.isEmpty())
215	return nullptr;
216	return d->targetStates.first().data();
217	}
218
219	/!*
220	Sets the \a target state of this transition.
221	*/
222	void QAbstractTransition::setTargetState(QAbstractState* target)
223	{
224	Q_D(QAbstractTransition);
225	if ((d->targetStates.size() == `1` && target == d->targetStates.at(i: `0`).data()) \|\|
226	(d->targetStates.isEmpty() && target == nullptr)) {
227	return;
228	}
229	if (!target)
230	d->targetStates.clear();
231	else
232	setTargetStates(QList<QAbstractState*>() << target);
233	emit targetStateChanged(QPrivateSignal ());
234	}
235
236	/!*
237	Returns the target states of this transition, or an empty list if this
238	transition has no target states.
239	*/
240	QList<QAbstractState> QAbstractTransition::targetStates() const*
241	{
242	Q_D(const QAbstractTransition);
243	QList<QAbstractState*> result;
244	for (int i = `0`; i < d->targetStates.size(); ++i) {
245	QAbstractState *target = d->targetStates.at(i).data();
246	if (target)
247	result.append(t: target);
248	}
249	return result;
250	}
251
252	/!*
253	Sets the target states of this transition to be the given \a targets.
254	*/
255	void QAbstractTransition::setTargetStates(const QList<QAbstractState*> &targets)
256	{
257	Q_D(QAbstractTransition);
258
259	// Verify if any of the new target states is a null-pointer:
260	for (int i = `0`; i < targets.size(); ++i) {
261	if (targets.at(i) == nullptr) {
262	qWarning(msg: "QAbstractTransition::setTargetStates: target state(s) cannot be null");
263	return;
264	}
265	}
266
267	// First clean out any target states that got destroyed, but for which we still have a QPointer
268	// around.
269	for (int i = `0`; i < d->targetStates.size(); ) {
270	if (d->targetStates.at(i).isNull()) {
271	d->targetStates.remove(i);
272	} else {
273	++i;
274	}
275	}
276
277	// Easy check: if both lists are empty, we're done.
278	if (targets.isEmpty() && d->targetStates.isEmpty())
279	return;
280
281	bool sameList = true;
282
283	if (targets.size() != d->targetStates.size()) {
284	// If the sizes of the lists are different, we don't need to be smart: they're different. So
285	// we can just set the new list as the targetStates.
286	sameList = false;
287	} else {
288	QVector<QPointer<QAbstractState> > copy(d->targetStates);
289	for (int i = `0`; i < targets.size(); ++i) {
290	sameList &= copy.removeOne(t: targets.at(i));
291	if (!sameList)
292	break; // ok, we now know the lists are not the same, so stop the loop.
293	}
294
295	sameList &= copy.isEmpty();
296	}
297
298	if (sameList)
299	return;
300
301	d->targetStates.resize(asize: targets.size());
302	for (int i = `0`; i < targets.size(); ++i) {
303	d->targetStates [i] = targets.at(i);
304	}
305
306	emit targetStatesChanged(QPrivateSignal ());
307	}
308
309	/!*
310	Returns the type of the transition.
311	*/
312	QAbstractTransition::TransitionType QAbstractTransition::transitionType() const
313	{
314	Q_D(const QAbstractTransition);
315	return d->transitionType;
316	}
317
318	/!*
319	Sets the type of the transition to \a type.
320	*/
321	void QAbstractTransition::setTransitionType(TransitionType type)
322	{
323	Q_D(QAbstractTransition);
324	d->transitionType = type;
325	}
326
327	/!*
328	Returns the state machine that this transition is part of, or
329	\nullptr if the transition is not part of a state machine.
330	*/
331	QStateMachine QAbstractTransition::machine() const*
332	{
333	Q_D(const QAbstractTransition);
334	return d->machine();
335	}
336
337	#if QT_CONFIG(animation)
338
339	/!*
340	Adds the given \a animation to this transition.
341	The transition does not take ownership of the animation.
342
343	\sa removeAnimation(), animations()
344	*/
345	void QAbstractTransition::addAnimation(QAbstractAnimation *animation)
346	{
347	Q_D(QAbstractTransition);
348	if (!animation) {
349	qWarning(msg: "QAbstractTransition::addAnimation: cannot add null animation");
350	return;
351	}
352	d->animations.append(t: animation);
353	}
354
355	/!*
356	Removes the given \a animation from this transition.
357
358	\sa addAnimation()
359	*/
360	void QAbstractTransition::removeAnimation(QAbstractAnimation *animation)
361	{
362	Q_D(QAbstractTransition);
363	if (!animation) {
364	qWarning(msg: "QAbstractTransition::removeAnimation: cannot remove null animation");
365	return;
366	}
367	d->animations.removeOne(t: animation);
368	}
369
370	/!*
371	Returns the list of animations associated with this transition, or an empty
372	list if it has no animations.
373
374	\sa addAnimation()
375	*/
376	QList<QAbstractAnimation> QAbstractTransition::animations() const*
377	{
378	Q_D(const QAbstractTransition);
379	return d->animations;
380	}
381
382	#endif
383
384	/!*
385	\fn QAbstractTransition::eventTest(QEvent event)*
386
387	This function is called to determine whether the given \a event should cause
388	this transition to trigger. Reimplement this function and return true if the
389	event should trigger the transition, otherwise return false.
390	*/
391
392	/!*
393	\fn QAbstractTransition::onTransition(QEvent event)*
394
395	This function is called when the transition is triggered. The given \a event
396	is what caused the transition to trigger. Reimplement this function to
397	perform custom processing when the transition is triggered.
398	*/
399
400	/!*
401	\fn QAbstractTransition::triggered()
402
403	This signal is emitted when the transition has been triggered (after
404	onTransition() has been called).
405	*/
406
407	/!*
408	\fn QAbstractTransition::targetStateChanged()
409	\since 5.4
410
411	This signal is emitted when the targetState property is changed.
412
413	\sa QAbstractTransition::targetState
414	*/
415
416	/!*
417	\fn QAbstractTransition::targetStatesChanged()
418	\since 5.4
419
420	This signal is emitted when the targetStates property is changed.
421
422	\sa QAbstractTransition::targetStates
423	*/
424
425	/!*
426	\reimp
427	*/
428	bool QAbstractTransition::event(QEvent *e)
429	{
430	return QObject::event(event: e);
431	}
432
433	QT_END_NAMESPACE
434
435	#include "moc_qabstracttransition.cpp"
436

source code of qtbase/src/corelib/statemachine/qabstracttransition.cpp